Zavala, M. R.; Ghosh, A.; Joseph, S.; Chakrabarti, R.

Intracellular calcium signaling plays a vital role in regulating various cellular processes including gene regulation, motility, metabolism and cell death. Inositol 1,4,5-trisphosphate receptors (IP3R) on the Endoplasmic Reticulum (ER) are a major cation channel that regulates stimulus-induced calcium release from the ER. While several molecular players regulate activity of IP3R, its regulation by actin filaments were uncharacterized. Here we show that actin filaments polymerized by a specific actin nucleator INF2 facilitates agonist-induced IP3R activity. Our results demonstrate that INF2-mediated actin filaments regulate formation and/or stability of IP3R clusters on the ER that have been previously shown to be hotspots of ER calcium release. Using cell-biological and biochemical techniques we further show that INF2 physically interacts with IP3R isoforms, often at IP3R clusters. While INF2-IP3R interaction is independent of INF2-activity, the ability of INF2 to mediate IP3R clusters is dependent on its actin polymerization activity. Finally, we demonstrate that in addition to its calcium mobilization activity, INF2 on ER specifically regulates IP3R cluster positioning to mediate ER-mitochondrial contacts and facilitate ER to mitochondrial calcium transfer. Overall, these results reveal an actin-dependent step in regulation of IP3R activity both in terms of ER calcium release and modulation of ER-mitochondrial contacts.