Structural analysis of an Asterias rubens peptide indicates the presence of a disulfide-directed β-hairpin fold
Sea stars are an abundant group of marine invertebrates that display remarkably robust regenerative capabilities throughout all life stages. Numerous proteins and peptides have been identified in a proteome study on the coelomic fluid (biofluid) of the common sea star Asterias rubens, which appear t...
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| creator | Takjoo, Rozita Wilson, David T Le Quilliec, Justine Schmidt, Casey A Zhao, Guangzu Liddell, Michael J Shaikh, Naeem Y Sunagar, Kartik Loukas, Alex Smout, Michael J Daly, Norelle L |
| description | Sea stars are an abundant group of marine invertebrates that display remarkably robust regenerative capabilities throughout all life stages. Numerous proteins and peptides have been identified in a proteome study on the coelomic fluid (biofluid) of the common sea star Asterias rubens, which appear to be involved with the wound-healing response in the organism. However, the three-dimensional structure and function of several of these injury-responsive peptides, including the peptide KASH2, are yet to be investigated. Here, we show that the KASH2 peptide adopts a disulfide-directed β-hairpin fold (DDH). The DDH motif appears to be evolutionarily related to the inhibitor cystine knot motif, which is one of the most widespread disulfide-rich peptide folds. The DDH motif was originally thought to be restricted to arachnids, but our study suggests that as a result of convergent evolution it could also have originated in sea stars. Although the widely conserved DDH fold has potential cross-phyla wound-healing capacity, we have shown that KASH2 does not enhance the proliferation of human fibroblasts, a simple method for wound-healing re-epithelialisation screening. Therefore, additional research is necessary to determine the role of KASH2 in the sea stars. |
| doi_str_mv | 10.1002/2211-5463.13931 |
| format | Article |
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Numerous proteins and peptides have been identified in a proteome study on the coelomic fluid (biofluid) of the common sea star Asterias rubens, which appear to be involved with the wound-healing response in the organism. However, the three-dimensional structure and function of several of these injury-responsive peptides, including the peptide KASH2, are yet to be investigated. Here, we show that the KASH2 peptide adopts a disulfide-directed β-hairpin fold (DDH). The DDH motif appears to be evolutionarily related to the inhibitor cystine knot motif, which is one of the most widespread disulfide-rich peptide folds. The DDH motif was originally thought to be restricted to arachnids, but our study suggests that as a result of convergent evolution it could also have originated in sea stars. Although the widely conserved DDH fold has potential cross-phyla wound-healing capacity, we have shown that KASH2 does not enhance the proliferation of human fibroblasts, a simple method for wound-healing re-epithelialisation screening. Therefore, additional research is necessary to determine the role of KASH2 in the sea stars.</description><identifier>ISSN: 2211-5463</identifier><identifier>EISSN: 2211-5463</identifier><identifier>DOI: 10.1002/2211-5463.13931</identifier><identifier>PMID: 39561265</identifier><language>eng</language><publisher>England</publisher><ispartof>FEBS open bio, 2024-11</ispartof><rights>2024 The Author(s). 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Numerous proteins and peptides have been identified in a proteome study on the coelomic fluid (biofluid) of the common sea star Asterias rubens, which appear to be involved with the wound-healing response in the organism. However, the three-dimensional structure and function of several of these injury-responsive peptides, including the peptide KASH2, are yet to be investigated. Here, we show that the KASH2 peptide adopts a disulfide-directed β-hairpin fold (DDH). The DDH motif appears to be evolutionarily related to the inhibitor cystine knot motif, which is one of the most widespread disulfide-rich peptide folds. The DDH motif was originally thought to be restricted to arachnids, but our study suggests that as a result of convergent evolution it could also have originated in sea stars. Although the widely conserved DDH fold has potential cross-phyla wound-healing capacity, we have shown that KASH2 does not enhance the proliferation of human fibroblasts, a simple method for wound-healing re-epithelialisation screening. 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| title | Structural analysis of an Asterias rubens peptide indicates the presence of a disulfide-directed β-hairpin fold |
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