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López-Marmolejo AL, Hernández-Chávez MJ, Gutiérrez-Escobedo G, Selene Herrera-Basurto M, Mora-Montes HM, De Las Peñas A, Castaño I. Microevolution of Candida glabrata (Nakaseomyces glabrata) during an infection. Fungal Genet Biol 2024; 172:103891. [PMID: 38621582 DOI: 10.1016/j.fgb.2024.103891] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/20/2023] [Revised: 03/27/2024] [Accepted: 04/12/2024] [Indexed: 04/17/2024]
Abstract
Candida glabrata (Nakaseomyces glabrata) is an emergent and opportunistic fungal pathogen that colonizes and persists in different niches within its human host. In this work, we studied five clinical isolates from one patient (P7), that have a clonal origin, and all of which come from blood cultures except one, P7-3, obtained from a urine culture. We found phenotypic variation such as sensitivity to high temperature, oxidative stress, susceptibility to two classes of antifungal agents, and cell wall porosity. Only isolate P7-3 is highly resistant to the echinocandin caspofungin while the other four isolates from P7 are sensitive. However, this same isolate P7-3, is the only one that displays susceptibility to fluconazole (FLC), while the rest of the isolates are resistant to this antifungal. We sequenced the PDR1 gene which encodes a transcription factor required to induce the expression of several genes involved in the resistance to FLC and found that all the isolates encode for the same Pdr1 amino acid sequence except for the last isolate P7-5, which contains a single amino acid change, G1099C in the putative Pdr1 transactivation domain. Consistent with the resistance to FLC, we found that the CDR1 gene, encoding the main drug efflux pump in C. glabrata, is highly overexpressed in the FLC-resistant isolates, but not in the FLC-sensitive P7-3. In addition, the resistance to FLC observed in these isolates is dependent on the PDR1 gene. Additionally, we found that all P7 isolates have a different proportion of cell wall carbohydrates compared to our standard strains CBS138 and BG14. In P7 isolates, mannan is the most abundant cell wall component, whereas β-glucan is the most abundant component in our standard strains. Consistently, all P7 isolates have a relatively low cell wall porosity compared to our standard strains. These data show phenotypic and genotypic variability between clonal isolates from different niches within a single host, suggesting microevolution of C. glabrata during an infection.
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Affiliation(s)
- Ana L López-Marmolejo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
| | - Marco J Hernández-Chávez
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
| | - M Selene Herrera-Basurto
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
| | - Héctor M Mora-Montes
- Departamento de Biología, División de Ciencias Naturales, Universidad de Guanajuato, Noria Alta s/n Col. Noria Alta, Guanajuato, Gto CP36050, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí CP 78216, Mexico
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2
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Lacombe C, Aleman-Navaro E, Drujon T, Martinez-Osorio V, Sachon E, Melchy-Pérez E, Carlier L, Fajardo Brigido LE, Fleury Y, Piesse C, Gutiérrez-Escobedo G, De Las Peñas A, Castaño I, Desriac F, Beristain-Hernandez JL, Combadiere C, Rosenstein Y, Auvynet C. Characterization of a New Immunosuppressive and Antimicrobial Peptide, DRS-DA2, Isolated from the Mexican Frog, Pachymedusa dacnicolor. Int J Inflam 2024; 2024:2205864. [PMID: 38250663 PMCID: PMC10799709 DOI: 10.1155/2024/2205864] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/24/2023] [Revised: 10/21/2023] [Accepted: 11/17/2023] [Indexed: 01/23/2024] Open
Abstract
Inflammatory and antimicrobial diseases constitute a major burden for society, and fighting them is a WHO strategic priority. Most of the treatments available to fight inflammatory diseases are anti-inflammatory drugs, such as corticosteroids or immunomodulators that lack cellular specificity and lead to numerous side effects. In addition to suppressing undesired inflammation and reducing disease progression, these drugs lessen the immune system protective functions. Furthermore, treating infectious diseases is more and more challenging due to the rise of microbial resistance to antimicrobial drugs. Thus, controlling the inflammatory process locally without compromising the ability to combat infections is an essential feature in the treatment of inflammatory diseases. We isolated three forms (DRS-DA2N, DRS-DA2NE, and DRS-DA2NEQ) of the same peptide, DRS-DA2, which belongs to the dermaseptin family, from the Mexican tree frog Pachymedusa dacnicolor. Interestingly, DRS-DA2N and DRS-DA2NEQ exhibit a dual activity by inducing the death of leukocytes as well as that of Gram-negative and Gram-positive bacteria, including multiresistant strains, without affecting other cells such as epithelial cells or erythrocytes. We showed that the death of both immune cells and bacteria is induced rapidly by DRS-DA2 and that the membrane is permeabilized, leading to the loss of membrane integrity. We also validated the capacity of DRS-DA2 to regulate the pool of inflammatory cells in vivo in a mouse model of noninfectious peritonitis. After the induction of peritonitis, a local injection of DRS-DA2N could decrease the number of inflammatory cells locally in the peritoneal cavity without inducing a systemic effect, as no changes in the number of inflammatory cells could be detected in blood or in the bone marrow. Collectively, these data suggest that this peptide could be a promising tool in the treatment of inflammatory diseases, such as inflammatory skin diseases, as it could reduce the number of inflammatory cells locally without suppressing the ability to combat infections.
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Affiliation(s)
- Claire Lacombe
- Laboratoire des Biomolécules, LBM, Sorbonne Université, École Normale Supérieure, PSL University, CNRS, Paris, France
- Faculté des Sciences, Université Paris Est-Créteil Val de Marne, Créteil, France
| | - Estefania Aleman-Navaro
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
- Posgrado de Ciencias Bioquímicas, Universidad Nacional Autónoma de México, Mexico City, Mexico
| | - Thierry Drujon
- Laboratoire des Biomolécules, LBM, Sorbonne Université, École Normale Supérieure, PSL University, CNRS, Paris, France
| | - Veronica Martinez-Osorio
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
- Posgrado de Ciencias Bioquímicas, Universidad Nacional Autónoma de México, Mexico City, Mexico
| | - Emmanuelle Sachon
- Laboratoire des Biomolécules, LBM, Sorbonne Université, École Normale Supérieure, PSL University, CNRS, Paris, France
- Plateforme MS3U Mass Spectrometry Sciences Sorbonne University, Fédération de Chimie Moléculaire de Paris Centre, FR2769, Sorbonne Université, Paris, France
| | - Erika Melchy-Pérez
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
| | - Ludovic Carlier
- Laboratoire des Biomolécules, LBM, Sorbonne Université, École Normale Supérieure, PSL University, CNRS, Paris, France
| | - Lorena Elizabeth Fajardo Brigido
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
- Posgrado de Ciencias Bioquímicas, Universidad Nacional Autónoma de México, Mexico City, Mexico
| | - Yannick Fleury
- LUBEM EA 3882, IUT Quimper, Université de Bretagne Occidentale, Quimper, France
| | - Christophe Piesse
- Plateforme de Synthèse Peptidique, Institut de Biologie Paris-Seine (ISBS), Sorbonne Université, CNRS, Paris, France
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, Mexico
| | - Florie Desriac
- LUBEM EA 3882, IUT Quimper, Université de Bretagne Occidentale, Quimper, France
| | - Jose Luis Beristain-Hernandez
- Hepatobiliary and Pancreatic Surgery Clinic, General Surgery Department La Raza National Medical Center, Instituto Mexicano del Seguro Social, Ciudad de México, Mexico
| | - Christophe Combadiere
- Sorbonne Université, Institut National de Santé et de Recherche Medicale (Inserm), Centre National de la Recherche Scientifique (CNRS), Centre d'Immunologie et des Maladies Infectieuses, Cimi-Paris, Paris, France
| | - Yvonne Rosenstein
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
| | - Constance Auvynet
- Instituto de Biotecnología, Universidad Nacional Autónoma de México, Cuernavaca, Morelos, Mexico
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Gutiérrez-Escobedo G, Vázquez-Franco N, López-Marmolejo A, Luna-Arvizu G, Cañas-Villamar I, Castaño I, De Las Peñas A. Characterization of the Trr/Trx system in the fungal pathogen Candida glabrata. Fungal Genet Biol 2023; 166:103799. [PMID: 37105080 DOI: 10.1016/j.fgb.2023.103799] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/22/2023] [Revised: 04/07/2023] [Accepted: 04/12/2023] [Indexed: 04/29/2023]
Abstract
C. glabrata, an opportunistic fungal pathogen, can adapt and resist to different stress conditions. It is highly resistant to oxidant stress compared to other Candida spp and to the phylogenetically related but non-pathogen Saccharomyces cerevisiae. In this work, we describe the Trx/Trr system of C. glabrata composed of Trr1 and Trr2 (thioredoxin reductases) and Trx2 (thioredoxin) that are localized in the cytoplasm and Trx3 present in the mitochondrion. The transcriptional induction of TRR2 and TRX2 by oxidants depends on Yap1 and Skn7 and TRR1 and TRX3 have a low expression level. Both TRR2 and TRX2 play an important role in the oxidative stress response. The absence of TRX2 causes auxotrophy of methionine and cysteine. Trr1 and Trr2 are necessary for survival at high temperatures and for the chronological life span of C. glabrata. Furthermore, the Trx/Trr system is needed for survival in the presence of neutrophils. The role of TRR1 and TRX3 is not clear, but in the presence of neutrophils, they have non-overlapping functions with their TRR2 and TRX2 paralogues.
