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Mena Navarro MP, Espinosa Bernal MA, Martinez-Avila AE, Aponte Pineda LS, Montes Flores LA, Chan Ku CD, Hernández Gómez YF, González Espinosa J, Pacheco Aguilar JR, Ramos López MÁ, Arvizu Gómez JL, Saldaña Gutierrez C, Rodríguez Morales JA, Amaro Reyes A, Hernández Flores JL, Campos Guillén J. Role of Volatile Organic Compounds Produced by Kosakonia cowanii Cp1 during Competitive Colonization Interaction against Pectobacterium aroidearum SM2. Microorganisms 2024; 12:930. [PMID: 38792761 PMCID: PMC11123878 DOI: 10.3390/microorganisms12050930] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 04/16/2024] [Revised: 04/27/2024] [Accepted: 04/30/2024] [Indexed: 05/26/2024] Open
Abstract
The competitive colonization of bacteria on similar ecological niches has a significant impact during their establishment. The synthesis speeds of different chemical classes of molecules during early competitive colonization can reduce the number of competitors through metabolic effects. In this work, we demonstrate for the first time that Kosakonia cowanii Cp1 previously isolated from the seeds of Capsicum pubescens R. P. produced volatile organic compounds (VOCs) during competitive colonization against Pectobacterium aroidearum SM2, affecting soft rot symptoms in serrano chili (Capsicum annuum L.). The pathogen P. aroidearum SM2 was isolated from the fruits of C. annuum var. Serrano with soft rot symptoms. The genome of the SM2 strain carries a 5,037,920 bp chromosome with 51.46% G + C content and 4925 predicted protein-coding genes. It presents 12 genes encoding plant-cell-wall-degrading enzymes (PCDEWs), 139 genes involved in five types of secretion systems, and 16 genes related to invasion motility. Pathogenic essays showed soft rot symptoms in the fruits of C. annuum L., Solanum lycopersicum, and Physalis philadelphica and the tubers of Solanum tuberosum. During the growth phases of K. cowanii Cp1, a mix of VOCs was identified by means of HS-SPME-GC-MS. Of these compounds, 2,5-dimethyl-pyrazine showed bactericidal effects and synergy with acetoin during the competitive colonization of K. cowanii Cp1 to completely reduce soft rot symptoms. This work provides novel evidence grounding a better understanding of bacterial interactions during competitive colonization on plant tissue, where VOC synthesis is essential and has a high potential capacity to control pathogenic microorganisms in agricultural systems.
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Affiliation(s)
- Mayra Paola Mena Navarro
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Merle Ariadna Espinosa Bernal
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Adriana Eunice Martinez-Avila
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Leonela Sofia Aponte Pineda
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Luis Alberto Montes Flores
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Carlos Daniel Chan Ku
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Yoali Fernanda Hernández Gómez
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Jacqueline González Espinosa
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Juan Ramiro Pacheco Aguilar
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Miguel Ángel Ramos López
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | - Jackeline Lizzeta Arvizu Gómez
- Secretaría de Investigación y Posgrado, Centro Nayarita de Innovación y Transferencia de Tecnología (CENITT), Universidad Autónoma de Nayarit, Tepic 63173, Mexico;
| | - Carlos Saldaña Gutierrez
- Facultad de Ciencias Naturales, Universidad Autónoma de Querétaro, Av. De las Ciencias s/n, Querétaro 76220, Mexico;
| | | | - Aldo Amaro Reyes
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
| | | | - Juan Campos Guillén
- Facultad de Química, Universidad Autónoma de Querétaro, Cerro de las Campanas s/n, Querétaro 76010, Qro, Mexico; (M.P.M.N.); (M.A.E.B.); (A.E.M.-A.); (L.S.A.P.); (L.A.M.F.); (C.D.C.K.); (Y.F.H.G.); (J.G.E.); (J.R.P.A.); (M.Á.R.L.); (A.A.R.)
