ENDOG, a mitochondrial intermembrane space located endonuclease, participates in DNA fragmentation and apoptosis by translocating to the nucleus. ENDOG can also relocate to the mitochondrial matrix, where it regulates mitochondrial genome cleavage. However, the biological function of cytoplasm-translocated ENDOG remains unclear. Our previous study reported that starvation induces the release of ENDOG from mitochondria to the cytoplasm, promoting macroautophagy/autophagy in a process conserved across species. We demonstrate that ENDOG can be phosphorylated by GSK3B, which enhances ENDOG binding to YWHAG/14-3-3γ, and leads to the release of TSC2 and PIK3C3/VPS34 from YWHAG/14-3-3γ, followed by MTORC1 pathway suppression and autophagy initiation. Additionally, we recently reported that ENDOG can also activate the MTORC2-AKT-ACLY signaling axis by promoting the release of RICTOR and TSC2 from YWHAG/14-3-3γ, resulting in acetyl-CoA production. Furthermore, cytoplasmic ENDOG can translocate to the endoplasmic reticulum, where it binds with HSPA5/BIP to release ERN1/IRE1a-EIF2AK3/PERK to activate the endoplasmic reticulum stress response, eventually promoting lipid synthesis. Collectively, ENDOG will be released from the mitochondrial intermembrane space, and translocated to the mitochondrial matrix, cytoplasm, and nucleus during different stress stimulation, where it digests DNA or interacts with crucial proteins to regulate different biological functions, including apoptosis, autophagy, mitophagy, and lipid synthesis.
Keywords: Autophagy; ENDOG; MTORC1; MTORC2; endoplasmic reticulum.