Mouse AMACO, a kidney and skin basement membrane associated molecule that mediates RGD-dependent cell attachment.

The VWA domain-containing extracellular matrix protein AMACO has not been extensively characterized and its function remains unknown. It has been proposed as a potential cancer marker and carries a rare O-glucosylation and O-fucosylation on its first EGF-like domain. AMACO is a basement membrane associated protein, however its exact localization has not been determined. Here we show by immunogold electron microscopy of mouse kidney and skin that AMACO does not occur within the basement membrane but rather subjacent to the basement membrane at its stromal surface. In skin, AMACO often colocalizes with triple-helical domains of collagen VII containing anchoring fibrils as they emerge from the basal lamina. However, the immunogold patterns for AMACO and the C-terminal end of collagen VII show discrete differences, indicating that AMACO and collagen VII do not colocalize at anchoring plaques. In contrast, the localization pattern of AMACO partially overlaps with that for collagen XVIII. In addition, mouse AMACO was shown to support beta1 integrin-mediated adhesion of a keratinocyte-like cell line, HaCaT, and a fibroblast cell line, Wi26, in an RGD-dependent manner, most likely using an RGD-motif near the C-terminus of AMACO. However, the loss of cell adhesion to the C-terminal part of the human AMACO, due to the unique absence of an RGD sequence in the human protein, suggests that cell adhesion is not AMACO's major function.

Citation

Jan M Gebauer, Douglas R Keene, Bjorn R Olsen, Lydia M Sorokin, Mats Paulsson, Raimund Wagener. Mouse AMACO, a kidney and skin basement membrane associated molecule that mediates RGD-dependent cell attachment. Matrix biology : journal of the International Society for Matrix Biology. 2009 Oct;28(8):456-62

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PMID: 19651211

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