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Caloric restriction in leptin deficiency does not correct myocardial steatosis: failure to normalize PPARα/PGC1α and thermogenic glycerolipid/fatty acid cycling.

Authors :
Rame, J. Eduardo
Barouch, Lili A.
Sack, Michael N.
Lynn, Edward G.
Abu-Asab, Mones
Tsokos, Maria
Kern, Steven J.
Barb, Jennifer J.
Munson, Peter J.
Halushka, Marc K.
Miller, Karen L.
Fox-Talbot, Karen
Jianhua Zhang
Hare, Joshua M.
Solomon, Michael A.
Danner, Robert L.
Source :
Physiological Genomics; 2011, Vol. 43 Issue 12, p726-738, 13p
Publication Year :
2011

Abstract

Evidence supports an antilipotoxic role for leptin in preventing inappropriate peripheral tissue lipid deposition. Obese, leptin-deficient mice develop left ventricular (LV) hypertrophy and myocardial steatosis with increased apoptosis and decreased longevity. Here we investigated the cardiac effects of caloric restriction versus leptin repletion in obese leptin-deficient (ob/ob) mice. Methods: Echocardiography was performed on 7 mo old C57BL/6 wild-type mice (WT) and ob/ob mice fed ad libitum, leptin-repleted (LR-ob/ob), or calorie-restricted (CR-ob/ob) for 4 wk. Ventricular tissue was examined by electron microscopy (EM), triglyceride (TAG) content, oil red O staining, mitochondrial coupling assay, and microarray expression profiling. Results: LR and CR-ob/ob mice showed decreased body and heart weight, and LV wall thickness compared with ad libitum ob/ob mice. LV fractional shortening was decreased in ad libitum ob/ob mice, but restored to WT in LR and CR groups. However, myocardial lipid content by EM and TAG analysis revealed persistent cardiac steatosis in the CR-ob/ob group. Although CR restored mitochondrial coupling to WT levels, PPARα was suppressed and genes associated with oxidative stress and cell death were upregulated in CR-ob/ob animals. In contrast, LR eliminated cardiac steatosis, normalized mitochondrial coupling, and restored PGC1α and α expression, while inducing core genes involved in glycerolipid/free fatty acid (GL/FFA) cycling, a thermogenic pathway that can reduce intracellular lipids. Conclusions: Thus, CR in the absence of leptin fails to normalize cardiac steatosis. GL/FFA cycling may be, at least in part, leptin-dependent and a key pathway that protects the heart from lipid accumulation. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
10948341
Volume :
43
Issue :
12
Database :
Complementary Index
Journal :
Physiological Genomics
Publication Type :
Academic Journal
Accession number :
96250607
Full Text :
https://doi.org/10.1152/physiolgenomics.00088.2010