Molecular mapping of transmembrane mechanotransduction through the β1 integrin-CD98hc-TRPV4 axis

Abstract

ABSTRACTOne of the most rapid (< 4 msec) transmembrane cellular mechanotransduction events involves activation of Transient Receptor Potential Vanilloid 4 (TRPV4) ion channels by mechanical forces transmitted across β1 integrin receptors in endothelial cells, and the transmembrane Solute Carrier family 3 member 2 (CD98hc) protein has been implicated in this response. Here, we show that β1 integrin, CD98hc, and TRPV4 all tightly associate and co-localize in focal adhesions where mechanochemical conversion takes place. CD98hc knock down inhibits TRPV4-mediated calcium influx induced by mechanical forces, but not by chemical activators, thus confirming the mechanospecificity of this signaling response. Molecular analysis revealed that forces applied to β1 integrin must be transmitted from its cytoplasmic C-terminus to the CD98hc cytoplasmic tail, and from there to the ankyrin repeat domain of TRPV4 in order to produce ultra-rapid, force-induced, channel activation within the focal adhesion.Abstract FigureGraphical abstractSUMMARYA direct path of mechanical signal transfer between β1 integrin, CD98hc, and TRPV4 channels is identified that mediates ultra-rapid transmembrane mechanochemical conversion within focal adhesions.