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. 2025 Oct;21(10):2230-2245.
doi: 10.1080/15548627.2025.2496786. Epub 2025 May 4.

ATP2A2 regulates STING1/MITA-driven signal transduction including selective autophagy

Xue Yang  1   2 Linyue Lv  1   2 Yuelan Zhang  1   2 Zhuyou Zhang  1   2 Shaowei Zeng  1   2 Xinyi Zhang  1   2 Qinyang Wang  1   2 Martin Dorf  3 Shitao Li  4 Bishi Fu  1   2
Affiliations

ATP2A2 regulates STING1/MITA-driven signal transduction including selective autophagy

Xue Yang et al. Autophagy. 2025 Oct.

Abstract

STING1/MITA not only induces innate immune responses but also triggers macroautophagy/autophagy to selectively degrade signaling molecules. However, the molecular mechanisms regulating STING1-mediated selective autophagy remain unclear. Here, we first report that ATP2A2 directly interacts with STING1, regulating STING1-mediated innate immune response by modulating its polymerization and trafficking, thereby inhibiting DNA virus infection. Notably, while screening for reticulophagy receptors involved in STING1-mediated selective autophagy, we identified SEC62 as an important receptor protein in STING1-mediated reticulophagy. Mechanistically, SEC62 strengthens its interaction with STING1 upon activation and concurrently facilitates STING1-mediated reticulophagy upon starvation, which are dependent on ATP2A2. Furthermore, knocking down SEC62 in WT cells inhibits STING1-mediated MAP1LC3B/LC3B lipidation and autophagosome formation, an effect that is lost in ATP2A2 knockout cells, suggesting that SEC62's role in STING1-mediated selective autophagy is ATP2A2 dependent. Thus, our findings identify the reticulophagy receptor SEC62 as a novel receptor protein regulating STING1-mediated selective autophagy, providing new insight into the mechanism regarding a reticulophagy receptor in the process of STING1-induced selective autophagy.Abbrevations: aa: amino acids; AP-MS: affinity tag purification-mass spectrometry; ATP2A1: ATPase sarcoplasmic/endoplasmic reticulum Ca2+ transporting 1; ATP2A2: ATPase sarcoplasmic/endoplasmic reticulum Ca2+ transporting 2; ATP2A3: ATPase sarcoplasmic/endoplasmic reticulum Ca2+ transporting 3; CANX: calnexin; CCPG1: cell cycle progression 1; CGAS: cyclic GMP-AMP synthase; ctDNA: calf thymus DNA; dsRNA: double-stranded RNA; diABZI: diamidobenzimidazole; ER: endoplasmic reticulum; ERGIC: ER-Golgi intermediate compartment; EBSS: Earle's Balanced Salt Solution; EV: empty vector; FL: full length; GOLGA2/GM130: golgin A2; HSV-1: herpes simplex virus type 1; IRF3: interferon regulatory factor 3; IFNs: type I interferons; ISD: interferon stimulatory DNA; KO: knockout; MAVS: mitochondrial antiviral signaling protein; MOI: multiplicity of infection; poly(I:C): polyinosinic-polycytidylic acid; NBR1: NBR1 autophagy cargo receptor; PRR: pattern recognition receptor; reticulophagy: selective autophagic degradation of the ER; RETREG1/FAM134B: reticulophagy regulator 1; RIGI: RNA sensor RIG-I; RTN3L: reticulon 3; SEC62: SEC62 homolog, preprotein translocation factor; SeV: Sendai virus; STIM1: stromal interaction molecule 1; STING1/MITA: stimulator of interferon response cGAMP interactor 1; TBK1: TANK binding kinase 1; TEX264: testis expressed 264, ER-phagy receptor; TMX1: thioredoxin related transmembrane protein 1; VSV: vesicular stomatitis virus; VACV: vaccinia virus; ZMPSTE24: zinc metallopeptidase STE24.

Keywords: ATP2A2; Antiviral; SEC62; STING1/MITA; innate immunity; selective autophagy.

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Conflict of interest statement

No potential conflict of interest was reported by the author(s).

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