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2
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Norris EJ, Kline J, Bloomquist JR. Repellency and Toxicity of Vapor-Active Benzaldehydes against Aedes aegypti. ACS Infect Dis 2024; 10:120-126. [PMID: 38099713 DOI: 10.1021/acsinfecdis.3c00294] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/13/2024]
Abstract
Chemical screening efforts recently found that 3-phenoxybenzaldehyde, a breakdown product of alpha-cyano pyrethroids, was a potent spatial repellent against Aedes aegypti mosquitoes in a glass tube repellency assay. In order to characterize this molecule further and identify structure-activity relationships, a set of 12 benzaldehyde analogues were screened for their repellency and toxicity in vapor phase exposures at 100 μg/cm2. Dose-response analyses were performed for the most active compounds in order to better characterize their repellent potency and toxicity compared to those of other commercially available toxicants. The three most toxic compounds (LC50 values) were 3-chlorobenzaldehyde (CBA) (37 μg/cm2), biphenyl-3-carboxaldehyde (BCA) (48 μg/cm2), and 3-vinylbenzaldehyde (66 μg/cm2), which makes them less toxic than bioallethrin (6.1 μg/cm2) but more toxic than sandalwood oil (77 μg/cm2), a repellent/toxic plant essential oil. The most repellent analogues with EC50 values below 30 μg/cm2 were 3-phenoxybenzaldehyde (6.3 μg/cm2), isophthalaldehyde (23 μg/cm2), BCA (17 μg/cm2), and CBA (22 μg/cm2), which makes them about as active as N,N-diethyl-3-methylbenzamide (25.4 μg/cm2). We further investigated the activity of a select group of these benzaldehydes to block the firing of the central nervous system of A. aegypti larvae. Compounds most capable of repelling and killing mosquitoes in the vapor phase were also those most capable of blocking nerve firing in the larval mosquito nervous system. The results demonstrate that benzaldehyde analogues are viable candidate repellent and insecticidal molecules and may lead to the development of future repellent and vapor toxic vector control tools.
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Affiliation(s)
- Edmund J Norris
- Center for Medical, Agricultural, and Veterinary Entomology, United States Department of Agriculture-Agricultural Research Service, Gainesville, Florida 32608, United States
- Emerging Pathogens Institute, Department of Entomology and Nematology, University of Florida, Gainesville, Florida 32610, United States
| | - Jedidiah Kline
- Center for Medical, Agricultural, and Veterinary Entomology, United States Department of Agriculture-Agricultural Research Service, Gainesville, Florida 32608, United States
| | - Jeffrey R Bloomquist
- Emerging Pathogens Institute, Department of Entomology and Nematology, University of Florida, Gainesville, Florida 32610, United States
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Luo SH, Hua J, Liu Y, Li SH. The Chemical Ecology of Plant Natural Products. PROGRESS IN THE CHEMISTRY OF ORGANIC NATURAL PRODUCTS 2024; 124:57-183. [PMID: 39101984 DOI: 10.1007/978-3-031-59567-7_2] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 08/06/2024]
Abstract
Plants are excellent chemists with an impressive capability of biosynthesizing a large variety of natural products (also known as secondary or specialized metabolites) to resist various biotic and abiotic stresses. In this chapter, 989 plant natural products and their ecological functions in plant-herbivore, plant-microorganism, and plant-plant interactions are reviewed. These compounds include terpenoids, phenols, alkaloids, and other structural types. Terpenoids usually provide direct or indirect defense functions for plants, while phenolic compounds play important roles in regulating the interactions between plants and other organisms. Alkaloids are frequently toxic to herbivores and microorganisms, and can therefore also provide defense functions. The information presented should provide the basis for in-depth research of these plant natural products and their natural functions, and also for their further development and utilization.
