Abnormal fatty acid utilization by cultured cardiac cells from 7‐day‐old obese zucker rats

The energy balance and hepatic fatty acid-supported respiration were studied in rats fed a control or an energy-dense diet. In addition, state 3 and 4 respiratory rates as well as ketone body production with palmitoylcarnitine as substrate were determined in isolated mitochondria. Metabolizable energy intake and energy expenditure increased in rats fed an energy-dense diet, but the gain in body weight and lipid content remained unchanged. No variation occurred in the mitochondrial palmitoylcarnitine utilization rate and ketone body production, but a significant increase in the mitochondrial content of ketone bodies and the serum levels was found in rats fed an energy-dense diet. Furthermore, we have shown a significant increase in fatty acid-stimulated respiration in hepatocytes from rats fed an energy-dense diet. The enhanced hepatic fatty acid utilization as an energy substrate found in rats fed an energy-dense diet may contribute to reduce the availability of lipids for storage, thus counteracting the development of obesity.

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Hepatic fatty acid‐supported respiration in rats fed an energy‐dense diet

Liverini

Iossa

Mollica

et al. 1996

Cell Biochemistry & Function

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Cardiovascular abnormalities associated with human and rodent obesity

Paulson¹,

Tahiliani

1992

Life Sciences

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Abnormal fatty acid utilization by cultured cardiac cells from 7‐day‐old obese zucker rats

Cited by 2 publications

References 25 publications

Hepatic fatty acid‐supported respiration in rats fed an energy‐dense diet

Hepatic fatty acid‐supported respiration in rats fed an energy‐dense diet

Cardiovascular abnormalities associated with human and rodent obesity

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