ABSTRACT: Squestosome 1 (SQSTM1), also known as p62, is a multi-functional adaptor protein known for its pleotropic roles in autophagy, proteostasis, inflammation and cancer. Recently, p62 has emerged as an important modulator of protein quality control and aging. However, its role in the heart is not well understood. Our understanding of the role of p62 in the heart has been limited to the indirect assessment of its function in the setting of autophagy inhibition or proteotoxic stress. However, whether p62 is required to maintain cardiac function at rest or in response to stress has not been explored. Here we investigated the functional consequence of cardiac p62 deletion in the absence of other contributing phenotypic and systemic factors observed in the whole-body p62 deleted mice. Lack of cardiomyocytes p62 precipitated cardiac aging in mice and was associated with reduced contractile function and a progressive development of cardiac hypertrophy and fibrosis. Transcriptomic analysis of p62-deleted heart revealed a selective impairment in Nrf2 transcription, which was confirmed in the hearts of p62cKO mice. We further showed that absence of p62 in adult mice resulted in excessive oxidative stress and cell death when mice were rendered hypoxic. To gain mechanistic insights, we employed loss and gain of p62 function in H9c2 cardiomyoblasts and showed a sustained reduction in Nrf2 protein expression, nuclear translocation and transcriptional activity in p62-deficient cells. Mechanistically, p62-deficient cells exhibited an increase in proteasome-mediated Nrf2 degradation. In contrast, gain of p62 function led to Nrf2 stabilization and transcriptional activity.