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Molecular mechanisms mediating stiffening in the mechanically adaptable connective tissues of sea cucumbers
Bonneel, M.; Hennebert, E.; Aranko, A.S.; Hwang, D.S.; Lefevre, M.; Pommier, V.; Wattiez, R.; Delroisse, J.; Flammang, P. (2022). Molecular mechanisms mediating stiffening in the mechanically adaptable connective tissues of sea cucumbers. Matrix Biology 108: 39-54. https://dx.doi.org/10.1016/j.matbio.2022.02.006
In: Matrix Biology. ELSEVIER SCIENCE BV: Amsterdam. ISSN 0945-053X; e-ISSN 1569-1802, meer
Peer reviewed article  

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Trefwoorden
    Holothuroidea [WoRMS]
    Marien/Kust
Author keywords
    Mutable collagenous tissue; Tensilin; Recombinant protein; Holothuroidea; Collagen; Extracellular matrix

Auteurs  Top 
  • Bonneel, M., meer
  • Hennebert, E., meer
  • Aranko, A.S.
  • Hwang, D.S.
  • Lefevre, M., meer
  • Pommier, V., meer

Abstract
    Mutable collagenous tissues (MCTs) from echinoderms (e.g., sea stars, sea urchins) possess the remarkable ability to change their mechanical properties rapidly and reversibly thanks to the release of effector molecules regulating the number of cross-links between collagen fibrils. Among these effector molecules, tensilin has been identified as a stiffening factor in sea cucumber MCTs. Since its discovery and description twenty years ago, tensilin orthologs have been identified in a few sea cucumber species but no novel information about its molecular mode of action has been reported. In this study, using a combination of in silico analyses, we identified the tensilin present in the dermis of Holothuria forskali, Hf-(D)Tensilin. Anti-peptide antibodies showed that this protein is localised in the secretory granules of type 2 juxtaligamental-like cells, a MCT specific cell type. We then used the bacterium E. coli to produce recombinantly Hf-(D)Tensilin and confirmed its stiffening effect on pieces of the dermis and its aggregation effect on collagen fibrils extracted from the sea cucumber dermis. To investigate how tensilin can cross-bridge collagen fibrils, truncated recombinant tensilins were also produced and used in combination with various compounds. Results suggest that two types of interactions contribute to the aggregation effect of tensilin on the fibrils: (1) the N-terminal NTR TIMP like domain of the protein interacts strongly with sulfated GAGs attached to the surface of the collagen fibrils, and (2) the C-terminal part of the protein is involved in its dimerisation/oligomerisation through ionic but possibly also cation-π and hydrophobic interactions.

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