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Affiliation(s)
- Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí 78216, Mexico
| | - Norma Vázquez-Franco
- Unit for Basic and Applied Microbiology, School of Natural Sciences, Universidad Autónoma de Querétaro, Querétaro, Mexico
| | - Ana López-Marmolejo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí 78216, Mexico
| | - Gabriel Luna-Arvizu
- Department of Biology, Institute of Molecular Biology, University of Oregon, Eugene, OR, USA
| | - Israel Cañas-Villamar
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí 78216, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí 78216, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí 78216, Mexico.
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Nájera-Rivera HD, Rodríguez-Cortez AD, Anaya-Santillán MG, Díaz-Aparicio E, Ramos-Rodríguez AV, Siliceo-Cantero IJ, Vázquez-Franco NC, Nieto-Patlán E, Peñas ADL, Valdés-Vázquez LM, Cobos-Marín L. Multiplex assay for the simultaneous detection of antibodies against small ruminant lentivirus, Mycobacterium avium subsp. paratuberculosis, and Brucella melitensis in goats. Vet World 2023; 16:704-710. [PMID: 37235146 PMCID: PMC10206977 DOI: 10.14202/vetworld.2023.704-710] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/07/2022] [Accepted: 02/27/2023] [Indexed: 05/28/2023] Open
Abstract
Background and Aim Brucellosis, paratuberculosis (PTb), and infections caused by small ruminant lentivirus (SRLV), formerly known as caprine arthritis encephalitis virus (CAEV), adversely affect goat production systems. Nonetheless, commonly used diagnostic tests can only determine one analyte at a time, increasing disease surveillance costs, and limiting their routine use. This study aimed to design and validate a multiplex assay for antibody detection against these three diseases simultaneously. Materials and Methods Two recombinant proteins from the SRLV (p16 and gp38), the native hapten of Brucella melitensis, and the paratuberculosis-protoplasmic antigen 3 from Mycobacterium avium subsp. paratuberculosis (MAP) were used to devise and assess a multiplex assay. Conditions for the Luminex® multiplex test were established and validated by sensitivity, specificity, repeatability, and reproducibility parameters. Cut-off points for each antigen were also established. Results The 3-plex assay had high sensitivity (84%) and specificity (95%). The maximum coefficients of variation were 23.8% and 20.5% for negative and positive control samples, respectively. The p16 and gp38 SRLV antigens are 97% and 95%, similar to the CAEV sequence found in GenBank, respectively. Conclusion The multiplex test can be effectively used for the simultaneous detection of antibodies against SRLV, MAP and B. melitensis in goats.
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Affiliation(s)
| | | | | | | | | | | | | | - Erik Nieto-Patlán
- Department of Microbiology and Immunology, Veterinary School, UNAM, Mexico City, Mexico
| | | | | | - Laura Cobos-Marín
- Department of Microbiology and Immunology, Veterinary School, UNAM, Mexico City, Mexico
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López-Fuentes E, Hernández-Hernández G, De Las Peñas A, Castaño I. Subtelomeric Chromatin Structure by Chromosome Conformation Capture (3C)-qPCR Methodology in Candida glabrata. Methods Mol Biol 2022; 2542:71-89. [PMID: 36008657 DOI: 10.1007/978-1-0716-2549-1_5] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 06/15/2023]
Abstract
Chromatin architecture has an enormous impact on gene regulation, DNA replication, repair, and packaging. Chromatin is organized in a complex hierarchical manner in which distant fragments of DNA can interact with each other through DNA loops. DNA loops can interact between themselves to form topologically associated domains (TADs) that are further organized into functional compartments. In the last two decades, Chromatin Conformation Capture (3C technology) and its high-throughput derivatives allowed detailed analysis of the chromatin architecture. The 3C method is based on ligation of distant fragments brought together by DNA looping. The method analyzes a particular genomic region of interest and quantifies the interactions between a defined fragment with all the surrounding fragments of the region. It consists of four steps: (1) The long-distance interacting chromatin fragments are fixed with formaldehyde in whole cells which are then lysed; (2) the fixed chromatin is digested with a carefully chosen restriction enzymes to separate intervening DNA fragments; (3) the fragments brought into proximity by DNA looping are ligated in conditions favoring intramolecular ligation; and (4) the interactions are quantified by quantitative PCR using the TaqMan technology and unidirectional primers. Herein, we describe the use of this methodology to analyze the chromatin conformation at a subtelomeric locus containing three genes encoding adhesins and several cis-regulatory elements, in the pathogenic yeast Candida glabrata.
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Affiliation(s)
- Eunice López-Fuentes
- Division of Hematology and Oncology, Department of Pediatrics, University of California, San Francisco, San Francisco, CA, USA
| | - Grecia Hernández-Hernández
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, A.C. División de Biología Molecular, San Luis Potosí, Mexico
| | - Alejandro De Las Peñas
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, A.C. División de Biología Molecular, San Luis Potosí, Mexico
| | - Irene Castaño
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, A.C. División de Biología Molecular, San Luis Potosí, Mexico.
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Vázquez-Franco N, Gutiérrez-Escobedo G, Juárez-Reyes A, Orta-Zavalza E, Castaño I, De Las Peñas A. Candida glabrata Hst1-Rfm1-Sum1 complex evolved to control virulence-related genes. Fungal Genet Biol 2021; 159:103656. [PMID: 34974188 DOI: 10.1016/j.fgb.2021.103656] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/02/2020] [Revised: 12/25/2021] [Accepted: 12/27/2021] [Indexed: 11/15/2022]
Abstract
C. glabrata is an opportunistic fungal pathogen and the second most common cause of opportunistic fungal infections in humans, that has evolved virulence factors to become a successful pathogen: strong resistance to oxidative stress, capable to adhere and form biofilms in human epithelial cells as well as to abiotic surfaces and high resistance to xenobiotics. Hst1 (a NAD+-dependent histone deacetylase), Sum1 (putative DNA binding protein) and Rfm1 (connector protein) form a complex (HRS-C) and control the resistance to oxidative stress, to xenobiotics (the antifungal fluconazole), and adherence to epithelial cells. Hst1 is functionally conserved within the Saccharomycetaceae family, Rfm1 shows a close phylogenetic relation within the Saccharomycetaceae family while Sum1 displays a distant phylogenetic relation with members of the family and is not conserved functionally. CDR1 encodes for an ABC transporter (resistance to fluconazole) negatively controlled by HRS-C, for which its binding site is located within 223 bp upstream from the ATG of CDR1. The absence of Hst1 and Sum1 renders the cells hyper-adherent, possibly due to the overexpression of AED1, EPA1, EPA22 and EPA6, all encoding for adhesins. Finally, in a neutrophil survival assay, HST1 and SUM1, are not required for survival. We propose that Sum1 in the HRS-C diverged functionally to control a set of genes implicated in virulence: adherence, resistance to xenobiotics and oxidative stress.
