Plasma membrane targeting is essential for Rem-mediated Ca2+ channel inhibition.

The small GTPase Rem is a potent negative regulator of high voltage-activated Ca(2+) channels and a known interacting partner for Ca(2+) channel accessory beta subunits. The mechanism for Rem-mediated channel inhibition remains controversial, although it has been proposed that Ca(V)beta association is required. Previous work has shown that a C-terminal truncation of Rem (Rem-(1-265)) displays reduced in vivo binding to membrane-localized beta 2a and lacks channel regulatory function. In this paper, we describe a role for the Rem C terminus in plasma membrane localization through association with phosphatidylinositol lipids. Moreover, Rem-(1-265) can associate with beta 2a in vitro and beta 1b in vivo, suggesting that the C terminus does not directly participate in Ca(V)beta association. Despite demonstrated beta 1b binding, Rem-(1-265) was not capable of regulating a Ca(V)1.2-beta 1b channel complex, indicating that beta subunit binding is not sufficient for channel regulation. However, fusion of the CAAX domain from K-Ras4B or H-Ras to the Rem-(1-265) C terminus restored membrane localization and Ca(2+) channel regulation, suggesting that beta binding and membrane localization are independent events required for channel inhibition.