Species-Specific Regulation of TRPM2 by PI(4,5)P2 via the Membrane Interfacial Cavity

The human apoptosis channel TRPM2 is stimulated by intracellular ADR-ribose and calcium. Recent studies show pronounced species-specific activation mechanisms. Our aim was to analyse the functional effect of phosphatidylinositol 4,5-bisphosphate (PI(4,5)P₂), commonly referred to as PIP₂, on different TRPM2 orthologues. Moreover, we wished to identify the interaction site between TRPM2 and PIP₂. We demonstrate a crucial role of PIP₂, in the activation of TRPM2 orthologues of man, zebrafish, and sea anemone. Utilizing inside-out patch clamp recordings of HEK-293 cells transfected with TRPM2, differential effects of PIP₂ that were dependent on the species variant became apparent. While depletion of PIP₂ via polylysine uniformly caused complete inactivation of TRPM2, restoration of channel activity by artificial PIP₂ differed widely. Human TRPM2 was the least sensitive species variant, making it the most susceptible one for regulation by changes in intramembranous PIP₂ content. Furthermore, mutations of highly conserved positively charged amino acid residues in the membrane interfacial cavity reduced the PIP₂ sensitivity in all three TRPM2 orthologues to varying degrees. We conclude that the membrane interfacial cavity acts as a uniform PIP₂ binding site of TRPM2, facilitating channel activation in the presence of ADPR and Ca²⁺ in a species-specific manner.