Literature DB >> 11062060

Diabetes-induced changes in specific lipid molecular species in rat myocardium.

X Han1, D R Abendschein, J G Kelley, R W Gross.   

Abstract

Intrinsic cardiac dysfunction during the diabetic state has been causally linked to changes in myocardial lipid metabolism. However, the precise alterations in the molecular species of myocardial polar and non-polar lipids during the diabetic state and their responses to insulin have not been investigated. Herein we demonstrate four specific alterations in rat myocardial lipid molecular species after induction of the diabetic state by streptozotocin treatment: (i) a massive remodelling of triacylglycerol molecular species including a >5-fold increase in tripalmitin mass and a 60% decrease in polyunsaturated triacylglycerol molecular species mass (i.e. triacylglycerols containing at least one acyl residue with more than two double bonds); (ii) a 46% increase in myocardial phosphatidylinositol mass; (iii) a 44% increase in myocardial plasmenylethanolamine mass and (iv) a 22% decrease in 1-stearoyl-2-arachidonoyl phosphatidylethanolamine content. Each of the changes in phospholipid classes, subclasses and individual molecular species were prevented by insulin treatment after induction of the diabetic state. In sharp contrast, the alterations in triacylglycerol molecular species were not preventable by peripheral insulin treatment after induction of the diabetic state. These results segregate diabetes-induced alterations in myocardial lipid metabolism into changes that can be remedied or not by routine peripheral insulin treatment and suggest that peripheral insulin therapy alone may not be sufficient to correct all of the metabolic alterations present in diabetic myocardium.

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Year:  2000        PMID: 11062060      PMCID: PMC1221434     

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  46 in total

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5.  Construction and characterization of a conditionally active version of the serine/threonine kinase Akt.

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6.  Protein kinase C modulates the insulin-stimulated increase in Akt1 and Akt3 activity in 3T3-L1 adipocytes.

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Review 9.  New insights into the role and mechanism of glycogen synthase activation by insulin.

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  34 in total

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7.  Abundance of triacylglycerols in ganglia and their depletion in diabetic mice: implications for the role of altered triacylglycerols in diabetic neuropathy.

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8.  Lipidomic profiling in mouse brain reveals differences between ages and genders, with smaller changes associated with alpha-synuclein genotype.

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9.  Alterations in myocardial cardiolipin content and composition occur at the very earliest stages of diabetes: a shotgun lipidomics study.

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10.  Genetic ablation of calcium-independent phospholipase A2gamma leads to alterations in mitochondrial lipid metabolism and function resulting in a deficient mitochondrial bioenergetic phenotype.

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