The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover

Increasing evidence implicates serine proteinases in the proteolytic cascades leading to the pathological destruction of extracellular matrices such as cartilage in osteoarthritis (OA). We have previously demonstrated that the type II transmembrane serine proteinase (TTSP) matriptase acts as a novel...

Descripción completa

Detalles Bibliográficos
Autores principales: Wilkinson, David J., Desilets, Antoine, Lin, Hua, Charlton, Sarah, del Carmen Arques, Maria, Falconer, Adrian, Bullock, Craig, Hsu, Yu-Chen, Birchall, Kristian, Hawkins, Alastair, Thompson, Paul, Ferrell, William R., Lockhart, John, Plevin, Robin, Zhang, Yadan, Blain, Emma, Lin, Shu-Wha, Leduc, Richard, Milner, Jennifer M., Rowan, Andrew D.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5711915/
https://www.ncbi.nlm.nih.gov/pubmed/29196708
http://dx.doi.org/10.1038/s41598-017-17028-3
_version_ 1783283116616450048
author Wilkinson, David J.
Desilets, Antoine
Lin, Hua
Charlton, Sarah
del Carmen Arques, Maria
Falconer, Adrian
Bullock, Craig
Hsu, Yu-Chen
Birchall, Kristian
Hawkins, Alastair
Thompson, Paul
Ferrell, William R.
Lockhart, John
Plevin, Robin
Zhang, Yadan
Blain, Emma
Lin, Shu-Wha
Leduc, Richard
Milner, Jennifer M.
Rowan, Andrew D.
author_facet Wilkinson, David J.
Desilets, Antoine
Lin, Hua
Charlton, Sarah
del Carmen Arques, Maria
Falconer, Adrian
Bullock, Craig
Hsu, Yu-Chen
Birchall, Kristian
Hawkins, Alastair
Thompson, Paul
Ferrell, William R.
Lockhart, John
Plevin, Robin
Zhang, Yadan
Blain, Emma
Lin, Shu-Wha
Leduc, Richard
Milner, Jennifer M.
Rowan, Andrew D.
author_sort Wilkinson, David J.
collection PubMed
description Increasing evidence implicates serine proteinases in the proteolytic cascades leading to the pathological destruction of extracellular matrices such as cartilage in osteoarthritis (OA). We have previously demonstrated that the type II transmembrane serine proteinase (TTSP) matriptase acts as a novel initiator of cartilage destruction via the induction and activation of matrix metalloproteinases (MMPs). Hepsin is another TTSP expressed in OA cartilage such that we hypothesized this proteinase may also contribute to matrix turnover. Herein, we demonstrate that addition of hepsin to OA cartilage in explant culture induced significant collagen and aggrecan release and activated proMMP-1 and proMMP-3. Furthermore, hepsin directly cleaved the aggrecan core protein at a novel cleavage site within the interglobular domain. Hepsin expression correlated with synovitis as well as tumour necrosis factor α expression, and was induced in cartilage by a pro-inflammatory stimulus. However, a major difference compared to matriptase was that hepsin demonstrated markedly reduced capacity to activate proteinase-activated receptor-2. Overall, our data suggest that hepsin, like matriptase, induces potent destruction of the extracellular matrix whilst displaying distinct efficiencies for the cleavage of specific substrates.
format Online
Article
Text
id pubmed-5711915
institution National Center for Biotechnology Information
language English
publishDate 2017
publisher Nature Publishing Group UK
record_format MEDLINE/PubMed
spelling pubmed-57119152017-12-06 The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover Wilkinson, David J. Desilets, Antoine Lin, Hua Charlton, Sarah del Carmen Arques, Maria Falconer, Adrian Bullock, Craig Hsu, Yu-Chen Birchall, Kristian Hawkins, Alastair Thompson, Paul Ferrell, William R. Lockhart, John Plevin, Robin Zhang, Yadan Blain, Emma Lin, Shu-Wha Leduc, Richard Milner, Jennifer M. Rowan, Andrew D. Sci Rep Article Increasing evidence implicates serine proteinases in the proteolytic cascades leading to the pathological destruction of extracellular matrices such as cartilage in osteoarthritis (OA). We have previously demonstrated that the type II transmembrane serine proteinase (TTSP) matriptase acts as a novel initiator of cartilage destruction via the induction and activation of matrix metalloproteinases (MMPs). Hepsin is another TTSP expressed in OA cartilage such that we hypothesized this proteinase may also contribute to matrix turnover. Herein, we demonstrate that addition of hepsin to OA cartilage in explant culture induced significant collagen and aggrecan release and activated proMMP-1 and proMMP-3. Furthermore, hepsin directly cleaved the aggrecan core protein at a novel cleavage site within the interglobular domain. Hepsin expression correlated with synovitis as well as tumour necrosis factor α expression, and was induced in cartilage by a pro-inflammatory stimulus. However, a major difference compared to matriptase was that hepsin demonstrated markedly reduced capacity to activate proteinase-activated receptor-2. Overall, our data suggest that hepsin, like matriptase, induces potent destruction of the extracellular matrix whilst displaying distinct efficiencies for the cleavage of specific substrates. Nature Publishing Group UK 2017-12-01 /pmc/articles/PMC5711915/ /pubmed/29196708 http://dx.doi.org/10.1038/s41598-017-17028-3 Text en © The Author(s) 2017 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Wilkinson, David J.
Desilets, Antoine
Lin, Hua
Charlton, Sarah
del Carmen Arques, Maria
Falconer, Adrian
Bullock, Craig
Hsu, Yu-Chen
Birchall, Kristian
Hawkins, Alastair
Thompson, Paul
Ferrell, William R.
Lockhart, John
Plevin, Robin
Zhang, Yadan
Blain, Emma
Lin, Shu-Wha
Leduc, Richard
Milner, Jennifer M.
Rowan, Andrew D.
The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title_full The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title_fullStr The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title_full_unstemmed The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title_short The serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
title_sort serine proteinase hepsin is an activator of pro-matrix metalloproteinases: molecular mechanisms and implications for extracellular matrix turnover
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5711915/
https://www.ncbi.nlm.nih.gov/pubmed/29196708
http://dx.doi.org/10.1038/s41598-017-17028-3
work_keys_str_mv AT wilkinsondavidj theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT desiletsantoine theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT linhua theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT charltonsarah theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT delcarmenarquesmaria theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT falconeradrian theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT bullockcraig theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT hsuyuchen theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT birchallkristian theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT hawkinsalastair theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT thompsonpaul theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT ferrellwilliamr theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT lockhartjohn theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT plevinrobin theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT zhangyadan theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT blainemma theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT linshuwha theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT leducrichard theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT milnerjenniferm theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT rowanandrewd theserineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT wilkinsondavidj serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT desiletsantoine serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT linhua serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT charltonsarah serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT delcarmenarquesmaria serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT falconeradrian serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT bullockcraig serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT hsuyuchen serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT birchallkristian serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT hawkinsalastair serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT thompsonpaul serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT ferrellwilliamr serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT lockhartjohn serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT plevinrobin serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT zhangyadan serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT blainemma serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT linshuwha serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT leducrichard serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT milnerjenniferm serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover
AT rowanandrewd serineproteinasehepsinisanactivatorofpromatrixmetalloproteinasesmolecularmechanismsandimplicationsforextracellularmatrixturnover

Ejemplares similares