Collagen matrix deposition is dramatically enhanced in vitro when crowded with charged macromolecules: The biological relevance of the excluded volume effect

Collagen matrix deposition is dramatically enhanced in vitro when crowded with charged macromolecules: The biological relevance of the excluded volume effect

The excluded volume effect (EVE) rules all life processes. It is created by macromolecules that occupy a given volume thereby confining other molecules to the remaining space with large consequences on reaction kinetics and molecular assembly. Implementing EVE in fibroblast culture accelerated conve...

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Bibliographic Details
Main Authors: Lareu, Ricky R., Subramhanya, H., Peng, Y., Benny, P., Chen, C., Wang, Z., Rajagopalan, R., Raghunath, M.
Format: Journal Article
Published: Elsevier Science BV 2007
Subjects:
Macromolecular crowding
Extracellular matrix
Procollagen C-proteinase
Excluded volume effect
Collagen deposition
Online Access:http://hdl.handle.net/20.500.11937/31588
Description
Summary:The excluded volume effect (EVE) rules all life processes. It is created by macromolecules that occupy a given volume thereby confining other molecules to the remaining space with large consequences on reaction kinetics and molecular assembly. Implementing EVE in fibroblast culture accelerated conversion of procollagen to collagen by procollagen C-proteinase (PCP/BMP-1) and proteolytic modification of its allosteric regulator, PCOLCE1. This led to a 20–30- and 3–6-fold increased collagen deposition in two- and three-dimensional cultures, respectively, and creation of crosslinked collagen footprints beneath cells. Important parameters correlating with accelerated deposition were hydrodynamic radius of macromolecules and their negative charge density.

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