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The non-apoptotic action of Bcl-xL: regulating Ca2+ signaling and bioenergetics at the ER-mitochondrion interface

2016; Springer Science+Business Media; Volume: 48; Issue: 3 Linguagem: Inglês

10.1007/s10863-016-9664-x

1573-6881

Abasha Williams, Teruo Hayashi, Daniel Wolozny, Bojiao Yin, Tzu-Chieh Su, Michael J. Betenbaugh, Tsung‐Ping Su,

ATP Synthase and ATPases Research

Bcl-2 family proteins are known to competitively regulate Ca2+; however, the specific inter-organelle signaling pathways and related cellular functions are not fully elucidated. In this study, a portion of Bcl-xL was detected at the ER-mitochondrion interface or MAM (mitochondria-associated ER membrane) in association with type 3 inositol 1,4,5-trisphosphate receptors (IP3R3); an association facilitated by the BH4 and transmembrane domains of Bcl-xL. Moreover, increasing Bcl-xL expression enhanced transient mitochondrial Ca2+ levels upon ER Ca2+ depletion induced by short-term, non-apoptotic incubation with thapsigargin (Tg), while concomitantly reducing cytosolic Ca2+ release. These mitochondrial changes appear to be IP3R3-dependent and resulted in decreased NAD/NADH ratios and higher electron transport chain oxidase activity. Interestingly, extended Tg exposure stimulated ER stress, but not apoptosis, and further enhanced TCA cycling. Indeed, confocal analysis indicated that Bcl-xL translocated to the MAM and increased its interaction with IP3R3 following extended Tg treatment. Thus, the MAM is a critical cell-signaling junction whereby Bcl-xL dynamically interacts with IP3R3 to coordinate mitochondrial Ca2+ transfer and alters cellular metabolism in order to increase the cells' bioenergetic capacity, particularly during periods of stress.