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Affiliation(s)
- Shi-Hong Luo
- State Key Laboratory of Phytochemistry and Plant Resources in West China, Kunming Institute of Botany, Chinese Academy of Sciences, Lanhei Road 132, Panlong District, Kunming, 650201, Yunnan Province, P. R. China
| | - Juan Hua
- College of Bioscience and Biotechnology, Shenyang Agricultural University, Dongling Road 120, Shenhe District, Shenyang, 110866, Liaoning Province, P. R. China
| | - Yan Liu
- Innovative Institute of Chinese Medicine and Pharmacy, Chengdu University of Traditional Chinese Medicine, LiuTai Avenue 1166, Wenjiang District, Chengdu, 611137, Sichuan Province, P. R. China.
| | - Sheng-Hong Li
- State Key Laboratory of Phytochemistry and Plant Resources in West China, Kunming Institute of Botany, Chinese Academy of Sciences, Lanhei Road 132, Panlong District, Kunming, 650201, Yunnan Province, P. R. China.
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Jermnak U, Ngernmeesri P, Yurayart C, Poapolathep A, Udomkusonsri P, Poapolathep S, Phaochoosak N. A New Benzaldehyde Derivative Exhibits Antiaflatoxigenic Activity against Aspergillus flavus. J Fungi (Basel) 2023; 9:1103. [PMID: 37998908 PMCID: PMC10672374 DOI: 10.3390/jof9111103] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 09/27/2023] [Revised: 11/03/2023] [Accepted: 11/10/2023] [Indexed: 11/25/2023] Open
Abstract
Aflatoxin B1 (AFB1) is the most potent naturally occurring carcinogen for humans and animals produced by the common fungus Aspergillus flavus (A. flavus). Aflatoxin (AF) contamination in commodities is a global concern related to the safety of food and feed, and it also impacts the agricultural economy. In this study, we investigated the AFB1-inhibiting activity of a new benzaldehyde derivative, 2-[(2-methylpyridin-3-yl)oxy]benzaldehyde (MPOBA), on A. flavus. It was found that MPOBA inhibited the production of AFB1 by A. flavus, with an IC50 value of 0.55 mM. Moreover, the inhibition of conidiation was also observed at the same concentration. The addition of MPOBA resulted in decreased transcript levels of the aflR gene, which encodes a key regulatory protein for the biosynthesis of AF, and also decreased transcript levels of the global regulator genes veA and laeA. These results suggested that MPOBA has an effect on the regulatory mechanism of the development and differentiation of conidia, leading to the inhibition of AFB1 production. In addition, the cytotoxicity study showed that MPOBA had a very low cytotoxic effect on the Madin-Darby canine kidney (MDCK) cell line. Therefore, MPOBA may be a potential compound for developing practically effective agents to control AF contamination.
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Affiliation(s)
- Usuma Jermnak
- Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand; (A.P.); (P.U.); (S.P.); (N.P.)
| | - Paiboon Ngernmeesri
- Department of Chemistry, Faculty of Science, Kasetsart University, Bangkok 10900, Thailand;
| | - Chompoonek Yurayart
- Department of Veterinary Microbiology and Immunology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand;
| | - Amnart Poapolathep
- Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand; (A.P.); (P.U.); (S.P.); (N.P.)
| | - Pareeya Udomkusonsri
- Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand; (A.P.); (P.U.); (S.P.); (N.P.)
| | - Saranya Poapolathep
- Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand; (A.P.); (P.U.); (S.P.); (N.P.)
| | - Napasorn Phaochoosak
- Department of Pharmacology, Faculty of Veterinary Medicine, Kasetsart University, Bangkok 10900, Thailand; (A.P.); (P.U.); (S.P.); (N.P.)
