AI Article Synopsis
- Excess lipid buildup in the heart leads to lipotoxicity and cardiac issues, with PPARγ influencing key fatty acid metabolism pathways.
- Overexpressing PPARγ in heart cells causes dilated cardiomyopathy in mice, while miR-130b-3p is found to be downregulated in patients, highlighting a potential protective role.
- The study shows that when miR-130b-3p is increased in human cardiomyoblasts, it reduces the harmful effects of palmitate-induced stress by targeting and downregulating PPARγ, thus alleviating oxidative stress and cell apoptosis.
Article Abstract
Excess lipid accumulation in the heart is associated with lipotoxicity and cardiac dysfunction due to excessive fatty acid oxidation. Peroxisome proliferator-activated receptor gamma (PPARγ) modulates the expression of key molecules involved in the FA metabolic pathway. Cardiomyocyte-specific overexpression of PPARγ causes dilated cardiomyopathy associated with lipotoxicity in mice. miR-130b-3p has been shown to be downregulated in the plasma of idiopathic dilated cardiomyopathy patients, but its role in modulating cardiomyocyte lipotoxicity via PPARγ remains unclear. Our objective was to investigate the protective role of miR-130b-3p against palmitate-induced lipotoxicity in cardiomyocytes through the modulation of the PPARγ signaling pathway. Human cardiomyoblasts were treated with palmitate. Intracellular lipid accumulation and expression of PPARγ and its downstream targets (, , , ) were analyzed. Mitochondrial oxidative stress was assessed via MitoTracker Green and Redox Sensor Red staining and expression of and . Endoplasmic reticulum stress and apoptosis were determined by examining GRP78, , XBP1s, , and caspase-3 expression. miR-130b-3p overexpression was achieved using transfection methods, and its effect on these parameters was evaluated. Luciferase assays were used to confirm PPARγ as a direct target of miR-130b-3p. Palmitate treatment led to increased lipid accumulation and upregulation of PPARγ and its downstream targets in human cardiomyoblasts. Palmitate also increased mitochondrial oxidative stress, endoplasmic reticulum stress and apoptosis. miR-130b-3p overexpression reduced PPARγ expression and its downstream signaling, alleviated mitochondrial oxidative stress and decreased endoplasmic reticulum stress and apoptosis in palmitate-stimulated cardiomyoblasts. Luciferase assays confirmed PPARγ as a direct target of miR-130b-3p. Our findings suggest that miR-130b-3p plays a protective role against palmitate-induced lipotoxicity in cardiomyocytes by modulating the PPARγ signaling pathway.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11594327 | PMC |
| http://dx.doi.org/10.3390/ijms252212161 | DOI Listing |
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