期刊
AMERICAN JOURNAL OF PHYSIOLOGY-HEART AND CIRCULATORY PHYSIOLOGY
卷 312, 期 2, 页码 H239-H249出版社
AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpheart.00457.2016
关键词
sepsis; septic shock; PPAR alpha; cardiovascular failure
资金
- American Heart Association [12SDG12040342]
- Seattle Children's Research Institute Center for Developmental Therapeutics Inter-center Grant
- Vision Research Center Core [P30-EY-01730]
Children with sepsis and multisystem organ failure have downregulated leukocyte gene expression of peroxisome proliferator- activated receptor-alpha (PPAR alpha), a nuclear hormone receptor transcription factor that regulates inflammation and lipid metabolism. Mouse models of sepsis have likewise demonstrated that the absence of PPAR alpha is associated with decreased survival and organ injury, specifically of the heart. Using a clinically relevant mouse model of early sepsis, we found that heart function increases in wild-type (WT) mice over the first 24 h of sepsis, but that mice lacking PPAR alpha (Ppara(-/-)) cannot sustain the elevated heart function necessary to compensate for sepsis pathophysiology. Left ventricular shortening fraction, measured 24 h after initiation of sepsis by echocardiography, was higher in WT mice than in Ppara(-/-) mice. Ex vivo working heart studies demonstrated greater developed pressure, contractility, and aortic outflow in WT compared with Ppara(-/-) mice. Furthermore, cardiac fatty acid oxidation was increased in WT but not in Ppara(-/-) mice. Regulatory pathways controlling pyruvate incorporation into the citric acid cycle were inhibited by sepsis in both genotypes, but the regulatory state of enzymes controlling fatty acid oxidation appeared to be permissive in WT mice only. Mitochondrial ultrastructure was not altered in either genotype indicating that severe mitochondrial dysfunction is unlikely at this stage of sepsis. These data suggest that PPAR alpha expression supports the hyperdynamic cardiac response early in the course of sepsis and that increased fatty acid oxidation may prevent morbidity and mortality. NEW & NOTEWORTHY In contrast to previous studies in septic shock using experimental mouse models, we are the first to demonstrate that heart function increases early in sepsis with an associated augmentation of cardiac fatty acid oxidation. Absence of peroxisome proliferator-activated receptor-alpha (PPAR alpha) results in reduced cardiac performance and fatty acid oxidation in sepsis.
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