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Costa Dos Santos D, Silva Macêdo N, de Sousa Silveira Z, Silva Pereira RL, Moura Araújo I, Justino Araújo AC, Alves Gonçalves S, da Silveira Regueira Neto M, de Queiroz Balbino V, Torres de Carvalho A, Oliveira de Veras B, Bezerra da Cunha FA, Melo Coutinho HD, Vieira Brito S. Antibacterial and Toxic Activity of Geopropolis Extracts from Melipona subnitida (Ducke, 1910) (Hymenoptera: Apidae) and Scaptotrigona depilis (Moure, 1942) (Hymenoptera: Apidae). Chem Biodivers 2023; 20:e202300931. [PMID: 37776535 DOI: 10.1002/cbdv.202300931] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 06/24/2023] [Revised: 09/20/2023] [Accepted: 09/24/2023] [Indexed: 10/02/2023]
Abstract
Bacteria are associated with many infections that affect humans and present antibiotic resistance mechanisms, causing problems in health organisations and increased mortality rates. Therefore, it is necessary to find new antibacterial agents that can be used in the treatment of these microorganisms. Geopropolis is a natural product from stingless bees, formed by a mixture of plant resins, salivary secretions, wax and soil particles, the chemical composition of this natural product is diverse. Thus, this study aimed to evaluate antibacterial activity, antibiotic modulation and the toxicity of geopropolis extracts from the stingless bees, Melipona subnitida (Ducke, 1910) and Scaptotrigona depilis (Moure, 1942) against standard and multi-resistant Staphylococcus aureus, Escherichia coli and Pseudomonas aeruginosa bacteria. Geopropolis samples were collected in a meliponary located in Camaragibe, Pernambuco, Brazil. To determine the Minimum Inhibitory Concentration (MIC) and antibiotic modulation we performed broth microdilution tests. Mortality tests were used to verify extract toxicity in the model Drosophila melanogaster. The microbiological tests showing that the M. subnitida extracts had better inhibitory effects compared to S. depilis, presenting direct antibacterial activity against standard and multi-resistant strains. The extracts potentialized antibiotic effects, suggesting possible synergy and did not present toxicity in the model used. The information obtained in this study highlights extracts as promising antibacterial agents and is the first study to evaluate bacterial activity in these extracts, in addition to verifying their modulating effects and determining toxicity in the model used.
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Affiliation(s)
- Danilo Costa Dos Santos
- Programa de Pós-Graduação em Ciências Ambientais, Centro de Ciências de Chapadinha, Universidade Federal do Maranhão, BR 222, Km 04, S/N, Boa Vista, CEP 65500-000, Chapadinha, Maranhão, Brasil
| | - Nair Silva Macêdo
- Semiarid Bioprospecting Laboratory (LABSEMA), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | - Zildene de Sousa Silveira
- Semiarid Bioprospecting Laboratory (LABSEMA), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | - Raimundo Luiz Silva Pereira
- Laboratory of Microbiology and Molecular Biology (LMBM), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | - Isaac Moura Araújo
- Laboratory of Microbiology and Molecular Biology (LMBM), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | - Ana Carolina Justino Araújo
- Laboratory of Microbiology and Molecular Biology (LMBM), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | - Sheila Alves Gonçalves
- Laboratory of Microbiology and Molecular Biology (LMBM), Regional University of Cariri-URCA, Crato, Ceará, Brazil
| | | | | | - Airton Torres de Carvalho
- Department of Biosciences, Center of Biological and Health Sciences, Federal Rural, University of the Semi-Arid, Mossoró, RN, Brazil
| | - Bruno Oliveira de Veras
- Department of Biochemistry, Federal University of Pernambuco, 50670-420, Recife, Pernambuco, Brazil
| | | | | | - Samuel Vieira Brito
- Programa de Pós-Graduação em Ciências Ambientais, Centro de Ciências de Chapadinha, Universidade Federal do Maranhão, BR 222, Km 04, S/N, Boa Vista, CEP 65500-000, Chapadinha, Maranhão, Brasil