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Affiliation(s)
- Norma Vázquez-Franco
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Alejandro Juárez-Reyes
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Emmanuel Orta-Zavalza
- Departamento de Ciencias Químico-Biológicas, Universidad Autónoma de Ciudad Juárez, Chihuahua, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, #2055, Col. Lomas 4ª Sección, San Luis Potosí, San Luis Potosí 78216, Mexico.
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Hernández-Hernández G, Vera-Salazar LA, Castanedo L, López-Fuentes E, Gutiérrez-Escobedo G, De Las Peñas A, Castaño I. Abf1 Is an Essential Protein That Participates in Cell Cycle Progression and Subtelomeric Silencing in Candida glabrata. J Fungi (Basel) 2021; 7:jof7121005. [PMID: 34946988 PMCID: PMC8708972 DOI: 10.3390/jof7121005] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/19/2021] [Revised: 11/09/2021] [Accepted: 11/12/2021] [Indexed: 12/02/2022] Open
Abstract
Accurate DNA replication and segregation is key to reproduction and cell viability in all organisms. Autonomously replicating sequence-binding factor 1 (Abf1) is a multifunctional protein that has essential roles in replication, transcription, and regional silencing in the model yeast Saccharomyces cerevisiae. In the opportunistic pathogenic fungus Candida glabrata, which is closely related to S. cerevisiae, these processes are important for survival within the host, for example, the regulation of transcription of virulence-related genes like those involved in adherence. Here, we describe that CgABF1 is an essential gene required for cell viability and silencing near the telomeres, where many adhesin-encoding genes reside. CgAbf1 mediated subtelomeric silencing depends on the 43 C-terminal amino acids. We also found that abnormal expression, depletion, or overexpression of Abf1, results in defects in nuclear morphology, nuclear segregation, and transit through the cell cycle. In the absence of ABF1, cells are arrested in G2 but start cycling again after 9 h, coinciding with the loss of cell viability and the appearance of cells with higher DNA content. Overexpression of CgABF1 causes defects in nuclear segregation and cell cycle progression. We suggest that these effects could be due to the deregulation of DNA replication.
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Affiliation(s)
- Grecia Hernández-Hernández
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), Camino a la Presa San José No. 2055 Col. Lomas 4 Sección, San Luis Potosí CP 78233, Mexico; (G.H.-H.); (L.A.V.-S.); (G.G.-E.); (A.D.L.P.)
| | - Laura A. Vera-Salazar
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), Camino a la Presa San José No. 2055 Col. Lomas 4 Sección, San Luis Potosí CP 78233, Mexico; (G.H.-H.); (L.A.V.-S.); (G.G.-E.); (A.D.L.P.)
| | - Leonardo Castanedo
- Department of Plant Physiology, Faculty of Biology and Biotechnology, Ruhr University Bochum, Universitätsstrasse, 150 ND3/30, D-44801 Bochum, Germany;
| | - Eunice López-Fuentes
- Division of Hematology and Oncology, Department of Pediatrics, University of California, San Francisco, CA 94158, USA;
| | - Guadalupe Gutiérrez-Escobedo
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), Camino a la Presa San José No. 2055 Col. Lomas 4 Sección, San Luis Potosí CP 78233, Mexico; (G.H.-H.); (L.A.V.-S.); (G.G.-E.); (A.D.L.P.)
| | - Alejandro De Las Peñas
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), Camino a la Presa San José No. 2055 Col. Lomas 4 Sección, San Luis Potosí CP 78233, Mexico; (G.H.-H.); (L.A.V.-S.); (G.G.-E.); (A.D.L.P.)
| | - Irene Castaño
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), Camino a la Presa San José No. 2055 Col. Lomas 4 Sección, San Luis Potosí CP 78233, Mexico; (G.H.-H.); (L.A.V.-S.); (G.G.-E.); (A.D.L.P.)
- Correspondence: ; Tel.: +52-444-834-2038
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8
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Hernández-Carreón O, Hernández-Howell C, Hernández-Hernández G, Herrera-Basurto MS, González-Gómez BE, Gutiérrez-Escobedo G, García-Calderón NI, Barrón-Pastor D, De Las Peñas A, Castaño I. Highly specific and rapid molecular detection of Candida glabrata in clinical samples. Braz J Microbiol 2021; 52:1733-1744. [PMID: 34331680 DOI: 10.1007/s42770-021-00584-2] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/23/2020] [Accepted: 07/18/2021] [Indexed: 01/08/2023] Open
Abstract
The most common nosocomial fungal infections are caused by several species of Candida, of which Candida glabrata is the second most frequently isolated species from bloodstream infections. C. glabrata displays relatively high minimal inhibitory concentration values (MIC) to the antifungal fluconazole and is associated with high mortality rates. To decrease mortality rates, the appropriate treatment must be administered promptly. C. glabrata contains in its genome several non-identical copies of species-specific sequences. We designed three pairs of C. glabrata-specific primers for endpoint PCR amplification that align to these species-specific sequences and amplify the different copies in the genome. Using these primers, we developed a fast, sensitive, inexpensive, and highly specific PCR-based method to positively detect C. glabrata DNA in a concentration-dependent manner from mixes of purified genomic DNA of several Candida species, as well as from hemocultures and urine clinical samples. This tool can be used for positive identification of C. glabrata in the clinic.
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Affiliation(s)
- Oscar Hernández-Carreón
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Cesia Hernández-Howell
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Grecia Hernández-Hernández
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - M Selene Herrera-Basurto
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Blanca E González-Gómez
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Norma I García-Calderón
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Daniel Barrón-Pastor
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4, 78216, San Luis Potosí, Mexico.
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López-Fuentes E, Gutiérrez-Escobedo G, Timmermans B, Van Dijck P, De Las Peñas A, Castaño I. Candida glabrata's Genome Plasticity Confers a Unique Pattern of Expressed Cell Wall Proteins. J Fungi (Basel) 2018; 4:jof4020067. [PMID: 29874814 PMCID: PMC6023349 DOI: 10.3390/jof4020067] [Citation(s) in RCA: 20] [Impact Index Per Article: 3.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/09/2018] [Revised: 05/29/2018] [Accepted: 06/03/2018] [Indexed: 12/19/2022] Open
Abstract
Candida glabrata is the second most common cause of candidemia, and its ability to adhere to different host cell types, to microorganisms, and to medical devices are important virulence factors. Here, we consider three characteristics that confer extraordinary advantages to C. glabrata within the host. (1) C. glabrata has a large number of genes encoding for adhesins most of which are localized at subtelomeric regions. The number and sequence of these genes varies substantially depending on the strain, indicating that C. glabrata can tolerate high genomic plasticity; (2) The largest family of CWPs (cell wall proteins) is the EPA (epithelial adhesin) family of adhesins. Epa1 is the major adhesin and mediates adherence to epithelial, endothelial and immune cells. Several layers of regulation like subtelomeric silencing, cis-acting regulatory regions, activators, nutritional signaling, and stress conditions tightly regulate the expression of many adhesin-encoding genes in C. glabrata, while many others are not expressed. Importantly, there is a connection between acquired resistance to xenobiotics and increased adherence; (3) Other subfamilies of adhesins mediate adherence to Candida albicans, allowing C. glabrata to efficiently invade the oral epithelium and form robust biofilms. It is noteworthy that every C. glabrata strain analyzed presents a unique pattern of CWPs at the cell surface.
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Affiliation(s)
- Eunice López-Fuentes
- Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), División de Biología Molecular, Camino a la Presa San José 2055, San Luis Potosí, SLP 78216, Mexico.
| | - Guadalupe Gutiérrez-Escobedo
- Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), División de Biología Molecular, Camino a la Presa San José 2055, San Luis Potosí, SLP 78216, Mexico.
| | - Bea Timmermans
- KU Leuven, Laboratory of Molecular Cell Biology, Kasteelpark Arenberg 31 bus 2438, 3001 Leuven, Belgium.
