Feedback regulation of the a2(1) collagen gene via the Mek-Erk signaling pathway

The extracellular matrix (ECM) provides the microenvironment that is pivotal for cell growth, motility, attachment, and differentiation. Advances in cell culture techniques have led to the development of cell-derived ECM model systems that are more reflective of the in vivo architecture of the ECM in tissue. In this study, a fibroblast-derived ECM (fd-ECM) was used to study the feedback regulation of type I collagen synthesis in fibroblasts. Fibroblasts plated on a preformed fd-ECM showed a significant decrease in the production of type I collagen and pro-a2(1) collagen mRNA compared to cells grown in the absence of a matrix. Function-blocking antibodies showed that this downregulation of type I collagen gene expression is mediated via alpha 2 beta 1 integrin. The use of several kinase inhibitors and a dominant negative ras construct (N17Ras) showed that the matrix-mediated downregulation of COL1A2 occurs via Ras-dependent activation of the MEK/ERK signaling pathway. Deletion analysis of the COL1A2 promoter implicated the region between -375 and -107 as containing a potential matrix responsive element. The use of Sp1 siRNA demonstrated that Sp1 is an important mediator of this feedback inhibition. This study provides some new insights into the feedback regulation of COL1A2 gene expression. (C) IUBMB, IUBMB Life, 2011.