2004
DOI: 10.2337/diabetes.53.9.2366
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Impaired Cardiac Efficiency and Increased Fatty Acid Oxidation in Insulin-Resistant ob/ob Mouse Hearts

Abstract: Diabetes alters cardiac substrate metabolism. The cardiac phenotype in insulin-resistant states has not been comprehensively characterized. The goal of these studies was to determine whether the hearts of leptindeficient 8-week-old ob/ob mice were able to modulate cardiac substrate utilization in response to insulin or to changes in fatty acid delivery. Ob/ob mice were insulin resistant and glucose intolerant. Insulin signal transduction and insulin-stimulated glucose uptake were markedly impaired in ob/ob car… Show more

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Cited by 402 publications
(414 citation statements)
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“…Tibia length was similar between the lean and Lep/Lep mice, excluding potential contribution from developmental factor. Cardiac hypertrophy has been shown in Lep/Lep hearts from 8-and 12-week-old mice [40,41], in agreement with our observation of increased absolute heart weight, ratio of heart weight to tibia length and enlarged cross-sectional area of myocytes. Myocardial remodelling is a critical factor in the transition of the heart from a compensated to a decompensated state and may contribute to compromised cardiac function and the MHC isozyme switch [42].…”
Section: Discussionsupporting
confidence: 92%
“…Tibia length was similar between the lean and Lep/Lep mice, excluding potential contribution from developmental factor. Cardiac hypertrophy has been shown in Lep/Lep hearts from 8-and 12-week-old mice [40,41], in agreement with our observation of increased absolute heart weight, ratio of heart weight to tibia length and enlarged cross-sectional area of myocytes. Myocardial remodelling is a critical factor in the transition of the heart from a compensated to a decompensated state and may contribute to compromised cardiac function and the MHC isozyme switch [42].…”
Section: Discussionsupporting
confidence: 92%
“…2005; Carley and Severson 2005; Mazumder et al. 2004; Wang et al. 2005, 2015) and has been linked to the activation of PPAR α and its coactivator PGC1 α (Duncan et al.…”
Section: Discussionmentioning
confidence: 99%
“…Accumulating evidence indicates that type 2 diabetes is accompanied by mitochondrial dysfunction [26] that diminishes glucose oxidation and reduces mitochondrial oxygen efficiency [27]. Gb influences mitochondrial K ATP channels and interferes with mitochondrial bioenergetics in renal tubular cells [28,29].…”
Section: Discussionmentioning
confidence: 99%