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Oliveira-Tintino CDDM, Tintino SR, Justino de Araújo AC, dos Santos Barbosa CR, Ramos Freitas P, de Araújo Neto JB, Begnini IM, Rebelo RA, da Silva LE, Mireski SL, Nasato MC, Krautler MIL, Barreto HM, Ribeiro-Filho J, de Menezes IRA, Coutinho HDM. Efflux Pump (QacA, QacB, and QacC) and β-Lactamase Inhibitors? An Evaluation of 1,8-Naphthyridines against Staphylococcus aureus Strains. Molecules 2023; 28:molecules28041819. [PMID: 36838807 PMCID: PMC9961278 DOI: 10.3390/molecules28041819] [Citation(s) in RCA: 3] [Impact Index Per Article: 3.0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/13/2023] [Revised: 02/09/2023] [Accepted: 02/10/2023] [Indexed: 02/17/2023] Open
Abstract
The bacterial species Staphylococcus aureus presents a variety of resistance mechanisms, among which the expression of β-lactamases and efflux pumps stand out for providing a significant degree of resistance to clinically relevant antibiotics. The 1,8-naphthyridines are nitrogen heterocycles with a broad spectrum of biological activities and, as such, are promising research targets. However, the potential roles of these compounds on bacterial resistance management remain to be better investigated. Therefore, the present study evaluated the antibacterial activity of 1,8-naphthyridine sulfonamides, addressing their ability to act as inhibitors of β-lactamases and efflux pump (QacA/B and QacC) against the strains SA-K4414 and SA-K4100 of S. aureus. All substances were prepared at an initial concentration of 1024 μg/mL, and their minimum inhibitory concentrations (MIC) were determined by the broth microdilution method. Subsequently, their effects on β-lactamase- and efflux pump-mediated antibiotic resistance was evaluated from the reduction of the MIC of ethidium bromide (EtBr) and β-lactam antibiotics, respectively. The 1,8-naphthyridines did not present direct antibacterial activity against the strains SA-K4414 and SA-K4100 of S. aureus. On the other hand, when associated with antibiotics against both strains, the compounds reduced the MIC of EtBr and β-lactam antibiotics, suggesting that they may act by inhibiting β-lactamases and efflux pumps such as QacC and QacA/B. However, further research is required to elucidate the molecular mechanisms underlying these observed effects.
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Affiliation(s)
| | - Saulo Relison Tintino
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
- Correspondence: (S.R.T.); (I.R.A.d.M.)
| | - Ana Carolina Justino de Araújo
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
| | - Cristina Rodrigues dos Santos Barbosa
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
| | - Priscilla Ramos Freitas
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
| | - José Bezerra de Araújo Neto
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
| | - Iêda Maria Begnini
- Department of Chemistry, Regional University of Blumenau (FURB), Itoupava Seca, Blumenau 89030-903, SC, Brazil
| | - Ricardo Andrade Rebelo
- Department of Chemistry, Regional University of Blumenau (FURB), Itoupava Seca, Blumenau 89030-903, SC, Brazil
| | - Luiz Everson da Silva
- Postgraduate Program in Sustainable Territorial Development, Coastal Sector, Federal University of Paraná (UFPR), Curitiba 81531-990, PR, Brazil
| | - Sandro Lucio Mireski
- Department of Chemistry, Regional University of Blumenau (FURB), Itoupava Seca, Blumenau 89030-903, SC, Brazil
| | - Michele Caroline Nasato
- Department of Chemistry, Regional University of Blumenau (FURB), Itoupava Seca, Blumenau 89030-903, SC, Brazil
| | | | | | - Jaime Ribeiro-Filho
- Oswaldo Cruz Foundation (Fiocruz), Fiocruz Ceará, Eusébio 60180-900, CE, Brazil
| | - Irwin Rose Alencar de Menezes
- Laboratory of Pharmacology and Molecular Chemistry (LFQM), Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
- Correspondence: (S.R.T.); (I.R.A.d.M.)
