Literature DB >> 874089

A possible role for malonyl-CoA in the regulation of hepatic fatty acid oxidation and ketogenesis.

J D McGarry, G P Mannaerts, D W Foster.   

Abstract

Studied on the oxidation of oleic and octanoic acids to ketone bodies were carried out in homogenates and in mitochondrial fractions of livers taken from fed and fasted rats. Malonyl-CoA inhibited ketogenesis from the former but not from the latter substrate. The site of inhibition appeared to be the carnitine acyltransferase I reaction. The effect was specific and easily reversible. Inhibitory concentrations were in the range of values obtained in livers from fed rats by others. It is proposed that malonyl-CoA functions as both precursor for fatty acid synthesis and suppressor of fatty acid oxidation. As such, it might be an important element in the carbohydrate-induced sparing of fatty acid oxidation.

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Year:  1977        PMID: 874089      PMCID: PMC372365          DOI: 10.1172/JCI108764

Source DB:  PubMed          Journal:  J Clin Invest        ISSN: 0021-9738            Impact factor:   14.808


  14 in total

1.  PALMITYL-COA:CARNITINE PALMITYLTRANSFERASE. PURIFICATION FROM CALF-LIVER MITOCHONDRIA AND SOME PROPERTIES OF THE ENZYME.

Authors:  K R NORUM
Journal:  Biochim Biophys Acta       Date:  1964-07-08

2.  Hormonal control of ketogenesis. Rapid activation of hepatic ketogenic capacity in fed rats by anti-insulin serum and glucagon.

Authors:  J McGarry; P H Wright; D W Foster
Journal:  J Clin Invest       Date:  1975-06       Impact factor: 14.808

3.  Comparison of properties of carnitine palmitoyltransferase I with those of carnitine palmitoyltransferase II, and preparation of antibodies to carnitine palmitoyltransferases.

Authors:  B Kopec; I B Fritz
Journal:  J Biol Chem       Date:  1973-06-10       Impact factor: 5.157

4.  The effects of starvation and refeeding on carbohydrate and lipid metabolism in vivo and in the perfused rat liver. The relationship between fatty acid oxidation and esterification in the regulation of ketogenesis.

Authors:  J D McGarry; J M Meier; D W Foster
Journal:  J Biol Chem       Date:  1973-01-10       Impact factor: 5.157

5.  The regulation of ketogenesis from oleic acid and the influence of antiketogenic agents.

Authors:  J D McGarry; D W Foster
Journal:  J Biol Chem       Date:  1971-10-25       Impact factor: 5.157

6.  Hormonal control of ketogenesis. Biochemical considerations.

Authors:  J D McGarry; D W Foster
Journal:  Arch Intern Med       Date:  1977-04

7.  Hepatic mitochondrial function in ketogenic states. Diabetes, starvation, and after growth hormone administration.

Authors:  J P DiMarco; C Hoppel
Journal:  J Clin Invest       Date:  1975-06       Impact factor: 14.808

8.  Maternal-fetal carnitine relationship and neonatal ketosis in the rat.

Authors:  C Robles-Valdes; J D McGarry; D W Foster
Journal:  J Biol Chem       Date:  1976-10-10       Impact factor: 5.157

9.  Hormonal control of [14C]glucose synthesis from [U-14C]dihydroxyacetone and glycerol in isolated rat hepatocytes.

Authors:  S J Pilkis; J P Riou; T H Claus
Journal:  J Biol Chem       Date:  1976-12-25       Impact factor: 5.157

10.  Carbohydrate sparing of fatty acid oxidation. I. The relation of fatty acid chain length to the degree of sparing. II. The mechanism by which carbohydrate spares the oxidation of palmitic acid.

Authors:  W J LOSSOW; I L CHAIKOFF
Journal:  Arch Biochem Biophys       Date:  1955-07       Impact factor: 4.013
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2.  Regulation of the expression of the mitochondrial 3-hydroxy-3-methylglutaryl-CoA synthase gene. Its role in the control of ketogenesis.

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3.  Induced polymerization of mammalian acetyl-CoA carboxylase by MIG12 provides a tertiary level of regulation of fatty acid synthesis.

Authors:  Chai-Wan Kim; Young-Ah Moon; Sahng Wook Park; Dong Cheng; Hyock Joo Kwon; Jay D Horton
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4.  Mitochondrial Pyruvate Import Promotes Long-Term Survival of Antibody-Secreting Plasma Cells.

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Journal:  Immunity       Date:  2016-07-05       Impact factor: 31.745

5.  GLUT1 deficiency in cardiomyocytes does not accelerate the transition from compensated hypertrophy to heart failure.

Authors:  Renata O Pereira; Adam R Wende; Curtis Olsen; Jamie Soto; Tenley Rawlings; Yi Zhu; Christian Riehle; E Dale Abel
Journal:  J Mol Cell Cardiol       Date:  2014-02-25       Impact factor: 5.000

6.  Rats selectively bred for low aerobic capacity have reduced hepatic mitochondrial oxidative capacity and susceptibility to hepatic steatosis and injury.

Authors:  John P Thyfault; R Scott Rector; Grace M Uptergrove; Sarah J Borengasser; E Matthew Morris; Yongzhong Wei; Matt J Laye; Charles F Burant; Nathan R Qi; Suzanne E Ridenhour; Lauren G Koch; Steve L Britton; Jamal A Ibdah
Journal:  J Physiol       Date:  2009-02-23       Impact factor: 5.182

7.  Interacting effects of L-carnitine and malonyl-CoA on rat liver carnitine palmitoyltransferase.

Authors:  M I Bird; E D Saggerson
Journal:  Biochem J       Date:  1985-08-15       Impact factor: 3.857

8.  The brain-specific carnitine palmitoyltransferase-1c regulates energy homeostasis.

Authors:  Michael J Wolfgang; Takeshi Kurama; Yun Dai; Akira Suwa; Makoto Asaumi; Shun-Ichiro Matsumoto; Seung Hun Cha; Teruhiko Shimokawa; M Daniel Lane
Journal:  Proc Natl Acad Sci U S A       Date:  2006-05-01       Impact factor: 11.205

9.  The effect of glucagon treatment and starvation of virgin and lactating rats on the rates of oxidation of octanoyl-L-carnitine and octanoate by isolated liver mitochondria.

Authors:  V A Zammit
Journal:  Biochem J       Date:  1980-08-15       Impact factor: 3.857

Review 10.  Insulin resistance protects the heart from fuel overload in dysregulated metabolic states.

Authors:  Heinrich Taegtmeyer; Christophe Beauloye; Romain Harmancey; Louis Hue
Journal:  Am J Physiol Heart Circ Physiol       Date:  2013-10-04       Impact factor: 4.733
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