Myocardial pyruvate dehydrogenase kinase 4 drives sex-specific cardiac responses to endotoxemia
John Q. Yap, Azadeh Nikouee, Matthew Kim, Quan Cao, David J. Rademacher, Jessie E. Lau, Ananya Arora, Leila Y. Zou, Yuxiao Sun, Luke Szweda, Hesham Sadek, Sharon Elliot, Benjamin Roos, Marilyn K. Glassberg, Hong-Long Ji, Xiang Gao, Qunfeng Dong, Qun Sophia Zang
John Q. Yap, Azadeh Nikouee, Matthew Kim, Quan Cao, David J. Rademacher, Jessie E. Lau, Ananya Arora, Leila Y. Zou, Yuxiao Sun, Luke Szweda, Hesham Sadek, Sharon Elliot, Benjamin Roos, Marilyn K. Glassberg, Hong-Long Ji, Xiang Gao, Qunfeng Dong, Qun Sophia Zang
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Research Article Inflammation Metabolism

Myocardial pyruvate dehydrogenase kinase 4 drives sex-specific cardiac responses to endotoxemia

Abstract

Males often experience worse cardiac outcomes than females in sepsis. This study identified pyruvate dehydrogenase kinase 4 (PDK4) as a key mediator of this disparity. PDK4 regulates glucose utilization by inhibiting pyruvate dehydrogenase (PDH) in mitochondria. In a mouse endotoxemia model, a sublethal dose of lipopolysaccharide (LPS, 5 mg/kg) significantly upregulated myocardial PDK4 and induced cardiac dysfunction in males but not females. Cardiac-specific PDK4 overexpression promoted this cardiac dysfunction in both sexes, whereas PDK4 knockout provided protection. In WT males, LPS reduced PDH activity and fatty acid oxidation (FAO) while increasing lactate levels, suggesting a shift toward glycolysis. These effects were exacerbated by PDK4 overexpression but attenuated by knockout. In females, metabolic changes were minimal, aside from reduced FAO in LPS-challenged females overexpressing PDK4. Additionally, a higher LPS dose (8 mg/kg) triggered cardiac dysfunction in females, accompanied by modest upregulation of PDK4, but without changes in PDH or lactate. Dichloroacetate (DCA), restraining PDK-mediated PDH inhibition, improved cardiac function in males but not females during endotoxemia. PDK4 overexpression also exacerbated cardiac mitochondrial damage, reduced mitophagy, and increased oxidative stress and inflammation during endotoxemia — effects that were prevented by PDK4 knockout. These findings suggest that PDK4 drives sex-specific cardiac responses in sepsis.

Authors

John Q. Yap, Azadeh Nikouee, Matthew Kim, Quan Cao, David J. Rademacher, Jessie E. Lau, Ananya Arora, Leila Y. Zou, Yuxiao Sun, Luke Szweda, Hesham Sadek, Sharon Elliot, Benjamin Roos, Marilyn K. Glassberg, Hong-Long Ji, Xiang Gao, Qunfeng Dong, Qun Sophia Zang

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Figure 3

PDK4 impact on mitochondrial structure and morphology in cardiomyocytes.

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PDK4 impact on mitochondrial structure and morphology in cardiomyocytes....
WT, PDK4-Tg, and PDK4-KO mice were given LPS challenge (5 mg/kg) or sham treatment, and cardiomyocytes were isolated 18 hours after treatment. (A) Representative TEM images of cardiomyocytes. Red arrows depict damaged mitochondria. Blue arrows depict mitochondrial fragmentation. Yellow arrows depict large mitochondria. Images are representative of 3 independent isolations per group. Scale bar: 1 μm. (B) Individual mitochondrial area in mm2 (n = 67–130 mitochondria per group), (C) number of mitochondria per 50 μm2 (n = 13–34 images per group), (D) percentage of cristae occupancy relative to total mitochondria area (n = 67–130 mitochondria per group), and (E) percentage of mitochondria with disorganized cristae relative to the number of mitochondria per 50 mm2 (n = 11–15 images per group) were quantified using Image J software based on TEM images. Data in BE are from 3 independent isolations per group. Data are presented as mean ± SEM and were analyzed using 2-way ANOVA (*P < 0.05) or Student’s t test (#P < 0.05).