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Huang X, Green S, Sook Chung J. The presence of an insulin-like peptide-binding protein (ILPBP) in the ovary and its involvement in the ovarian development of the red deep-sea crab, Chaceon quinquedens. Gen Comp Endocrinol 2021; 301:113653. [PMID: 33122036 DOI: 10.1016/j.ygcen.2020.113653] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 06/22/2020] [Revised: 10/06/2020] [Accepted: 10/22/2020] [Indexed: 11/30/2022]
Abstract
Invertebrate insulin-like peptide-binding proteins (ILPBPs) are structurally homologous to vertebrate insulin-like growth factor binding protein 7 (IGFBP7). One of the invertebrate ILPBPs is considered as a potential binding protein of insulin-like androgenic gland factor (IAG) in males of crayfish, Cherax quadricarinatus. However, the ILPBP expression is not limited in the androgenic gland and found in most examined tissues, implicating that ILPBP may have additional functions in crustaceans. Here, the full-length cDNA sequence of ILPBP (termed ChqILPBP) is isolated from the ovary of the red deep-sea crab, Chaceon quinquedens. ChqILPBP transcripts are present in the various tissues, as similar to other crab species. The crustacean ILPBPs have their putative amino acid sequences conserved much less than vertebrate IGFBP7s. To understand if ChqILPBP is involved in ovarian development, examined are levels of ChqILPBP, together with vitellogenin (ChqVTG) in the same ovary and hepatopancreas of adult females at the different ovarian stages: 2, 3, and 5. Chaceon hepatopancreas exhibits as the primary VTG synthesis site, while VTG transcript levels do not differ by the ovarian stages. The ovary contains ChqILPBP transcripts ~10-fold higher than hepatopancreas that changes significantly from stage 2 to 3. Such an expression pattern mirrors that of ovarian ChqVTG. In hepatopancreas, ChqILPBP transcripts are similar at stages 2 and 3 and increase significantly at stage 5. The data indicate that ovarian ILPBP may function differently from that of the hepatopancreas and may play a role in ovarian development. ChqAK transcripts are ~six folds higher in the ovary than the hepatopancreas. While they do not differ by ovarian stages, suggesting that AK may not be involved in vitellogenesis of the cold water crustacean species.
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Affiliation(s)
- X Huang
- Institute of Marine and Environmental TechnologyUniversity of Maryland Center for Environmental Science, 701 E. Pratt Street Columbus Center, Baltimore, MD 21202, USA
| | - S Green
- Institute of Marine and Environmental TechnologyUniversity of Maryland Center for Environmental Science, 701 E. Pratt Street Columbus Center, Baltimore, MD 21202, USA
| | - J Sook Chung
- Institute of Marine and Environmental TechnologyUniversity of Maryland Center for Environmental Science, 701 E. Pratt Street Columbus Center, Baltimore, MD 21202, USA.
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Jiang S, Jia Z, Chen H, Wang L, Song L. The modulation of haemolymph arginine kinase on the extracellular ATP induced bactericidal immune responses in the Pacific oyster Crassostrea gigas. FISH & SHELLFISH IMMUNOLOGY 2016; 54:282-293. [PMID: 27033465 DOI: 10.1016/j.fsi.2016.03.153] [Citation(s) in RCA: 5] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [Key Words] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Received: 12/08/2015] [Revised: 02/23/2016] [Accepted: 03/22/2016] [Indexed: 06/05/2023]
Abstract
Arginine kinase is an important phosphagen kinase (PK) which plays an essential role in ATP buffering systems in invertebrates. In the present study, an arginine kinase (designated CgAK) was isolated by the lipopolysaccharide (LPS) affinity chromatography from the haemolymph of Crassostrea gigas. CgAK could directly bind to LPS in a concentration-dependent manner with the dissociation constant (Kd) of 2.46 × 10(-6) M. The interaction with LPS significantly decreased the ATP hydrolytic activity of CgAK, which in turn lead to the accumulation of ATP in vitro. The extracellular ATP stimulation could induce Ca(2+) influx, reactive oxygen species (ROS) production, and the release of lysosomal enzyme in the cellular immune response. In addition, ATP stimulation provoked the bactericidal activity towards Escherichia coli, and the scavenging ROS with N-acetyl-l-cysteine (NAC) abrogated the bactericidal activity, indicating that ATP stimulation could induce ROS-dependent antimicrobial activity in haemocytes. Collectively, the results demonstrated that the haemolymph CgAK could serve as an important purinergic regulator to modulate extracellular ATP, which might further have an important effect on the purinergic signaling-activated innate immune response of oyster.