- VIB-KU Leuven Center for Microbiology, 3001 Leuven, Belgium.
| | - Patrick Van Dijck
- KU Leuven, Laboratory of Molecular Cell Biology, Kasteelpark Arenberg 31 bus 2438, 3001 Leuven, Belgium.
- VIB-KU Leuven Center for Microbiology, 3001 Leuven, Belgium.
| | - Alejandro De Las Peñas
- Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), División de Biología Molecular, Camino a la Presa San José 2055, San Luis Potosí, SLP 78216, Mexico.
| | - Irene Castaño
- Instituto Potosino de Investigación Científica y Tecnológica (IPICYT), División de Biología Molecular, Camino a la Presa San José 2055, San Luis Potosí, SLP 78216, Mexico.
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10
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Leiva-Peláez O, Gutiérrez-Escobedo G, López-Fuentes E, Cruz-Mora J, De Las Peñas A, Castaño I. Molecular characterization of the silencing complex SIR in Candida glabrata hyperadherent clinical isolates. Fungal Genet Biol 2018; 118:21-31. [PMID: 29857197 DOI: 10.1016/j.fgb.2018.05.005] [Citation(s) in RCA: 6] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/21/2017] [Revised: 05/16/2018] [Accepted: 05/28/2018] [Indexed: 11/30/2022]
Abstract
An important virulence factor for the fungal pathogen Candida glabrata is the ability to adhere to the host cells, which is mediated by the expression of adhesins. Epa1 is responsible for ∼95% of the in vitro adherence to epithelial cells and is the founding member of the Epa family of adhesins. The majority of EPA genes are localized close to different telomeres, which causes transcriptional repression due to subtelomeric silencing. In C. glabrata there are three Sir proteins (Sir2, Sir3 and Sir4) that are essential for subtelomeric silencing. Among a collection of 79 clinical isolates, some display a hyperadherent phenotype to epithelial cells compared to our standard laboratory strain, BG14. These isolates also express several subtelomeric EPA genes simultaneously. We cloned the SIR2, SIR3 and SIR4 genes from the hyperadherent isolates and from the BG14 and the sequenced strain CBS138 in a replicative vector to complement null mutants in each of these genes in the BG14 background. All the SIR2 and SIR4 alleles tested from selected hyper-adherent isolates were functional and efficient to silence a URA3 reporter gene inserted in a subtelomeric region. The SIR3 alleles from these isolates were also functional, except the allele from isolate MC2 (sir3-MC2), which was not functional to silence the reporter and did not complement the hyperadherent phenotype of the BG14 sir3Δ. Consistently, sir3-MC2 allele is recessive to the SIR3 allele from BG14. Sir3 and Sir4 alleles from the hyperadherent isolates contain several polymorphisms and two of them are present in all the hyperadherent isolates analyzed. Instead, the Sir3 and Sir4 alleles from the BG14 and another non-adherent isolate do not display these polymorphisms and are identical to each other. The particular combination of polymorphisms in sir3-MC2 and in SIR4-MC2 could explain in part the hyperadherent phenotype displayed by this isolate.
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Affiliation(s)
- Osney Leiva-Peláez
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico
| | - Eunice López-Fuentes
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico
| | - José Cruz-Mora
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico
| | - Alejandro De Las Peñas
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico
| | - Irene Castaño
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José #2055, Col. Lomas 4a, San Luis Potosí 78216, Mexico.
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11
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Timmermans B, De Las Peñas A, Castaño I, Van Dijck P. Adhesins in Candida glabrata. J Fungi (Basel) 2018; 4:E60. [PMID: 29783771 PMCID: PMC6023314 DOI: 10.3390/jof4020060] [Citation(s) in RCA: 51] [Impact Index Per Article: 8.5] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/02/2018] [Revised: 05/15/2018] [Accepted: 05/17/2018] [Indexed: 12/31/2022] Open
Abstract
The human fungal pathogen Candida glabrata is causing more and more problems in hospitals, as this species shows an intrinsic antifungal drug resistance or rapidly becomes resistant when challenged with antifungals. C. glabrata only grows in the yeast form, so it is lacking a yeast-to-hyphae switch, which is one of the main virulence factors of C. albicans. An important virulence factor of C. glabrata is its capacity to strongly adhere to many different substrates. To achieve this, C. glabrata expresses a large number of adhesin-encoding genes and genome comparisons with closely related species, including the non-pathogenic S. cerevisiae, which revealed a correlation between the number of adhesin-encoding genes and pathogenicity. The adhesins are involved in the first steps during an infection; they are the first point of contact with the host. For several of these adhesins, their importance in adherence to different substrates and subsequent biofilm formation was demonstrated in vitro or in vivo. In this review, we provide an overview of the role of C. glabrata adhesins during adhesion and biofilm formation both, under in vitro and in vivo conditions.
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Affiliation(s)
- Bea Timmermans
- KU Leuven, Laboratory of Molecular Cell Biology, Kasteelpark Arenberg 31 bus 2438, 3001 Leuven, Belgium.
- VIB-KU Leuven Center for Microbiology, 3001 Leuven, Belgium.
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P., San Luis Potosí 78216 San Luis Potosí, Mexico.
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P., San Luis Potosí 78216 San Luis Potosí, Mexico.
| | - Patrick Van Dijck
- KU Leuven, Laboratory of Molecular Cell Biology, Kasteelpark Arenberg 31 bus 2438, 3001 Leuven, Belgium.
- VIB-KU Leuven Center for Microbiology, 3001 Leuven, Belgium.
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12
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Guerrero-Serrano G, Castanedo L, Cristóbal-Mondragón GR, Montalvo-Arredondo J, Riego-Ruíz L, DeLuna A, De Las Peñas A, Castaño I, Calera MR, Sánchez-Olea R. Npa3/ScGpn1 carboxy-terminal tail is dispensable for cell viability and RNA polymerase II nuclear targeting but critical for microtubule stability and function. Biochim Biophys Acta Mol Cell Res 2016; 1864:451-462. [PMID: 27965115 DOI: 10.1016/j.bbamcr.2016.12.010] [Citation(s) in RCA: 7] [Impact Index Per Article: 0.9] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Subscribe] [Scholar Register] [Received: 05/25/2016] [Revised: 12/03/2016] [Accepted: 12/09/2016] [Indexed: 10/20/2022]
Abstract
Genetic deletion of the essential GTPase Gpn1 or replacement of the endogenous gene by partial loss of function mutants in yeast is associated with multiple cellular phenotypes, including in all cases a marked cytoplasmic retention of RNA polymerase II (RNAPII). Global inhibition of RNAPII-mediated transcription due to malfunction of Gpn1 precludes the identification and study of other cellular function(s) for this GTPase. In contrast to the single Gpn protein present in Archaea, eukaryotic Gpn1 possesses an extension of approximately 100 amino acids at the C-terminal end of the GTPase domain. To determine the importance of this C-terminal extension in Saccharomyces cerevisiae Gpn1, we generated yeast strains expressing either C-terminal truncated (gpn1ΔC) or full-length ScGpn1. We found that ScGpn1ΔC was retained in the cell nucleus, an event physiologically relevant as gpn1ΔC cells contained a higher nuclear fraction of the RNAPII CTD phosphatase Rtr1. gpn1ΔC cells displayed an increased size, a delay in mitosis exit, and an increased sensitivity to the microtubule polymerization inhibitor benomyl at the cell proliferation level and two cellular events that depend on microtubule function: RNAPII nuclear targeting and vacuole integrity. These phenotypes were not caused by inhibition of RNAPII, as in gpn1ΔC cells RNAPII nuclear targeting and transcriptional activity were unaffected. These data, combined with our description here of a genetic interaction between GPN1 and BIK1, a microtubule plus-end tracking protein with a mitotic function, strongly suggest that the ScGpn1 C-terminal tail plays a critical role in microtubule dynamics and mitotic progression in an RNAPII-independent manner.
