Cardiac hypertrophy, a hallmark of various cardiovascular diseases, is characterized by metabolic reprogramming that leads to enhanced glycolytic activity. In the present study, we aimed to investigate the role of ubiquitin-specific protease46 (USP46) in regulating glycolysis of cardiac hypertrophy through the HIF-1α pathway. We provided evidence that USP46 was significantly elevated in hypertrophied mouse heart and in cell hypertrophy model, correlating with increased HIF-1α stability and activation of downstream glycolytic enzymes. We observed that knockdown of USP46 led to decreased HIF-1α levels and reduction in glycolysis rate, thereby attenuating myocardial hypertrophy in mice model of cardiac hypertrophy. Conversely, overexpression of USP46 enhanced the expression of HIF-1α, leading to increased glycolytic activity and exacerbation of cardiac hypertrophy. In vitro studies further demonstrated that USP46 enhances the stability of HIF-1α by binding to HIF-1α and reducing the ubiquitination of HIF-1α, thus promotes the transcriptional activity of HIF-1α, eventually facilitating the expression of metabolic genes associated with glycolysis. Metabolic profiling also confirmed that USP46/HIF-1α intervention significantly influenced lactate, pyruvate and ATP production in cardiac myocytes. Collectively, our findings suggest that USP46 plays a pivotal role in cardiac hypertrophy by modulating HIF-1α-dependent glycolytic processes. This study positions USP46 as a promising therapeutic target for the management of cardiac hypertrophy and related cardiovascular diseases, offering insights into the intricate interplay between deubiquitination, glycolysis, and cardiac remodeling.
Keywords: Cardiac hypertrophy; Eubiquitination; Glycolysis; HIF-1α; USP46.
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