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Affiliation(s)
- Shuai Jiang
- Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071, China
| | - Zhihao Jia
- Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071, China
| | - Hao Chen
- Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071, China
| | - Lingling Wang
- Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071, China
| | - Linsheng Song
- Key Laboratory of Mariculture & Stock Enhancement in North China's Sea, Ministry of Agriculture, Dalian Ocean University, Dalian 116023, China.
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Alinejad T, Bin KQ, Vejayan J, Othman R, Bhassu S. Proteomic analysis of differentially expressed protein in hemocytes of wild giant freshwater prawn Macrobrachium rosenbergii infected with infectious hypodermal and hematopoietic necrosis virus (IHHNV). Meta Gene 2015; 5:55-67. [PMID: 26106581 PMCID: PMC4473098 DOI: 10.1016/j.mgene.2015.05.004] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 02/12/2015] [Revised: 05/13/2015] [Accepted: 05/17/2015] [Indexed: 11/29/2022] Open
Abstract
Epizootic diseases cause huge mortality and economical loses at post larvae stages in freshwater prawn aquaculture industry. These prawns seem less susceptible to viral diseases except for infectious hypodermal and hematopoietic necrosis virus (IHHNV). During viral infection in prawns, hemocytes are the primary organ that shows immunological response within the early stages of infection. We applied proteomic approaches to understand differential expression of the proteins in hemocytes during the viral disease outbreak. To aid the goal, we collected Macrobrachium rosenbergii broodstocks from the local grow out hatchery which reported the first incidence of IHHNV viral outbreak during larvae stage. Primarily, application of the OIE primer targeting 389 bp fragments of IHHNV virus was used in identification of the infected and non-infected samples of the prawn breeding line. Analysis of two-dimensional gel electrophoresis showed specific down-regulation of Arginine kinase and Sarcoplasmic calcium-binding protein and up/down-regulation of Prophenoloxidase1 and hemocyanin isoforms. These proteins were validated using semi quantitative RT-PCR and gene transcripts at mRNA level. These identified proteins can be used as biomarkers, providing a powerful approach to better understanding of the immunity pathway of viral disease with applications in analytic and observational epidemiology diagnosis. Proteomic profiling allows deep insight into the pathogenesis of IHHNV molecular regulation and mechanism of hemocyte in freshwater prawns.
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Affiliation(s)
- T. Alinejad
- Genetics and Molecular Biology Div., Institute of Biological Sciences, University of Malaya, Kuala Lumpur, Malaysia
- Centre for Research in Biotechnology for Agriculture, CEBAR, University of Malaya, Kuala Lumpur, Malaysia
| | - Kwong Q. Bin
- Genetics and Molecular Biology Div., Institute of Biological Sciences, University of Malaya, Kuala Lumpur, Malaysia
| | - J. Vejayan
- School of Medicine and Health Sciences, Monash University Sunway Campus, Jalan Lagoon Selatan, 46150 Subang Jaya, Selangor Darul Ehsan, Malaysia
| | - R.Y. Othman
- Genetics and Molecular Biology Div., Institute of Biological Sciences, University of Malaya, Kuala Lumpur, Malaysia
- Centre for Research in Biotechnology for Agriculture, CEBAR, University of Malaya, Kuala Lumpur, Malaysia
| | - S. Bhassu
- Genetics and Molecular Biology Div., Institute of Biological Sciences, University of Malaya, Kuala Lumpur, Malaysia
- Centre for Research in Biotechnology for Agriculture, CEBAR, University of Malaya, Kuala Lumpur, Malaysia
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K. Vishnudas V, S. Guillemette S, Lekkas P, W. Maughan D, O. Vigoreaux J. Characterization of the Intracellular Distribution of Adenine Nucleotide Translocase (ANT) in Drosophila Indirect Flight Muscles. Cell 2013. [DOI: 10.4236/cellbio.2013.23017] [Citation(s) in RCA: 1] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/20/2022]
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Wickramasinghe S, Uda K, Nagataki M, Yatawara L, Rajapakse RPVJ, Watanabe Y, Suzuki T, Agatsuma T. Toxocara canis: Molecular cloning, characterization, expression and comparison of the kinetics of cDNA-derived arginine kinase. Exp Parasitol 2007; 117:124-32. [PMID: 17574244 DOI: 10.1016/j.exppara.2007.03.015] [Citation(s) in RCA: 21] [Impact Index Per Article: 1.2] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 11/26/2006] [Revised: 03/26/2007] [Accepted: 03/27/2007] [Indexed: 10/23/2022]