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Affiliation(s)
- Gehenna Guerrero-Serrano
- Instituto de Física, Universidad Autónoma de San Luis Potosí, Manuel Nava 6, Zona Univesitaria, C.P. 78290, San Luis Potosí, San Luis Potosí, Mexico
| | - Leonardo Castanedo
- Instituto de Física, Universidad Autónoma de San Luis Potosí, Manuel Nava 6, Zona Univesitaria, C.P. 78290, San Luis Potosí, San Luis Potosí, Mexico
| | - Gema R Cristóbal-Mondragón
- Instituto de Física, Universidad Autónoma de San Luis Potosí, Manuel Nava 6, Zona Univesitaria, C.P. 78290, San Luis Potosí, San Luis Potosí, Mexico
| | - Javier Montalvo-Arredondo
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P. 78216, San Luis Potosí, San Luis Potosí, Mexico
| | - Lina Riego-Ruíz
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P. 78216, San Luis Potosí, San Luis Potosí, Mexico
| | - Alexander DeLuna
- LANGEBIO: Laboratorio Nacional de Genomica para la Biodiversidad, Km 9.6 Libramiento Norte Carretera León, C.P. 36821 Irapuato, Guanajuato, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P. 78216, San Luis Potosí, San Luis Potosí, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Camino a la Presa San José 2055, C.P. 78216, San Luis Potosí, San Luis Potosí, Mexico
| | - Mónica R Calera
- Instituto de Física, Universidad Autónoma de San Luis Potosí, Manuel Nava 6, Zona Univesitaria, C.P. 78290, San Luis Potosí, San Luis Potosí, Mexico.
| | - Roberto Sánchez-Olea
- Instituto de Física, Universidad Autónoma de San Luis Potosí, Manuel Nava 6, Zona Univesitaria, C.P. 78290, San Luis Potosí, San Luis Potosí, Mexico.
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13
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Pérez-Flores G, Hernández-Silva C, Gutiérrez-Escobedo G, De Las Peñas A, Castaño I, Arreola J, Pérez-Cornejo P. P2X7 from j774 murine macrophages acts as a scavenger receptor for bacteria but not yeast. Biochem Biophys Res Commun 2016; 481:19-24. [PMID: 27833023 DOI: 10.1016/j.bbrc.2016.11.027] [Citation(s) in RCA: 9] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/14/2016] [Accepted: 11/06/2016] [Indexed: 11/18/2022]
Abstract
We studied the effects of extracellular ATP and Ca2+ on uptake of bacteria (Staphylococcus aureus or Escherichia coli) and live yeast (Candida glabrata) by J774 macrophages to determine the role of endogenous P2X7 receptors in phagocytosis. Our findings show that phagocytosis of bio-particles coated with S. aureus or E. coli was blocked by ATP and the P2X7 receptor agonist BzATP, while yeast phagocytosis was not. A438079, an antagonist of P2X7 receptors, partially reverted the effects of ATP on bacterial phagocytosis. To determine if P2X7-mediated Ca2+ entry into macrophages was blocking the engulfment of bacteria, we measured phagocytic activity in the absence or presence of 2 mM extracellular Ca2+ with or without ATP. Ca2+, in the absence of ATP, was required for engulfment of E. coli and C. glabrata but not S. aureus. Adding ATP inhibited phagocytosis of S. aureus and E. coli regardless of Ca2+, suggesting that Ca2+ entry was not important for inhibiting phagocytosis. On the other hand, phagocytosis of normal or hyper-adherent C. glabrata mutants had an absolute requirement for extracellular Ca2+ due to yeast adhesion to macrophages mediated by Ca2+-dependent adhesion proteins. We conclude that unstimulated P2X7 from J774 cells act as scavenger receptor for the uptake of S. aureus and E. coli but not of yeast; Ca2+ entry via P2X7 receptors play no role in phagocytosis of S. aureus and E. coli; while the effect of Ca2+ on C. glabrata phagocytosis was mediated by the adhesins Epa1, Epa6 and Epa7.
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Affiliation(s)
- Gabriela Pérez-Flores
- Unidad Académica Multidisciplinaria Zona Huasteca, Universidad Autónoma de San Luis Potosí, Cd. Valles, SLP 79060, Mexico
| | - Cesar Hernández-Silva
- Department of Physiology and Biophysics, School of Medicine, Universidad Autónoma de San Luis Potosí, San Luis Potosí, SLP 78210, Mexico
| | | | | | - Irene Castaño
- División de Biología Molecular, IPICYT, San Luis Potosí, SLP 78216, Mexico
| | - Jorge Arreola
- Institute of Physics, Universidad Autónoma de San Luis Potosí, San Luis Potosí, SLP 78290, Mexico
| | - Patricia Pérez-Cornejo
- Department of Physiology and Biophysics, School of Medicine, Universidad Autónoma de San Luis Potosí, San Luis Potosí, SLP 78210, Mexico.
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Robledo-Márquez K, Gutiérrez-Escobedo G, Yáñez-Carrillo P, Vidal-Aguiar Y, Briones-Martín-del-Campo M, Orta-Zavalza E, De Las Peñas A, Castaño I. Candida glabrataencodes a longer variant of the mating type (MAT) alpha2 gene in the mating type-likeMTL3locus, which can form homodimers. FEMS Yeast Res 2016; 16:fow082. [DOI: 10.1093/femsyr/fow082] [Citation(s) in RCA: 8] [Impact Index Per Article: 1.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Accepted: 09/11/2016] [Indexed: 01/22/2023] Open
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Torres-Tirado D, Knabb M, Castaño I, Patrón-Soberano A, De Las Peñas A, Rubio R. Candida glabrata binds to glycosylated and lectinic receptors on the coronary endothelial luminal membrane and inhibits flow sense and cardiac responses to agonists. Am J Physiol Regul Integr Comp Physiol 2016; 310:R24-32. [PMID: 26491100 DOI: 10.1152/ajpregu.00229.2014] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/02/2014] [Accepted: 10/16/2015] [Indexed: 12/13/2022]
Abstract
Candida glabrata (CG) is an opportunistic fungal pathogen that initiates infection by binding to host cells via specific lectin-like adhesin proteins. We have previously shown the importance of lectin-oligosaccharide binding in cardiac responses to flow and agonists. Because of the lectinic-oligosaccharide nature of CG binding, we tested the ability of CG to alter the agonist- and flow-induced changes in cardiac function in isolated perfused guinea pig hearts. Both transmission and scanning electron microscopy showed strong attachment of CG to the coronary endothelium, even after extensive washing. CG shifted the coronary flow vs. auricular-ventricular (AV) delay relationship upward, indicating that greater flow was required to achieve the same AV delay. This effect was completely reversed with mannose, partially reversed with galactose and N-acetylgalactosamine, but hyaluronan had no effect. Western blot analysis was used to determine binding of CG to isolated coronary endothelial luminal membrane (CELM) receptors, and the results indicate that flow-sensitive CELM receptors, ANG II type I, α-adrenergic 1A receptor, endothelin-2, and VCAM-1 bind to CG. In addition, CG inhibited agonist-induced effects of bradykinin, angiotensin, and phenylephrine on AV delay, coronary perfusion pressure, and left ventricular pressure. Mannose reversed the inhibitory effects of CG on the agonist responses. These results suggest that CG directly binds to flow-sensitive CELM receptors via lectinic-oligosaccharide interactions with mannose and disrupts the lectin-oligosaccharide binding necessary for flow-induced cardiac responses.
