Shiridhar Kashyap scite author profile

Antiretroviral therapy (ART) has significantly reduced the rate of mortality in HIV infected population, but people living with HIV (PLWH) show higher rates of cardiovascular disease (CVD). However, the effect of antiretroviral (ARV) drug treatment on cardiac cells is not clear. In this study, we explored the effect of ARV drugs in cardiomyocyte epigenetic remodeling. Primary cardiomyocytes were treated with a combination of four ARV drugs (ritonavir, abacavir, atazanavir, and lamivudine), and epigenetic changes were examined. Our data suggest that ARV drugs treatment significantly reduces acetylation at H3K9 and H3K27 and promotes methylation at H3K9 and H3K27, which are histone marks for gene expression activation and gene repression, respectively. Besides, ARV drugs treatment causes pathological changes in the cell through increased production of reactive oxygen species (ROS) and cellular hypertrophy. Further, the expression of chromatin remodeling enzymes was monitored in cardiomyocytes treated with ARV drugs using PCR array. The PCR array data indicated that the expression of epigenetic enzymes was differentially regulated in the ARV drugs treated cardiomyocytes. Consistent with the PCR array result, SIRT1, SUV39H1, and EZH2 protein expression was significantly upregulated in ARV drugs treated cardiomyocytes. Furthermore, gene expression analysis of the heart tissue from HIV+ patients showed that the expression of SIRT1, SUV39H1, and EZH2 was up-regulated in patients with a history of ART. Additionally, we found that expression of SIRT1 can protect cardiomyocytes in presence of ARV drugs through reduction of cellular ROS and cellular hypertrophy. Our results reveal that ARV drugs modulate the epigenetic histone markers involved in gene expression, and play a critical role in histone deacetylation at H3K9 and H3K27 during cellular stress. This study may lead to development of novel therapeutic strategies for the treatment of CVD in PLWH.

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Role of metabolic manipulator trimetazidine in limiting percutaneous coronary intervention–induced myocardial injury

Kazmi¹,

Kapoor²,

Sinha³

et al. 2018

Indian Heart Journal

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BackgroundTrimetazidine (TMZ) is a metabolic modulator that shifts substrate utilization from fatty acid to carbohydrates, thereby, increasing myocardial glucose oxidation and improving myocardial ischemia. We evaluated whether TMZ is effective in reducing myocardial injury after percutaneous coronary intervention (PCI).MethodsPatients with stable angina undergoing elective PCI were divided into two groups, one who received oral TMZ (35 mg BD) started 7 days before PCI (n = 48) and second who did not receive any TMZ (in addition to the standard therapy (n = 52)). Troponin-I (cTnI) and creatine kinase–MB (CK-MB) were measured before, 8, and 24 h after PCI. The primary end point was a difference in post-PCI cTnI and CK-MB levels (vs baseline). Frequency of cTnI release in the two groups, total amount of cTnI release, and difference in TIMI flow grade before and after the procedure were also assessed.ResultsBaseline demographics in the groups were comparable. Despite similar baseline levels, post-procedural cTnI was lower at 8 h (0.13 vs 0.56 ng/ml, p = 0.03) and 24 h (0.2 vs 1.13 ng/ml, p = 0.004) in the TMZ group. Decline or no change in cTnI was significantly more common in the TMZ group (26% vs 2%, p < 0.01). Total cTnI released after PCI, as assessed by area under curve was significantly lower in the TMZ group (15.84 vs 3.32 ng h/ml, p = 0.005). Although CK-MB levels were also lower in the TMZ group, the difference was not statistically significant. Incidence of post-PCI TIMI 1 or 2 flow was significantly lesser in the TMZ group.ConclusionsOral TMZ started 7 days before PCI was effective in limiting PCI-induced myocardial injury with lower cTnI levels and higher prevalence of TIMI-3 flow.

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Protein protein interaction network analysis of differentially expressed genes to understand involved biological processes in coronary artery disease and its different severity

et al. 2018

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