Abstract
Arginine kinase (AK) is a member of a highly conserved family of phosphagen kinases. We determined the cDNA sequence of Toxocara canis AK, cloned it in pMAL plasmid and expressed it in Escherichia coli as a fusion protein with maltose-binding protein. The protein has a theoretical molecular mass of 45,376 Da and an estimated isoelectric point (pI) of 8.38. Alignment of the cDNA-derived amino acid sequence of T. canis AK with other phosphagen kinase sequences showed high amino acid identity with other nematode AKs, and phylogenetic analysis placed it as a distinct branch within a nematode AK cluster. Analysis of the N-terminus sequence of T. canis AK revealed the presence of a signal targeting peptide presumably targeting this protein to cytosol or endoplasmic reticulum (ER). T. canis AK showed high activity for l-arginine. The kinetic constants (K(m) = 0.12 mM, K(cat) = 29.18, and K(d) = 0.23 mM) and V(max) (43.76 micromolPi/min/mg protein) of T. canis recombinant-AK were determined for the forward reaction. It also exhibited a synergism for substrate binding (K(d)(Arg)/K(m)(Arg)=1.96). Comparison of K(cat)/K(m)(Arg) values in various arginine kinases indicates that T. canis AK has a high catalytic efficiency (248.19s(-1)mM(-1)). The present study contains the first description of arginine kinase in a zoonotic nematode. The determination of T. canis AK and its phosphagen biosynthetic pathway, which is completely different from those in mammalian host tissues, suggests this enzyme as a possible novel chemotherapy target for VLM syndrome in humans.
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Affiliation(s)
- Susiji Wickramasinghe
- Department of Environmental Health Sciences, Kochi Medical School, Oko, Nankoku City, Kochi 783-8505, Japan
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Uda K, Fujimoto N, Akiyama Y, Mizuta K, Tanaka K, Ellington WR, Suzuki T. Evolution of the arginine kinase gene family. COMPARATIVE BIOCHEMISTRY AND PHYSIOLOGY D-GENOMICS & PROTEOMICS 2005; 1:209-18. [PMID: 20483252 DOI: 10.1016/j.cbd.2005.10.007] [Citation(s) in RCA: 60] [Impact Index Per Article: 3.2] [Reference Citation Analysis] [Abstract] [Track Full Text] [Subscribe] [Scholar Register] [Received: 08/05/2005] [Revised: 10/25/2005] [Accepted: 10/26/2005] [Indexed: 12/16/2022]
Abstract
Arginine kinase (AK), catalyzing the reversible transfer of phosphate from MgATP to arginine yielding phosphoarginine and MgADP, is widely distributed throughout the invertebrates and is also present in certain protozoa. Typically, these proteins are found as monomers targeted to the cytoplasm, but true dimeric and contiguous dimeric AKs as well as mitochondrial AK activities have been observed. In the present study, we have obtained the sequences of the genes for AKs from two distantly related molluscs-the cephalopod Nautilus pompilius and the bivalve Crassostrea gigas. These new data were combined with available gene structure data (exon/intron organization) extracted from EST and genome sequencing project databases. These data, comprised of 23 sequences and gene structures from Protozoa, Cnidaria, Platyhelminthes, Mollusca, Arthropoda and Nematoda, provide great insight into the evolution and divergence of the AK family. Sequence and phylogenetic analyses clearly show that the AKs are homologous having arisen from some common ancestor. However, AK gene organization is highly divergent and variable. Molluscan AK genes typically have a highly conserved six-exon/five-intron organization, a structure that is very similar to that of the platyhelminth Schistosoma mansoni Arthropod and nematode AK genes have fewer introns, while the cnidarian and protozoan genes each display unique exon/intron organization when compared to the other AK genes. The non-conservative nature of the AK genes is in sharp contrast to the relatively high degree of conservation of intron positions seen in a homologous enzyme creatine kinase (CK). The present results also show that gene duplication and subsequent fusion events forming unusual two-domain AKs occurred independently at least four times as these contiguous dimers are present in Protozoa, Cnidaria, Platyhelminthes and Mollusca. Detailed analyses of the amino acid sequences indicate that two AKs (one each from Drosophila and Caenorhabditis) have what appear to be N-terminal mitochondrial targeting sequences, providing the first evidence for true mitochondrial AK genes. The AK gene family is ancient and the lineage has undergone considerable divergence as well as multiple duplication and fusion events.
