MOAP-1 is a pro-apoptotic tumor suppressor molecule with a growing set of known interacting partners. We have demonstrated that during death receptor-dependent apoptosis, MOAP-1 is recruited to TNF-R1 or TRAIL-R1, followed by RASSF1A and Bax association. MOAP-1/Bax association promotes Bax conformational change resulting in the translocation of Bax into the mitochondrial membrane, mitochondrial membrane insertion and dysregulation resulting in several hallmark events that execute apoptosis. Although a role in apoptosis is established, it is currently unknown how MOAP-1 is regulated and how it links to Bax to promote apoptosis. In this study, we demonstrate robust association with RACK1, a versatile scaffolding protein that responds to activation of protein kinase C. Furthermore, we can demonstrate that RACK1 functions to bring the E3 ligase, TRAF2, to MOAP-1 in order to undergo a K63-dependent ubiquitination. Furthermore, RACK1 associates with MOAP-1 via electrostatic associations similar to those observed between MOAP-1/RASSF1A and MOAP-1/TNF-R1. These events illustrate the complex nature of MOAP-1 regulation and characterizes the important role of the scaffolding protein, RACK1, in influencing MOAP-1 biology.
Keywords: Apoptosis; MOAP-1; PKC; RACK1; RASSF1A; TRAF2; Ubiquitination.
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