Unveiling the Mechanisms of Apoptosis Induction by Deep‐Sea‐Derived Polyketide‐Terpenoid Hybrids from Penicillium allii‐sativi: A Focus on Mitochondrial and mTOR Pathways

Comprehensive Summary A chemical investigation of the deep‐sea‐derived fungus Penicillium allii‐sativi MCCC 3A00580 resulted in the discovery of four new meroterpenoids ( 1 — 4 ) and one related known co‐metabolite ( 5 ). These meroterpenoids showcase unique carbon skeletons featuring a common drimane sesquiterpene part with highly diverse polyketide units. Particularly, compound 1 incorporates a salicylic acid moiety while 2 possesses a rare peroxide bridge in the polyketide part. The structures of new compounds were assigned by extensive spectroscopic analysis, quantum calculations, and biogenetic considerations. Notably, 3 significantly blocked the mTOR signaling pathway, resulting in the arrest of cell cycle at G0‐G1 phase and triggering mitochondrial apoptosis in Hela cells. While the previously reported co‐metabolite macrophorin A (MPA) effectively triggered cell death in MDA‐MB‐231 cancer cells by activating apoptosis pathways involving death receptors, mitochondria, mTOR, and TNF.