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Affiliation(s)
- David Torres-Tirado
- Escuela de Medicina, Unidad Académica Multidisciplinaria Zona Huasteca, Universidad Autónoma de San Luis Potosí, San Luis Potosí, México
| | - Maureen Knabb
- Biology, West Chester University, West Chester, Pennsylvania; and
| | - Irene Castaño
- Departamento de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, México
| | - Araceli Patrón-Soberano
- Departamento de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, México
| | - Alejandro De Las Peñas
- Departamento de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, México
| | - Rafael Rubio
- Departamento de Fisiología, Universidad Autónoma de San Luis Potosí, San Luis Potosí, México
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16
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De Las Peñas A, Juárez-Cepeda J, López-Fuentes E, Briones-Martín-Del-Campo M, Gutiérrez-Escobedo G, Castaño I. Local and regional chromatin silencing in Candida glabrata: consequences for adhesion and the response to stress. FEMS Yeast Res 2015; 15:fov056. [PMID: 26122277 DOI: 10.1093/femsyr/fov056] [Citation(s) in RCA: 19] [Impact Index Per Article: 2.1] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Accepted: 06/23/2015] [Indexed: 12/19/2022] Open
Abstract
Candida glabrata is a fungal pathogen frequently found as a commensal in humans. To colonize and disseminate successfully in the mammalian host, C. glabrata must detect signals within the host and reprogram gene expression to respond appropriately to hostile environmental conditions. One of the layers of regulation of expression of many virulence-related genes (adhesin-encoding genes, genes involved in response to oxidative stress and xenobiotics) is achieved through epigenetic mechanisms. Local and regional silencing is mediated by the activity of two NAD(+)-dependent histone deacetylases, Hst1 and Sir2, respectively, repressing many virulence genes. Hst1 and Sir2 interact with different repressor complexes to achieve regional or local silencing. Sir2 can associate with Sir4, which is then recruited to the telomere by Rap1 and yKu. Deacetylation of the histone tails creates high affinity binding sites for new molecules of the Sir complex, thereby spreading the silent domain over >20 kb. Many of the adhesin-encoding EPA genes are subject to this regulation. Hst1 in turn associates with the Sum1-Rfm1 complex. Sum1 is a DNA-binding protein, which recognizes specific sites at individual promoters, recruiting Hst1 to specific genes involved in the response to oxidative stress and xenobiotics, which results in their repression.
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Affiliation(s)
- Alejandro De Las Peñas
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
| | - Jacqueline Juárez-Cepeda
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
| | - Eunice López-Fuentes
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
| | - Marcela Briones-Martín-Del-Campo
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
| | - Irene Castaño
- IPICYT-Instituto Potosino de Investigación Científica y Tecnológica, AC, Camino a la Presa San José No. 2055, Col. Lomas 4a Sección, San Luis Potosí, SLP, 78216, México
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17
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Yáñez-Carrillo P, Orta-Zavalza E, Gutiérrez-Escobedo G, Patrón-Soberano A, De Las Peñas A, Castaño I. Expression vectors for C-terminal fusions with fluorescent proteins and epitope tags in Candida glabrata. Fungal Genet Biol 2015; 80:43-52. [PMID: 25986172 DOI: 10.1016/j.fgb.2015.04.020] [Citation(s) in RCA: 16] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/10/2015] [Revised: 04/01/2015] [Accepted: 04/27/2015] [Indexed: 10/23/2022]
Abstract
Candida glabrata is a haploid yeast considered the second most common of the Candida species found in nosocomial infections, accounting for approximately 18% of candidemias worldwide. Even though molecular biology methods are easily adapted to study this organism, there are not enough vectors that will allow probing the transcriptional and translational activity of any gene of interest in C. glabrata. In this work we have generated a set of expression vectors to systematically tag any gene of interest at the carboxy-terminus with three different fluorophores (CFP, YFP and mCherry) or three epitopes (HA, FLAG or cMyc) independently. This system offers the possibility to generate translational fusions in three versions: under the gene's own promoter integrated in its native locus in genome, on a replicative plasmid under its own promoter, or on a replicative plasmid under a strong promoter to overexpress the fusions. The expression of these translational fusions will allow determining the transcriptional and translational activity of the gene of interest as well as the intracellular localization of the protein. We have tested these expression vectors with two biosynthetic genes, HIS3 and TRP1. We detected fluorescence under the microscope and we were able to immunodetect the fusions using the three different versions of the system. These vectors permit coexpression of several different fusions simultaneously in the same cell, which will allow determining protein-protein and protein-DNA interactions. This set of vectors adds a new toolbox to study expression and protein interactions in the fungal pathogen C. glabrata.
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Affiliation(s)
- Patricia Yáñez-Carrillo
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Emmanuel Orta-Zavalza
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Araceli Patrón-Soberano
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Alejandro De Las Peñas
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Irene Castaño
- IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, División de Biología Molecular, Camino a la Presa San José # 2055, Lomas 4a sección, San Luis Potosí, San Luis Potosí 78216, Mexico.
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18
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Juárez-Cepeda J, Orta-Zavalza E, Cañas-Villamar I, Arreola-Gómez J, Pérez-Cornejo GP, Hernández-Carballo CY, Gutiérrez-Escobedo G, Castaño I, De Las Peñas A. The EPA2 adhesin encoding gene is responsive to oxidative stress in the opportunistic fungal pathogen Candida glabrata. Curr Genet 2015; 61:529-44. [DOI: 10.1007/s00294-015-0473-2] [Citation(s) in RCA: 15] [Impact Index Per Article: 1.7] [Reference Citation Analysis] [What about the content of this article? (0)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/30/2014] [Revised: 12/19/2014] [Accepted: 01/05/2015] [Indexed: 01/18/2023]
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19
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Briones-Martin-Del-Campo M, Orta-Zavalza E, Cañas-Villamar I, Gutiérrez-Escobedo G, Juárez-Cepeda J, Robledo-Márquez K, Arroyo-Helguera O, Castaño I, De Las Peñas A. The superoxide dismutases of Candida glabrata protect against oxidative damage and are required for lysine biosynthesis, DNA integrity and chronological life survival. Microbiology (Reading) 2014; 161:300-310. [PMID: 25479837 DOI: 10.1099/mic.0.000006] [Citation(s) in RCA: 22] [Impact Index Per Article: 2.2] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 11/18/2022]
Abstract
The fungal pathogen Candida glabrata has a well-defined oxidative stress response, is extremely resistant to oxidative stress and can survive inside phagocytic cells. In order to further our understanding of the oxidative stress response in C. glabrata, we characterized the superoxide dismutases (SODs) Cu,ZnSOD (Sod1) and MnSOD (Sod2). We found that Sod1 is the major contributor to total SOD activity and is present in cytoplasm, whereas Sod2 is a mitochondrial protein. Both SODs played a central role in the oxidative stress response but Sod1 was more important during fermentative growth and Sod2 during respiration and growth in non-fermentable carbon sources. Interestingly, C. glabrata cells lacking both SODs showed auxotrophy for lysine, a high rate of spontaneous mutation and reduced chronological lifespan. Thus, our study reveals that SODs play an important role in metabolism, lysine biosynthesis, DNA protection and aging in C. glabrata.
