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Polysulfide protects against diabetic cardiomyopathy through sulfhydration of PPARγ and SIRT-3.
Antioxidants & Redox Signaling 2022 November 3
AIMS: Diabetic cardiomyopathy (DCM) is characterized by cardiac dysfunction and heart failure. However, the effective therapy for DCM is still lacking. Polysulfide contains chains of sulfur atoms, and accumulative evidences have shown that it actively participates in mammalian physiology or pathophysiology. Nevertheless, the potential effects and mechanisms of polysulfide in DCM need further investigation. In the present study, Na2S4, a polysulfide donor, was employed to investigate the therapeutic effects of polysulfide in DCM.
RESULTS: Our results showed that Na2S4 protected cardiomyocytes against high glucose (HG)-induced cardiomyocyte injury. The pathological changes in DCM including cell death, oxidative stress, mitochondrial dysfunction and cardiac hypertrophy were improved by Na2S4 treatment. The left ventricular contractile function in streptozotocin (STZ)-induced diabetic mice was significantly improved by Na2S4. Mechanistically, Na2S4 upregulated and sulfhydrated peroxisome proliferator-activated receptor-γ (PPARγ) and sirtuin 3 (SIRT-3) in cardiomyocytes. Suppression of PPARγ or SIRT-3 with their specific inhibitors or blockade of sulfhydration abolished the protective effects of Na2S4. Moreover, mutations of PPARγ or SIRT-3 at specific cysteines diminished the benefits of Na2S4 in HG-challenged cardiomyocytes.
INNOVATION AND CONCLUSION: We demonstrated that Na2S4 prevented the development of DCM via sulfhydration of both PPARγ and SIRT3. Our results imply that polysulfide may be a potential and promising agent to treat DCM.
RESULTS: Our results showed that Na2S4 protected cardiomyocytes against high glucose (HG)-induced cardiomyocyte injury. The pathological changes in DCM including cell death, oxidative stress, mitochondrial dysfunction and cardiac hypertrophy were improved by Na2S4 treatment. The left ventricular contractile function in streptozotocin (STZ)-induced diabetic mice was significantly improved by Na2S4. Mechanistically, Na2S4 upregulated and sulfhydrated peroxisome proliferator-activated receptor-γ (PPARγ) and sirtuin 3 (SIRT-3) in cardiomyocytes. Suppression of PPARγ or SIRT-3 with their specific inhibitors or blockade of sulfhydration abolished the protective effects of Na2S4. Moreover, mutations of PPARγ or SIRT-3 at specific cysteines diminished the benefits of Na2S4 in HG-challenged cardiomyocytes.
INNOVATION AND CONCLUSION: We demonstrated that Na2S4 prevented the development of DCM via sulfhydration of both PPARγ and SIRT3. Our results imply that polysulfide may be a potential and promising agent to treat DCM.
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