Activation of Trp3 by inositol 1,4,5-trisphosphate receptors through displacement of inhibitory calmodulin from a common binding domain

Abstract

Mammalian homologues of Drosophila Trp form plasma membrane channels that mediate Ca²⁺ influx in response to activation of phospholipase C and internal Ca²⁺ store depletion. Previous studies showed that human Trp3 is activated by inositol 1,4,5-trisphosphate (IP₃) receptors (IP₃Rs) and identified interacting domains, one on Trp and two on IP₃R. We now find that Trp3 binds Ca²⁺-calmodulin (Ca²⁺/CaM) at a site that overlaps with the IP₃R binding domain. Using patch-clamp recordings from inside-out patches, we further show that Trp3 has a high intrinsic activity that is suppressed by Ca²⁺/CaM under resting conditions, and that Trp3 is activated by the following: a Trp-binding peptide from IP₃R that displaces CaM from Trp3, a myosin light chain kinase Ca²⁺/CaM binding peptide that prevents CaM from binding to Trp3, and calmidazolium, an inactivator of Ca²⁺/CaM. We conclude that inhibition of the inhibitory action of CaM is a key step of Trp3 channel activation by IP₃Rs.