Literature DB >> 21828129

Extracellular matrix structure and nano-mechanics determine megakaryocyte function.

Alessandro Malara1, Cristian Gruppi, Isabella Pallotta, Elise Spedden, Ruggero Tenni, Mario Raspanti, David Kaplan, Maria Enrica Tira, Cristian Staii, Alessandra Balduini.   

Abstract

Cell interactions with matrices via specific receptors control many functions, with chemistry, physics, and membrane elasticity as fundamental elements of the processes involved. Little is known about how biochemical and biophysical processes integrate to generate force and, ultimately, to regulate hemopoiesis into the bone marrow-matrix environment. To address this hypothesis, in this work we focus on the regulation of MK development by type I collagen. By atomic force microscopy analysis, we demonstrate that the tensile strength of fibrils in type I collagen structure is a fundamental requirement to regulate cytoskeleton contractility of human MKs through the activation of integrin-α2β1-dependent Rho-ROCK pathway and MLC-2 phosphorylation. Most importantly, this mechanism seemed to mediate MK migration, fibronectin assembly, and platelet formation. On the contrary, a decrease in mechanical tension caused by N-acetylation of lysine side chains in type I collagen completely reverted these processes by preventing fibrillogenesis.

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Year:  2011        PMID: 21828129      PMCID: PMC3291488          DOI: 10.1182/blood-2011-04-345876

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


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