| | - Henrique Douglas Melo Coutinho
- Laboratory of Microbiology and Molecular Biology, Department of Biological Chemistry, Regional University of Cariri (URCA), Crato 63105-000, CE, Brazil
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Lipińska MM, Haliński ŁP, Gołębiowski M, Kowalkowska AK. Active Compounds with Medicinal Potential Found in Maxillariinae Benth. (Orchidaceae Juss.) Representatives-A Review. Int J Mol Sci 2023; 24:739. [PMID: 36614181 PMCID: PMC9821772 DOI: 10.3390/ijms24010739] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/28/2022] [Revised: 12/19/2022] [Accepted: 12/20/2022] [Indexed: 01/04/2023] Open
Abstract
Orchids are widely used in traditional medicine for the treatment of a whole range of different health conditions, and representatives of the Neotropical subtribe Maxillariinae are not an exception. They are utilized, for instance, for their spasmolytic and anti-inflammatory activities. In this work, we analyze the literature concerning the chemical composition of the plant extracts and secretions of this subtribe's representatives published between 1991 and 2022. Maxillariinae is one of the biggest taxa within the orchid family; however, to date, only 19 species have been investigated in this regard and, as we report, they produce 62 semiochemicals of medical potential. The presented review is the first summary of biologically active compounds found in Maxillariinae.
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Affiliation(s)
- Monika M. Lipińska
- Department of Plant Taxonomy and Nature Conservation, Faculty of Biology, University of Gdańsk, Wita Stwosza 59, 80-308 Gdansk, Poland
- Foundation Polish Orchid Association, 81-825 Sopot, Poland
| | - Łukasz P. Haliński
- Laboratory of Analysis of Natural Compounds, Department of Environmental Analytics, Faculty of Chemistry, University of Gdańsk, Wita Stwosza 63, 80-308 Gdansk, Poland
| | - Marek Gołębiowski
- Laboratory of Analysis of Natural Compounds, Department of Environmental Analytics, Faculty of Chemistry, University of Gdańsk, Wita Stwosza 63, 80-308 Gdansk, Poland
| | - Agnieszka K. Kowalkowska
- Department of Plant Cytology and Embryology, Faculty of Biology, University of Gdańsk, Wita Stwosza 59, 80-308 Gdansk, Poland
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Ali A, Kiloni SM, Cáceres-Vélez PR, Jusuf PR, Cottrell JJ, Dunshea FR. Phytochemicals, Antioxidant Activities, and Toxicological Screening of Native Australian Fruits Using Zebrafish Embryonic Model. Foods 2022; 11:foods11244038. [PMID: 36553779 PMCID: PMC9777714 DOI: 10.3390/foods11244038] [Citation(s) in RCA: 4] [Impact Index Per Article: 2.0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/12/2022] [Revised: 11/27/2022] [Accepted: 12/13/2022] [Indexed: 12/15/2022] Open
Abstract
Phytochemicals play a pivotal role in human health and drug discovery. The safety evaluation of plant extracts is a prerequisite to ensure that all phytochemicals are safe before translational development and human exposure. As phytochemicals are natural, they are generally considered safe, although this is not always true. The objective of this study was to investigate and compare the phytochemical composition, antioxidant potential, and safety evaluation of native Australian Muntries (Kunzea pomifera), Kakadu plum (Terminalia ferdinandiana), Davidson plum (Davidsonia) and Quandong peach (Santalum acuminatum) through the in vivo vertebrate zebrafish embryonic model. The highest total phenolic content (TPC; 793.89 ± 22.27 μg GAE/mg) was quantified in Kakadu plum, while the lowest TPC (614.44 ± 31.80 μg GAE/mg) was quantified in Muntries. Developmental alterations, mortality, and morbidity were assessed for toxicological screening of these selected native Australian fruit extracts. In this study, muntries were quantified as having the least LC50 value (169 mg/L) compared to Davidson plum (376 mg/L), Kakadu plum (>480 mg/L), and Quandong peach (>480 mg/L), which indicates that muntries extract was more toxic than other fruit extracts. Importantly, we found that adverse effects were not correlated to the total phenolic content and antioxidant potential of these native Australian fruits and cannot simply be predicted from the in vitro analysis. Conclusively, these selected native Australian fruit extracts are categorized as safe. This study could explore the use of these native Australian fruits in cosmetics, pharmaceuticals, and drug discovery.
