The trans-membrane domain of Bcl-2α, but not its hydrophobic cleft, is a critical determinant for efficient IP₃ receptor inhibition

Hristina Ivanova, Abigael Ritane, Larry Wagner, Tomas Luyten, George Shapovalov, Kirsten Welkenhuyzen, Bruno Seitaj, Giovanni Monaco, Humbert De Smedt, Natalia Prevarskaya, David I. Yule, Jan B. Parys and Geert Bultynck _

Abstract

ABSTRACT

The anti-apoptotic Bcl-2 protein is emerging as an efficient inhibitor of IP₃R function, contributing to its oncogenic properties. Yet, the underlying molecular mechanisms remain not fully understood. Using mutations or pharmacological inhibition to antagonize Bcl-2’s hydrophobic cleft, we excluded this functional domain as responsible for Bcl-2-mediated IP₃Rs inhibition. In contrast, the deletion of the C-terminus, containing the trans-membrane domain, which is only present in Bcl-2α, but not in Bcl-2β, led to impaired inhibition of IP₃R-mediated Ca²⁺ release and staurosporine-induced apoptosis. Strikingly, the trans-membrane domain was sufficient for IP₃R binding and inhibition. We therefore propose a novel model, in which the Bcl-2’s C-terminus serves as a functional anchor, which beyond mere ER-membrane targeting, underlies efficient IP₃R inhibition by (i) positioning the BH4 domain in the close proximity of its binding site on IP₃R, thus facilitating their interaction; (ii) inhibiting IP₃R-channel openings through a direct interaction with the C-terminal region of the channel downstream of the channel-pore. Finally, since the hydrophobic cleft of Bcl-2 was not involved in IP₃R suppression, our findings indicate that ABT-199 does not interfere with IP₃R regulation by Bcl-2 and its mechanism of action as a cell-death therapeutic in cancer cells likely does not involve Ca²⁺ signaling.

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