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Affiliation(s)
- Marcela Briones-Martin-Del-Campo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Emmanuel Orta-Zavalza
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Israel Cañas-Villamar
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Guadalupe Gutiérrez-Escobedo
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Jacqueline Juárez-Cepeda
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Karina Robledo-Márquez
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Omar Arroyo-Helguera
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Irene Castaño
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
| | - Alejandro De Las Peñas
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José, no. 2055, Col. Lomas 4a Sección, San Luis Potosí, San Luis Potosí 78216, Mexico
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20
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Torres‐Tirado D, Knabb M, Ramírez‐Zavaleta C, De Las Peñas A, Castaño I, Rubio R. Candida glabrata
prevents flow‐dependent cardiac effects through lectinic interaction with coronary endothelial luminal membrane receptors (696.8). FASEB J 2014. [DOI: 10.1096/fasebj.28.1_supplement.696.8] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/11/2022]
Affiliation(s)
| | - Maureen Knabb
- Biology West Chester University WestChesterPAUnited States
| | | | | | - Irene Castaño
- Instituto Postosino DE Investigacion Cientifica San Luis PotosiMexico
| | - Rafael Rubio
- Physiology Universidad Autonoma DE San Luis PotosiSan Luis PotosiMexico
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21
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Yáñez-Carrillo P, Robledo-Márquez KA, Ramírez-Zavaleta CY, De Las Peñas A, Castaño I. The mating type-like loci of Candida glabrata. Rev Iberoam Micol 2014; 31:30-4. [DOI: 10.1016/j.riam.2013.09.016] [Citation(s) in RCA: 6] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [What about the content of this article? (0)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/16/2013] [Accepted: 09/27/2013] [Indexed: 10/26/2022] Open
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22
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Briones-Martin-Del-Campo M, Orta-Zavalza E, Juarez-Cepeda J, Gutierrez-Escobedo G, Cañas-Villamar I, Castaño I, De Las Peñas A. The oxidative stress response of the opportunistic fungal pathogen Candida glabrata. Rev Iberoam Micol 2013; 31:67-71. [PMID: 24270068 DOI: 10.1016/j.riam.2013.09.012] [Citation(s) in RCA: 31] [Impact Index Per Article: 2.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/26/2013] [Accepted: 09/27/2013] [Indexed: 11/28/2022] Open
Abstract
Organisms have evolved different strategies to respond to oxidative stress generated as a by-product of aerobic respiration and thus maintain the redox homeostasis within the cell. In particular, fungal pathogens are exposed to reactive oxygen species (ROS) when they interact with the phagocytic cells of the host which are the first line of defense against fungal infections. These pathogens have co-opted the enzymatic (catalases, superoxide dismutases (SODs), and peroxidases) and non-enzymatic (glutathione) mechanisms used to maintain the redox homeostasis within the cell, to resist oxidative stress and ensure survival within the host. Several virulence factors have been related to the response to oxidative stress in pathogenic fungi. The opportunistic fungal pathogen Candida glabrata (C. glabrata) is the second most common cause of candidiasis after Candida albicans (C. albicans). C. glabrata has a well defined oxidative stress response (OSR), which include both enzymatic and non-enzymatic mechanisms. C. glabrata OSR is controlled by the well-conserved transcription factors Yap1, Skn7, Msn2 and Msn4. In this review, we describe the OSR of C. glabrata, what is known about its core elements, its regulation and how C. glabrata interacts with the host. This manuscript is part of the series of works presented at the "V International Workshop: Molecular genetic approaches to the study of human pathogenic fungi" (Oaxaca, Mexico, 2012).
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Affiliation(s)
- Marcela Briones-Martin-Del-Campo
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Emmanuel Orta-Zavalza
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Jacqueline Juarez-Cepeda
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Guadalupe Gutierrez-Escobedo
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Israel Cañas-Villamar
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Irene Castaño
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México
| | - Alejandro De Las Peñas
- División de Biología Molecular, IPICYT, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, San Luis Potosí, México.
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23
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Orta-Zavalza E, Guerrero-Serrano G, Gutiérrez-Escobedo G, Cañas-Villamar I, Juárez-Cepeda J, Castaño I, De Las Peñas A. Local silencing controls the oxidative stress response and the multidrug resistance in Candida glabrata. Mol Microbiol 2013; 88:1135-48. [PMID: 23651300 DOI: 10.1111/mmi.12247] [Citation(s) in RCA: 45] [Impact Index Per Article: 4.1] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Accepted: 04/26/2013] [Indexed: 01/03/2023]
Abstract
In Candida glabrata, the sirtuins Sir2 and Hst1 control the expression of a wide number of genes including adhesins required for host colonization and niacin transporters needed for growth. Given that these sirtuins can be inactivated during infection, we asked if their inhibition could modify the response of C. glabrata to other stressful conditions. Here, we found that deletion of HST1 decreases susceptibility of C. glabrata to fluconazole and hydrogen peroxide. The transcription factor Pdr1 and the ABC transporter Cdr1 mediated the fluconazole resistance phenotype of the hst1Δ cells, whereas the transcriptional activator Msn4 and the catalase Cta1 are necessary to provide oxidative stress resistance. We show that the transcription factor Sum1 interacts with Hst1 and participate in the regulation of these genes. Interestingly, even though C. glabrata and Saccharomyces cerevisiae are closely related phylogenetically, deletion of HST1 decreased susceptibility to fluconazole and hydrogen peroxide only in C. glabrata but not in S. cerevisiae, indicating a different transcriptional control by two similar sirtuins. Our findings suggest that Hst1 acts as a regulator of stress resistance associated-genes.
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Affiliation(s)
- Emmanuel Orta-Zavalza
- IPICYT, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, Camino a la Presa San José 2055, Lomas 4a sección, San Luis Potosí, 78216, México
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24
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Torres‐Tirado D, Ramirez‐Zavaleta C, De Las Peñas A, Castaño I, Rubio R. LECTINIC BINDING OF CANDIDA GLABRATA TO OLIGOSACCHARIDES ON THE CORONARY LUMINAL MEMBRANE ALTERS FLOW‐INDUCED CARDIAC RESPONSES. FASEB J 2013. [DOI: 10.1096/fasebj.27.1_supplement.1195.3] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/11/2022]
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25
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Gutiérrez-Escobedo G, Orta-Zavalza E, Castaño I, De Las Peñas A. Role of glutathione in the oxidative stress response in the fungal pathogen Candida glabrata. Curr Genet 2013; 59:91-106. [PMID: 23455613 DOI: 10.1007/s00294-013-0390-1] [Citation(s) in RCA: 33] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/09/2013] [Revised: 02/07/2013] [Accepted: 02/12/2013] [Indexed: 10/27/2022]
Abstract
Candida glabrata, an opportunistic fungal pathogen, accounts for 18-26 % of all Candida systemic infections in the US. C. glabrata has a robust oxidative stress response (OSR) and in this work we characterized the role of glutathione (GSH), an essential tripeptide-like thiol-containing molecule required to keep the redox homeostasis and in the detoxification of metal ions. GSH is synthesized from glutamate, cysteine, and glycine by the sequential action of Gsh1 (γ-glutamyl-cysteine synthetase) and Gsh2 (glutathione synthetase) enzymes. We first screened for suppressor mutations that would allow growth in the absence of GSH1 (gsh1∆ background) and found a single point mutation in PRO2 (pro2-4), a gene that encodes a γ-glutamyl phosphate reductase and catalyzes the second step in the biosynthesis of proline. We demonstrate that GSH is important in the OSR since the gsh1∆ pro2-4 and gsh2∆ mutant strains are more sensitive to oxidative stress generated by H2O2 and menadione. GSH is also required for Cadmium tolerance. In the absence of Gsh1 and Gsh2, cells show decreased viability in stationary phase. Furthermore, C. glabrata does not contain Saccharomyces cerevisiae high affinity GSH transporter ortholog, ScOpt1/Hgt1, however, our genetic and biochemical experiments show that the gsh1∆ pro2-4 and gsh2∆ mutant strains are able to incorporate GSH from the medium. Finally, GSH and thioredoxin, which is a second redox system in the cell, are not essential for the catalase-independent adaptation response to H2O2.
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Affiliation(s)
- Guadalupe Gutiérrez-Escobedo
- IPICYT, Camino a la Presa San José 2055, División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, 78216, San Luis Potosí, San Luis Potosí, México
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26
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Torres-Tirado D, Ramirez-Zavaleta C, De Las Peñas A, Castaño I, Rubio R. LECTINIC BINDING OF CANDIDA GLABRATA TO OLIGOSACCHARIDES ON THE CORONARY LUMINAL MEMBRANE ALTERS FLOW‐INDUCED CARDIAC RESPONSES. FASEB J 2012. [DOI: 10.1096/fasebj.26.1_supplement.1060.7] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/11/2022]
Affiliation(s)
| | | | | | - Irene Castaño
- Instituto Potosino de Investigacion Cientifica y TecnologicaSan Luis PotosiMexico
| | - Rafael Rubio
- PhysiologyUniversidad Autonoma de San Luis PotosiSan Luis PotosiMexico
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27
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Cuéllar-Cruz M, Castaño I, Arroyo-Helguera O, De Las Peñas A. Oxidative stress response to menadione and cumene hydroperoxide in the opportunistic fungal pathogen Candida glabrata. Mem Inst Oswaldo Cruz 2010; 104:649-54. [PMID: 19722092 DOI: 10.1590/s0074-02762009000400020] [Citation(s) in RCA: 25] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/10/2008] [Accepted: 04/16/2009] [Indexed: 11/22/2022] Open
Abstract
Candida glabrata is an opportunistic fungal pathogen that can cause severe invasive infections and can evade phagocytic cell clearance. We are interested in understanding the virulence of this fungal pathogen, in particular its oxidative stress response. Here we investigated C. glabrata, Saccharomyces cerevisiae and Candida albicans responses to two different oxidants: menadione and cumene hydroperoxide (CHP). In log-phase, in the presence of menadione, C. glabrata requires Cta1p (catalase), while in a stationary phase (SP), Cta1p is dispensable. In addition, C. glabrata is less resistant to menadione than C. albicans in SP. The S. cerevisiae laboratory reference strain is less resistant to menadione than C. glabrata and C. albicans; however S. cerevisiaeclinical isolates (CIs) are more resistant than the lab reference strain. Furthermore, S. cerevisiae CIs showed an increased catalase activity. Interestingly, in SP C. glabrata and S. cerevisiae are more resistant to CHP than C. albicans and Cta1p plays no apparent role in detoxifying this oxidant.
