A non-canonical AKT1-TERT pathway coordinates autophagy and ERphagy

Protein kinases canonically suppress autophagy, yet how cells activate autophagy during stress remains unclear. Here we reveal that AKT1 kinase promotes autophagy through a non-canonical pathway. AKT2 loss triggers compensatory AKT1 activation, which phosphorylates telomerase reverse transcriptase (TERT) at Serine 824, driving nuclear translocation. Nuclear TERT assembles with FOXO3 and c-MYC into a transcriptional complex that activates PERK, initiating a feed-forward loop. PERK-ATF4 signaling amplifies autophagy gene transcription while inducing selective ERphagy through receptors TEX264 and CCPG1. Using C. elegans , mouse models, and human iPSCs, we demonstrate this AKT1-TERT-c-MYC-FOXO3 axis is evolutionarily conserved and essential for proteostasis in post-mitotic cells. We developed a first-in-class allosteric AKT2 inhibitor through structure-guided design that selectively triggers beneficial AKT1 compensation, restoring autophagy in diseased cells. These findings reveal a transcriptional mechanism linking AKT1 activation to autophagy and provide a therapeutic strategy for diseases with defective ER quality control.