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Affiliation(s)
- Akhtar Ali
- School of Agriculture and Food, The University of Melbourne, Parkville, VIC 3010, Australia
| | - Sarah M. Kiloni
- School of Biosciences, The University of Melbourne, Parkville, VIC 3010, Australia
| | | | - Patricia R. Jusuf
- School of Biosciences, The University of Melbourne, Parkville, VIC 3010, Australia
| | - Jeremy J. Cottrell
- School of Agriculture and Food, The University of Melbourne, Parkville, VIC 3010, Australia
| | - Frank R. Dunshea
- School of Agriculture and Food, The University of Melbourne, Parkville, VIC 3010, Australia
- Faculty of Biological Sciences, The University of Leeds, Leeds LS2 9JT, UK
- Correspondence:
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Nazlić M, Akrap K, Kremer D, Dunkić V. Hydrosols of Veronica Species -Natural Source of Free Volatile Compounds with Potential Pharmacological Interest. Pharmaceuticals (Basel) 2022; 15:1378. [PMID: 36355550 PMCID: PMC9695910 DOI: 10.3390/ph15111378] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Key Words] [Grants] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 10/03/2022] [Revised: 11/04/2022] [Accepted: 11/06/2022] [Indexed: 09/29/2023] Open
Abstract
In this study, free volatile compounds (FVCs) were isolated from the water fractions (hydrosols) of 10 Croatian Veronica species obtained by hydrodistillation (HD) and microwave-assisted extraction (MAE). The use of different isolation techniques is important for the analysis of the influence of extraction conditions on the qualitative and quantitative composition of the isolated constituents. The composition of the hydrosols was analyzed using gas chromatography and mass spectrometry. The compounds β-ionone and benzene acetaldehyde were detected in all 10 Veronica hydrosols studied. E-caryophyllene was also identified in all isolates except the MAE isolate of V. arvensis L. Caryophyllene oxide was isolated in all isolates apart from the HD isolate of V. catenata Pennell. (E)-β-Damascenone is significantly present in all isolates except the MAE isolates of V. catanata and V. cymbalaria Bodard. In these two species, α-muurolol was identified in a high percentage. The same basic phytochemical constituents and compounds characteristic of a given Veronica species suggest the importance of further research. Antioxidant activity was tested for all extracts using two methods, ORAC and DPPH. Therefore, it is crucial to identify as many specialized metabolites from Veronica species as possible, especially hydrosols, which are natural products of potential pharmacological interest.
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Affiliation(s)
- Marija Nazlić
- Faculty of Science, University of Split, Ruđera Boškovića 33, HR-21000 Split, Croatia
| | - Karla Akrap
- Faculty of Science, University of Split, Ruđera Boškovića 33, HR-21000 Split, Croatia
| | - Dario Kremer
- Faculty of Pharmacy and Biochemistry, University of Zagreb, A. Kovačića 1, HR-10000 Zagreb, Croatia
| | - Valerija Dunkić
- Faculty of Science, University of Split, Ruđera Boškovića 33, HR-21000 Split, Croatia
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Determination of Reactive Oxygen or Nitrogen Species and Novel Volatile Organic Compounds in the Defense Responses of Tomato Plants against Botrytis cinerea Induced by Trichoderma virens TRS 106. Cells 2022; 11:cells11193051. [PMID: 36231012 PMCID: PMC9563596 DOI: 10.3390/cells11193051] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/09/2022] [Revised: 09/23/2022] [Accepted: 09/25/2022] [Indexed: 11/17/2022] Open
Abstract
In the present study, Trichoderma virens TRS 106 decreased grey mould disease caused by Botrytis cinerea in tomato plants (S. lycopersicum L.) by enhancing their defense responses. Generally, plants belonging to the ‘Remiz’ variety, which were infected more effectively by B. cinerea than ‘Perkoz’ plants, generated more reactive molecules such as superoxide (O2−) and peroxynitrite (ONOO−), and less hydrogen peroxide (H2O2), S-nitrosothiols (SNO), and green leaf volatiles (GLV). Among the new findings, histochemical analyses revealed that B. cinerea infection caused nitric oxide (NO) accumulation in chloroplasts, which was not detected in plants treated with TRS 106, while treatment of plants with TRS 106 caused systemic spreading of H2O2 and NO accumulation in apoplast and nuclei. SPME-GCxGC TOF-MS analysis revealed 24 volatile organic compounds (VOC) released by tomato plants treated with TRS 106. Some of the hexanol derivatives, e.g., 4-ethyl-2-hexynal and 1,5-hexadien-3-ol, and salicylic acid derivatives, e.g., 4-hepten-2-yl and isoamyl salicylates, are considered in the protection of tomato plants against B. cinerea for the first time. The results are valuable for further studies aiming to further determine the location and function of NO in plants treated with Trichoderma and check the contribution of detected VOC in plant protection against B. cinerea.
