The regulatory function of SPARC in vascular biology

LB Rivera, AD Bradshaw, RA Brekken - Cellular and Molecular Life …, 2011 - Springer
LB Rivera, AD Bradshaw, RA Brekken
Cellular and Molecular Life Sciences, 2011Springer
SPARC is a matricellular protein, able to modulate cell/ECM interactions and influence cell
responses to growth factors, and therefore is particularly attuned to contribute to
physiological processes involving changes in ECM and cell mobilization. Indeed, the list of
biological processes affected by SPARC includes wound healing, tumor progression, bone
formation, fibrosis, and angiogenesis. The process of angiogenesis is complex and involves
a number of cellular processes such as endothelial cell proliferation, migration, ECM …
Abstract
SPARC is a matricellular protein, able to modulate cell/ECM interactions and influence cell responses to growth factors, and therefore is particularly attuned to contribute to physiological processes involving changes in ECM and cell mobilization. Indeed, the list of biological processes affected by SPARC includes wound healing, tumor progression, bone formation, fibrosis, and angiogenesis. The process of angiogenesis is complex and involves a number of cellular processes such as endothelial cell proliferation, migration, ECM degradation, and synthesis, as well as pericyte recruitment to stabilize nascent vessels. In this review, we will summarize current results that explore the function of SPARC in the regulation of angiogenic events with a particular emphasis on the modulation of growth factor activity by SPARC in the context of blood vessel formation. The primary function of SPARC in angiogenesis remains unclear, as SPARC activity in some circumstances promotes angiogenesis and in others is more consistent with an anti-angiogenic activity. Undoubtedly, the mercurial nature of SPARC belies a redundancy of functional proteins in angiogenesis as well as cell-type-specific activities that alter signal transduction events in response to unique cellular milieus. Nonetheless, the investigation of cellular mechanisms that define functional activities of SPARC continue to contribute novel and exciting paradigms to vascular biology.
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