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Affiliation(s)
- Mayra Cuéllar-Cruz
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí 78216 , México
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28
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Lavaniegos-Sobrino MT, Ramírez-Zavaleta CY, Ponce de León A, Sifuentes-Osornio J, Bobadilla-Del Valle M, Rangel-Cordero A, De Las Peñas A, Castaño I. Genotyping of the MTL loci and susceptibility to two antifungal agents of Candida glabrata clinical isolates. Mem Inst Oswaldo Cruz 2009; 104:775-82. [DOI: 10.1590/s0074-02762009000500019] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.3] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/10/2008] [Accepted: 04/24/2009] [Indexed: 11/21/2022] Open
Affiliation(s)
| | | | | | | | | | | | | | - Irene Castaño
- Instituto Potosino de Investigación Científica y Tecnológica, México
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29
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Cuéllar-Cruz M, Briones-Martin-del-Campo M, Cañas-Villamar I, Montalvo-Arredondo J, Riego-Ruiz L, Castaño I, De Las Peñas A. High resistance to oxidative stress in the fungal pathogen Candida glabrata is mediated by a single catalase, Cta1p, and is controlled by the transcription factors Yap1p, Skn7p, Msn2p, and Msn4p. Eukaryot Cell 2008; 7:814-25. [PMID: 18375620 PMCID: PMC2394966 DOI: 10.1128/ec.00011-08] [Citation(s) in RCA: 128] [Impact Index Per Article: 8.0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 01/07/2008] [Accepted: 03/18/2008] [Indexed: 11/20/2022]
Abstract
We characterized the oxidative stress response of Candida glabrata to better understand the virulence of this fungal pathogen. C. glabrata could withstand higher concentrations of H(2)O(2) than Saccharomyces cerevisiae and even Candida albicans. Stationary-phase cells were extremely resistant to oxidative stress, and this resistance was dependent on the concerted roles of stress-related transcription factors Yap1p, Skn7p, and Msn4p. We showed that growing cells of C. glabrata were able to adapt to high levels of H(2)O(2) and that this adaptive response was dependent on Yap1p and Skn7p and partially on the general stress transcription factors Msn2p and Msn4p. C. glabrata has a single catalase gene, CTA1, which was absolutely required for resistance to H(2)O(2) in vitro. However, in a mouse model of systemic infection, a strain lacking CTA1 showed no effect on virulence.
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Affiliation(s)
- Mayra Cuéllar-Cruz
- División de Biología Molecular, Instituto Potosino de Investigación Científica y Tecnológica, San Luis Potosí, México
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30
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Castaño I, Cormack B, De Las Peñas A. [Virulence of the opportunistic pathogen mushroom Candida glabrata]. Rev Latinoam Microbiol 2006; 48:66-9. [PMID: 17578074] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Subscribe] [Scholar Register] [Indexed: 05/15/2023]
Abstract
Candida glabrata is an opportunistic fungal pathogen that has become increasingly frequent in bloodstream and mucosal infections in immunocompromised patients. C. glabrata is phylogenetically more closely related to S. cerevisiae than to C. albicans, and some well identified virulence factors in C. alhicans do not seem to be conserved in C. glabrata. However. other important traits are shared by both organisms, and these may play a role in the adaptation and survival in the host as opportunistic pathogens. Both species adhere tightly to host cells, and C. globrata has a large family of subtelomeric genes encoding cell surface proteins that mediate this adherence. Expression of these genes is regulated by a chromatin-based negative regulation termed subtelomeric silencing. C. albicans also possesses several adhesins although they are not regulated by this mechanism. C. albicans and C. glabrata have been considered asexual, but recent work has demonstrated the existence of a cryptic sexual cycle in C. albicans. The fact that C. glabrata contains all of the genes essential for mating suggests the possibility that C. glabrata might also have a tightly regulated sexual cycle. Both organisms can form biofilms and can undergo phenotypic switching which could be important for rapid adaptation to the changing environmental conditions encountered in the host as opportunistic pathogens.
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Affiliation(s)
- Irene Castaño
- Departamento de Biología Molecular, Instituto Potosino de Investigación Cientifica y Tecnológica, San Luis Potosi, México.
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31
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Domergue R, Castaño I, De Las Peñas A, Zupancic M, Lockatell V, Hebel JR, Johnson D, Cormack BP. Nicotinic acid limitation regulates silencing of Candida adhesins during UTI. Science 2005; 308:866-70. [PMID: 15774723 DOI: 10.1126/science.1108640] [Citation(s) in RCA: 198] [Impact Index Per Article: 10.4] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/02/2022]
Abstract
The adherence of Candida glabrata to host cells is mediated, at least in part, by the EPA genes, a family of adhesins encoded at subtelomeric loci, where they are subject to transcriptional silencing. We show that normally silent EPA genes are expressed during murine urinary tract infection (UTI) and that the inducing signal is the limitation of nicotinic acid (NA), a precursor of nicotinamide adenine dinucleotide (NAD+). C. glabrata is an NA auxotroph, and NA-induced EPA expression is likely the result of a reduction in NAD+ availability for the NAD+-dependent histone deacetylase Sir2p. The adaptation of C. glabrata to the host, therefore, involves a loss of metabolic capacity and exploitation of the resulting auxotrophy to signal a particular host environment.
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Affiliation(s)
- Renee Domergue
- Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA
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De Las Peñas A, Pan SJ, Castaño I, Alder J, Cregg R, Cormack BP. Virulence-related surface glycoproteins in the yeast pathogen Candida glabrata are encoded in subtelomeric clusters and subject to RAP1- and SIR-dependent transcriptional silencing. Genes Dev 2003; 17:2245-58. [PMID: 12952896 PMCID: PMC196462 DOI: 10.1101/gad.1121003] [Citation(s) in RCA: 206] [Impact Index Per Article: 9.8] [Reference Citation Analysis] [What about the content of this article? (0)] [Affiliation(s)] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/24/2022]
Abstract
Candida glabrata is an important opportunistic pathogen causing both mucosal and bloodstream infections. C. glabrata is able to adhere avidly to mammalian cells, an interaction that depends on the Epa1p lectin. EPA1 is shown here to be a member of a larger family of highly related genes encoded in subtelomeric clusters. Subtelomeric clustering of large families of surface glycoprotein-encoding genes is a hallmark of several pathogens, including Plasmodium, Trypanosoma, and Pneumocystis. In these other pathogens, a single surface glycoprotein is expressed, whereas other genes in the family are transcriptionally silent. Similarly, whereas EPA1 is expressed in vitro, EPA2-5 are transcriptionally repressed. This repression is shown to be due to regional silencing of the subtelomeric loci. In Saccharomyces cerevisiae, subtelomeric silencing is initiated by Rap1p binding to the telomeric repeats and subsequent recruitment of the Sir complex by protein-protein interaction. We demonstrate here that silencing of the subtelomeric EPA loci also depends on functional Sir3p and Rap1p. This identification and analysis of the EPA gene family provides a compelling example in an ascomycete of chromatin-based silencing of natural subtelomeric genes and provides for the first time in a pathogen, molecular insight into the transcriptional silencing of large subtelomeric gene families.
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Affiliation(s)
- Alejandro De Las Peñas
- Department of Molecular Biology and Genetics, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205, USA
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