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Antibacterial activity and molecular studies of non-symmetric POCOP-Pd(II) pincer complexes derived from 2,4-dihydroxybenzaldehyde (2,4-DHBA). Polyhedron 2022. [DOI: 10.1016/j.poly.2022.116115] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/17/2022]
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Garzoli S, Orlando F, Iriti M, Vitalini S. Solanum linnaeanum Leaves: Chemical Profiling of VOCs and Effects on Seed Germination and Early Growth of Monocots and Dicots. Chem Biodivers 2022; 19:e202100975. [PMID: 35445571 DOI: 10.1002/cbdv.202100975] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/06/2021] [Accepted: 02/07/2022] [Indexed: 11/07/2022]
Abstract
Some Solanaceae plants are a rich source of sesquiterpenoid phytoalexins with allelopathic potential. Powder and aqueous extract obtained from the leaves of Solanum linnaeanum Hepper & P.M.L. Jaeger were used to treat the seeds of three target species (Lolium multiflorum Lam., Sinapis alba L. and Trifolium incarnatum L.). Both matrices were evaluated along with untreated controls to determine their toxicity on germination and seedling growth. The results revealed that the pre-emergence treatments were able to be very effective against all three species in the filter paper test by inhibiting the germination up to 100 %. The effectiveness was reduced by the interaction with soil. Despite this, significant data were obtained, albeit different according to the applied matrix. In general, L. multiflorum was the most sensitive to both the action of the leaf powder and aqueous extract while S. alba was found to be the most resistant to powder activity and T. incarnatum had the strongest response to the extract. For the first time, SPME-GC/MS technique was used to characterize the volatile chemical profile of S. linnaeanum leaves. The analyses highlighted the presence of different classes of compounds including terpenoids and sesquiterpenoids potentially useful in the fight against noxious plants both in natural and cultivated ecosystems.
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Affiliation(s)
- Stefania Garzoli
- Department of Drug Chemistry and Technology, Sapienza University, piazzale Aldo Moro, 5, 00185, Rome, Italy
| | - Francesca Orlando
- Associazione Italiana di Agroecologia (AIDA), via Tadino 52, 20100, Milan, Italy
| | - Marcello Iriti
- Department of Agricultural and Environmental Sciences, Università degli Studi di Milano, via G. Celoria 2, 20133, Milan, Italy.,Phytochem Lab, Department of Agricultural and Environmental Sciences, Università degli Studi di Milano, via G. Celoria 2, 20133, Milan, Italy.,National Interuniversity Consortium of Materials Science and Technology, via G. Giusti 9, 50121, Firenze, Italy.,Center for Studies on Bioispired Agro-environmental Technology (BAT Center), Università degli Studi di Milano, via G. Celoria 2, 20133, Milan, Italy
| | - Sara Vitalini
- Department of Agricultural and Environmental Sciences, Università degli Studi di Milano, via G. Celoria 2, 20133, Milan, Italy.,Phytochem Lab, Department of Agricultural and Environmental Sciences, Università degli Studi di Milano, via G. Celoria 2, 20133, Milan, Italy.,National Interuniversity Consortium of Materials Science and Technology, via G. Giusti 9, 50121, Firenze, Italy
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