Hyperactive mTORC1/4EBP1 signaling dysregulates proteostasis and accelerates cardiac aging.

The mechanistic target of rapamycin complex 1 (mTORC1) has a major impact on aging by regulation of proteostasis. It is well established that mTORC1 signaling is hyperactivated with aging and age-related diseases. Previous studies have shown that partial inhibition of mTOR signaling by rapamycin reverses age-related deteriorations in cardiac function and structure in old mice. However, the downstream signaling pathways involved in this protection against cardiac aging have not been established. mTORC1 phosphorylates 4E-binding protein 1 (4EBP1) to promote the initiation of cap-dependent translation. The objective of this project is to examine the role of the mTORC1/4EBP1 axis in age-related cardiac dysfunction. We used a whole-body 4EBP1 KO mouse model, which mimics a hyperactive mTORC1/4EBP1/eIF4E axis, to investigate the effects of hyperactive mTORC1/4EBP1 axis in cardiac aging. Echocardiographic measurements of middle-aged 4EBP1 KO mice show impaired diastolic function and myocardial performance compared to age-matched WT mice and these parameters are at similar levels as old WT mice, suggesting that 4EBP1 KO mice experience accelerated cardiac aging. Old 4EBP1 KO mice show further decline in systolic and diastolic function compared to middle-aged counterparts and have worse systolic and diastolic function than age-matched WT mice. Gene expression levels of heart failure markers are not different between 4EBP1 KO and WT hearts. However, ribosomal biogenesis and protein ubiquitination are significantly increased in 4EBP1 KO hearts when compared to WT controls, suggesting dysregulated proteostasis in 4EBP1 KO hearts. Together, these results show that a hyperactive mTORC1/4EBP1 axis accelerates cardiac aging, potentially by dysregulating proteostasis.