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Affiliation(s)
- Kouji Uda
- Laboratory of Biochemistry, Faculty of Science, Kochi University, Kochi 780-8520, Japan
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Abstract
Phosphagens are phosphorylated guanidino compounds that are linked to energy state and ATP hydrolysis by corresponding phosphagen kinase reactions: phosphagen + MgADP + H(+) <--> guanidine acceptor + MgATP. Eight different phosphagens (and corresponding phosphagen kinases) are found in the animal kingdom distributed along distinct phylogenetic lines. By far, the creatine phosphate/creatine kinase (CP/CK) system, which is found in the vertebrates and is widely distributed throughout the lower chordates and invertebrates, is the most extensively studied phosphagen system. Phosphagen kinase reactions function in temporal ATP buffering, in regulating inorganic phosphate (Pi) levels, which impacts glycogenolysis and proton buffering, and in intracellular energy transport. Phosphagen kinase reactions show differences in thermodynamic poise, and the phosphagens themselves differ in terms of certain physical properties including intrinsic diffusivity. This review evaluates the distribution of phosphagen systems and tissue-specific expression of certain phosphagens in an evolutionary and functional context. The role of phosphagens in regulation of intracellular Pi levels likely evolved early. Thermodynamic poise of the phosphagen kinase reaction profoundly impacts this capacity. Furthermore, it is hypothesized that the capacity for intracellular targeting of CK evolved early as a means of facilitating energy transport in highly polarized cells and was subsequently exploited for temporal ATP buffering and dynamic roles in metabolic regulation in cells displaying high and variable rates of aerobic energy production.
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Affiliation(s)
- W R Ellington
- Department of Biological Science and Institute of Molecular Biophysics, Florida State University, Tallahassee, Florida 32306-4370, USA.
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Kotlyar S, Weihrauch D, Paulsen RS, Towle DW. Expression of arginine kinase enzymatic activity and mRNA in gills of the euryhaline crabs Carcinus maenas and Callinectes sapidus. J Exp Biol 2000; 203:2395-404. [PMID: 10903154 DOI: 10.1242/jeb.203.16.2395] [Citation(s) in RCA: 44] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/20/2022]
Abstract
Phosphagen kinases catalyze the reversible dephosphorylation of guanidino phosphagens such as phosphocreatine and phosphoarginine, contributing to the restoration of adenosine triphosphate concentrations in cells experiencing high and variable demands on their reserves of high-energy phosphates. The major invertebrate phosphagen kinase, arginine kinase, is expressed in the gills of two species of euryhaline crabs, the blue crab Callinectes sapidus and the shore crab Carcinus maenas, in which energy-requiring functions include monovalent ion transport, acid-base balance, nitrogen excretion and gas exchange. The enzymatic activity of arginine kinase approximately doubles in the ion-transporting gills of C. sapidus, a strong osmoregulator, when the crabs are transferred from high to low salinity, but does not change in C. maenas, a more modest osmoregulator. Amplification and sequencing of arginine kinase cDNA from both species, accomplished by reverse transcription of gill mRNA and the polymerase chain reaction, revealed an open reading frame coding for a 357-amino-acid protein. The predicted amino acid sequences showed a minimum of 75 % identity with arginine kinase sequences of other arthropods. Ten of the 11 amino acid residues believed to participate in arginine binding are completely conserved among the arthropod sequences analyzed. An estimation of arginine kinase mRNA abundance indicated that acclimation salinity has no effect on arginine kinase gene transcription. Thus, the observed enhancement of enzyme activity in C. sapidus probably results from altered translation rates or direct activation of pre-existing enzyme protein.
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Affiliation(s)
- S Kotlyar
- Department of Biology, Lake Forest College, Lake Forest, IL 60045, USA.
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