Cardiac-specific mTORC1 inhibition protected against heart failure with preserved ejection fraction in a mouse model of aging and chronic metabolic and hypertensive stress.
Does cardiac-specific mTORC1 inhibition protect against HFpEF in old male mice subjected to chronic metabolic and hypertensive stress?
Age-related disruptions in protein quality control driven by mTORC1 worsen proteostatic stress in HFpEF, suggesting mTORC1 inhibition as a potential therapeutic strategy.
Heart failure with preserved ejection fraction (HFpEF) is a leading cause of hospitalization and mortality in older adults, yet the role of aging in its pathogenesis remains unclear. Old male mice subjected to chronic metabolic and hypertensive stress (2-hit) developed a more severe HFpEF phenotype compared with young counterparts. We identified that age-related disruptions in protein quality control (PQC) worsens proteostatic stress in HFpEF. Mammalian target of rapamycin complex 1 (mTORC1), a key regulator of PQC, is activated by both aging and 2-hit stress, and cardiac-specific mTORC1 inhibition protects against HFpEF. Our findings highlight the need to integrate aging into preclinical models of HFpEF and suggest targeting PQC as a therapeutic strategy.
Kobak et al. (Wed,) conducted a other in Heart failure with preserved ejection fraction (HFpEF). Cardiac-specific mTORC1 inhibition vs. Young counterparts / no inhibition was evaluated on HFpEF phenotype severity. Cardiac-specific mTORC1 inhibition protected against heart failure with preserved ejection fraction in a mouse model of aging and chronic metabolic and hypertensive stress.
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