Literature DB >> 24819326

Acyl-CoA metabolism and partitioning.

Trisha J Grevengoed1, Eric L Klett, Rosalind A Coleman.   

Abstract

Long-chain fatty acyl-coenzyme As (CoAs) are critical regulatory molecules and metabolic intermediates. The initial step in their synthesis is the activation of fatty acids by one of 13 long-chain acyl-CoA synthetase isoforms. These isoforms are regulated independently and have different tissue expression patterns and subcellular locations. Their acyl-CoA products regulate metabolic enzymes and signaling pathways, become oxidized to provide cellular energy, and are incorporated into acylated proteins and complex lipids such as triacylglycerol, phospholipids, and cholesterol esters. Their differing metabolic fates are determined by a network of proteins that channel the acyl-CoAs toward or away from specific metabolic pathways and serve as the basis for partitioning. This review evaluates the evidence for acyl-CoA partitioning by reviewing experimental data on proteins that are believed to contribute to acyl-CoA channeling, the metabolic consequences of loss of these proteins, and the potential role of maladaptive acyl-CoA partitioning in the pathogenesis of metabolic disease and carcinogenesis.

Entities:  

Keywords:  acyl-CoA binding protein; acyl-CoA synthetase; bubblegum; cancer; fatty acid binding protein; fatty acid transport protein; metabolic syndrome; triacylglycerol; β-oxidation

Mesh:

Substances:

Year:  2014        PMID: 24819326      PMCID: PMC5881898          DOI: 10.1146/annurev-nutr-071813-105541

Source DB:  PubMed          Journal:  Annu Rev Nutr        ISSN: 0199-9885            Impact factor:   11.848


  207 in total

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Journal:  J Cell Sci       Date:  2010-07-06       Impact factor: 5.285

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Review 3.  Physiological properties and functions of intracellular fatty acid-binding proteins.

Authors:  N R Coe; D A Bernlohr
Journal:  Biochim Biophys Acta       Date:  1998-04-22

Review 4.  The mitochondrial carnitine palmitoyltransferase system. From concept to molecular analysis.

Authors:  J D McGarry; N F Brown
Journal:  Eur J Biochem       Date:  1997-02-15

5.  Inhibition of acyl-CoA synthetase by triacsins.

Authors:  H Tomoda; K Igarashi; S Omura
Journal:  Biochim Biophys Acta       Date:  1987-10-17

6.  Overexpression of rat long chain acyl-coa synthetase 1 alters fatty acid metabolism in rat primary hepatocytes.

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8.  Adipocyte-specific inactivation of Acyl-CoA synthetase fatty acid transport protein 4 (Fatp4) in mice causes adipose hypertrophy and alterations in metabolism of complex lipids under high fat diet.

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Journal:  J Biol Chem       Date:  2011-07-31       Impact factor: 5.157

9.  Long-chain acyl-CoA esters as indicators of lipid metabolism and insulin sensitivity in rat and human muscle.

Authors:  B A Ellis; A Poynten; A J Lowy; S M Furler; D J Chisholm; E W Kraegen; G J Cooney
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Authors:  Jules A Nchoutmboube; Ekaterina G Viktorova; Alison J Scott; Lauren A Ford; Zhengtong Pei; Paul A Watkins; Robert K Ernst; George A Belov
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  125 in total

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Review 3.  Recent discoveries on absorption of dietary fat: Presence, synthesis, and metabolism of cytoplasmic lipid droplets within enterocytes.

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5.  Arachidonic acid as a target for treating hypertriglyceridemia reproduced by a causal network analysis and an intervention study.

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6.  Quantification of muscle triglyceride synthesis rate requires an adjustment for total triglyceride content.

Authors:  Rabia Asghar; Maria Chondronikola; Edgar L Dillon; William J Durham; Craig Porter; Zhanpin Wu; Maria Camacho-Hughes; Clark R Andersen; Heidi Spratt; Elena Volpi; Melinda Sheffield-Moore; Labros Sidossis; Robert R Wolfe; Nicola Abate; Demidmaa R Tuvdendorj
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7.  Defective fatty acid oxidation in mice with muscle-specific acyl-CoA synthetase 1 deficiency increases amino acid use and impairs muscle function.

Authors:  Liyang Zhao; Florencia Pascual; Lawrence Bacudio; Amanda L Suchanek; Pamela A Young; Lei O Li; Sarah A Martin; Joao-Paulo Camporez; Rachel J Perry; Gerald I Shulman; Eric L Klett; Rosalind A Coleman
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Review 9.  The Drosophila melanogaster as Genetic Model System to Dissect the Mechanisms of Disease that Lead to Neurodegeneration in Adrenoleukodystrophy.

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Review 10.  Lysophospholipid acyltransferases and leukotriene biosynthesis: intersection of the Lands cycle and the arachidonate PI cycle.

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