P13 Prediction and in vitro characterization of tetrapeptide matrikines with diverse effects on human dermal fibroblasts.

Autor: Jariwala, Nathan, Ozols, Matiss, Eckersley, Alexander, Watson, Rachel, Mambwe, Bezaleel, Gilmore, Andrew, Debelle, Laurent, Bell, Mike, Bradley, Eleanor, Doush, Yegor, Leroux, Richard, Peschard, Olivier, Mondon, Philippe, Ringenbach, Caroline, Bernard, Laure, Pitois, Aurélien, Sherratt, Michael
Předmět:
Zdroj: British Journal of Dermatology; Jul2023, Vol. 189 Issue 1, pe18-e19, 2p
Abstrakt: The extracellular matrices (ECMs) of mammalian tissues play important roles in mediating and maintaining tissue function. However, aberrant and progressive remodelling of ECM components is a key feature in the pathology and ageing of many organs, including skin. Crucially, these degradative processes not only impair function, but may also release peptide fragments, known as matrikines, with cell signalling capabilities. In addition to endogenously produced matrikines, many exogenously applied bioactive peptides, with proven activity in skin, are homologous to naturally occurring amino acid sequences within ECM proteins. Despite the ability of some peptides to induce clinical benefits in aged skin, there has been no published conceptual framework to guide the prediction of new therapeutic matrikines. Here, we tested the hypothesis that small bioactive peptides (matrikines) can be predicted by the in silico digestion of dermal proteins by ECM proteases. We first identified a target cohort of 27 ECM proteins that were abundant in the dermis and/or were reported to undergo age-related remodelling. Utilizing an established machine-learning tool (PROSPER) we developed a PYTHON algorithm that could predict peptides liberated by in silico cleavage with eight skin-active enzymes [matrix metalloproteinase (MMP)-2, MMP-3, MMP-7 and MMP-9, cathepsin G and cathepsin K, granzyme B and elastase-2]. For the 27 target proteins this approach predicted the identity of 453 tetrapeptides. These peptides were predicted to be liberated predominantly from collagens (I, III, IV, VI and VII), some elastic fibre-associated proteins (EMILIN1 and fibulin-1) and the adhesive glycoprotein fibronectin. Eight peptides were selected for synthesis and biological activity testing based on their predicted protein sources, high solubility and likelihood of successful manufacture. The ability of these peptides to promote ECM synthesis (procollagen I, fibronectin, decorin, collagen IV, hyaluronic acid and fibrillin-1) in cultured human dermal fibroblasts (HDFs) was assessed by enzyme-linked immunosorbent assay or immunofluorescence (fibrillin-1 only). With the exception of hyaluronic acid, all of the peptides enhanced the synthesis of at least some ECM markers, including procollagen-I and decorin. Deposition of fibrillin-1, which is a sensitive marker of both skin ageing and repair, was significantly enhanced by three peptides. The ability of the peptides to influence the wider HDF secretome was assessed by liquid chromatography tandem mass spectrometry proteomics. Four of the peptides modulated synthesis of proteins in a wide range of functional classes, including enzyme inhibitors, ECM-affiliated proteins, cell adhesion molecules and basement membrane components, while the remaining four exhibited more targeted activities. We conclude that bioinformatic prediction of cleaved peptide fragments from ECM proteins can identify multiple small peptides with potentially beneficial activities for skin. This approach can both identify new matrikines and provide insights into the mechanisms underpinning tissue repair. Funding sources: this study was funded by the No. 7 Beauty Company. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index