Double knockout of Akt2 and AMPK accentuates high fat diet-induced cardiac anomalies through a cGAS-STING-mediated mechanism.

High fat diet intake contributes to undesired cardiac geometric and functional changes although the underlying mechanism remains elusive. Akt and AMPK govern to cardiac homeostasis. This study examined the impact of deletion of Akt2 (main cardiac isoform of Akt) and AMPKα2 on high fat diet intake-induced cardiac remodeling and contractile anomalies and mechanisms involved. Cardiac geometry, contractile, and intracellular Ca²⁺ properties were evaluated using echocardiography, IonOptix® edge-detection and fura-2 techniques in wild-type (WT) and Akt2-AMPK double knockout (DKO) mice receiving low fat (LF) or high fat (HF) diet for 4 months. Our results revealed that fat diet intake elicit obesity, cardiac remodeling (hypertrophy, LV mass, LVESD, and cross-sectional area), contractile dysfunction (fractional shortening, peak shortening, maximal velocity of shortening/relengthening, time-to-90% relengthening, and intracellular Ca²⁺ handling), ultrastructural disarray, apoptosis, O₂^-, inflammation, dampened autophagy and mitophagy. Although DKO did not affect these parameters, it accentuated high fat diet-induced cardiac remodeling and contractile anomalies. High fat intake upregulated levels of cyclic GMP-AMP synthase (cGAS), stimulator of interferon genes (STING), and STING phosphorylation while suppressing phosphorylation of ULK1 (Ser⁷⁵⁷ and Ser⁷⁷⁷), with a more pronounced effect in DKO mice. In vitro data revealed that inhibition of cGAS and STING using PF-06928215 and Astin C negated palmitic acid-induced cardiomyocyte contractile dysfunction. Biological function analysis for all differentially expressed genes (DEGs) depicted that gene ontology terms associated with Akt and AMPK signaling processes were notably changed in high fat-fed hearts. Our data indicate that Akt2-AMPK ablation accentuated high fat diet-induced cardiac anomalies possibly through a cGAS-STING-mechanism.

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