Muscle insulin resistance in uremic humans: glucose transport, glucose transporters, and insulin receptors

Friedman, Jacqueline; Dohm, G. Lynis; Elton, Colin; Rovira, Adela; Chen, J. J.; Leggett-Frazier, Nancy; Atkinson, S.; Thomas, Francis T.; Long, Sheree D.; F., J.

doi:10.1152/ajpendo.1991.261.1.e87

Cited by 54 publications

(57 citation statements)

References 33 publications

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“…The speculation that decreased GLUT4 expression could contribute to this insulin resistance has been rejected by most studies (7)(8)(9)(10), except for some studies of the translocation of GLUT4 by insulin or contractions, in which impaired translocation in type 2 diabetic muscle was found (11)(12)(13). However, all of these studies were performed on homogenates of muscle consisting of a mixture of the more insulin-sensitive slowtwitch fibers and the more contraction-sensitive fast-twitch fibers.…”

Section: Discussionmentioning

confidence: 99%

“…Insulin and contractions induce translocation of GLUT4 from intracellular storage vesicles to the plasma membrane and to the transverse tubules (4 -6). Currently, most studies have failed to demonstrate reduced GLUT4 expression levels in skeletal muscle biopsy specimens from type 2 diabetic patients (7)(8)(9)(10). The insulin-stimulated translocation mechanism, however, has been found to be normal in one study (11) and impaired in others (12,13).…”

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confidence: 99%

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GLUT4 Is Reduced in Slow Muscle Fibers of Type 2 Diabetic Patients

et al. 2001

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To gain further insight into the mechanisms underlying muscle insulin resistance, the influence of obesity and type 2 diabetes on GLUT4 immunoreactivity in slow and fast skeletal muscle fibers was studied. Through a newly developed, very sensitive method using immunohistochemistry combined with morphometry, GLUT4 density was found to be significantly higher in slow compared with fast fibers in biopsy specimens from lean and obese subjects. In contrast, in type 2 diabetic subjects, GLUT4 density was significantly lower in slow compared with fast fibers. GLUT4 density in slow fibers from diabetic patients was reduced by 9% compared with the weightmatched obese subjects and by 18% compared with the lean control group. The slow-fiber fraction was reduced to 86% in the obese subjects and to 75% in the diabetic subjects compared with the control group. Estimated GLUT4 contribution from slow fibers was reduced to 77% in the obese subjects and to 61% in type 2 diabetic patients compared with the control subjects. We propose that a reduction in the fraction of slow-twitch fibers, combined with a reduction in GLUT4 expression in slow fibers, may reduce the insulin-sensitive GLUT4 pool in type 2 diabetes and thus contribute to skeletal muscle insulin resistance. Diabetes 50:1324 -1329, 2001

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

GLUT4 Is Reduced in Slow Muscle Fibers of Type 2 Diabetic Patients

et al. 2001

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“…In addition, unique metabolic abnormalities contribute to insulin resistance in CKD, including uremic toxins, metabolic acidosis, and vitamin D deficiency (10)(11)(12)(13)(14). The site of insulin resistance in CKD is localized to skeletal muscles (3) and a postreceptor defect has been recognized as the primary abnormality in CKD (15).…”

Section: Introductionmentioning

confidence: 99%

Chronic Kidney Disease, Insulin Resistance, and Incident Diabetes in Older Adults

Pham

Robinson‐Cohen

Biggs

et al. 2012

Clinical Journal of the American Society of Nephrology

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SummaryBackground and objectives Insulin resistance is a complication of advanced CKD. Insulin resistance is less well characterized in earlier stages of CKD. The response of the pancreatic b cell, effects on glucose tolerance, and risk of diabetes are not clear.Design, setting, participants, & measurements The Cardiovascular Health Study included 4680 adults without baseline diabetes. The Chronic Kidney Disease Epidemiology Collaboration creatinine equation was used to obtain the estimated GFR (eGFR). Insulin resistance was evaluated as fasting insulin concentration. The insulin sensitivity index, b cell function, and glucose tolerance were assessed by oral glucose tolerance testing. Incident diabetes was defined as fasting glucose $126 mg/dl, nonfasting glucose $200 mg/dl, or use of glucose-lowering medications.Results Mean age was 72.5 years (range, 65-98 years). Mean eGFR was 72.2 (SD 17.1) ml/min per 1.73 m 2 . After adjustment, each 10 ml/min per 1.73 m 2 lower eGFR was associated with a 2.2% higher fasting insulin concentration (95% confidence interval [CI], 1.4%, 2.9%; P,0.001) and a 1.1% lower insulin sensitivity index (95% CI, 0.03%, 2.2%; P=0.04). Surprisingly, eGFR was associated with an augmented b cell function index (P,0.001), lower 2-hour glucose concentration (P=0.002), and decreased risk of glucose intolerance (P=0.006). Over a median 12 years' follow-up, 437 participants (9.3%) developed diabetes. eGFR was not associated with the risk of incident diabetes.Conclusions Among older adults, lower eGFR was associated with insulin resistance. However, with lower eGFR, b cell function was appropriately augmented and risks of impaired glucose tolerance and incident diabetes were not increased.

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“…Another factor that might be involved in derangements of glucose metabolism in patients with CKD is abnormal peripheral glucose disposal due to modified skeletal muscle composition. Friedman et al discovered that the increase in insulin-stimulated glucose transport was significantly diminished in isolated muscle fibers of uremic patients supposedly by affecting postreceptor signaling pathways (15). A new mechanism of impaired insulin signaling in the muscle by inflammation-triggered overexpression of the signal regulatory protein a in the muscle of patients with CKD was recently reported (16).…”

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confidence: 99%