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Renal glucose production and utilization: new aspects in humans (1997)

Stumvoll, M. ; Meyer, C. ; Mitrakou, A. ; [et al.]

Springer

Diabetologia 40 (1997), S. 749-757

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ISSN: 1432-0428

Keywords: Keywords Endogenous glucose production ; gluconeogenesis ; glycogenolysis ; liver ; diabetes mellitus.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary According to current textbook wisdom the liver is the exclusive site of glucose production in humans in the postabsorptive state. Although many animal and in vitro data have documented that the kidney is capable of gluconeogenesis, production of glucose by the human kidney in the postabsorptive state has generally been regarded as negligible. This traditional view is based on net balance measurements which, other than after a prolonged fast or during metabolic acidosis, showed no significant net renal glucose release. However, recent studies have refuted this view by combining isotopic and balance techniques, which have demonstrated that renal glucose production accounts for 25 % of systemic glucose production. Moreover, these studies indicate that glucose production by the human kidney is stimulated by epinephrine, inhibited by insulin and is excessive in diabetes mellitus. Since renal glucose release is largely, if not exclusively, due to gluconeogenesis, it is likely that the kidney is as important a gluconeogenic organ as the liver. The most important renal gluconeogenic precursors appear to be lactate, glutamine and glycerol. The implications of these recent findings on the understanding of the physiology and pathophysiology of human glucose metabolism are discussed. [Diabetologia (1997) 40: 749–757].

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250050745

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Lipolysis in skeletal muscle is rapidly regulated by low physiological doses of insulin (1999)

Jacob, S. ; Hauer, B. ; Becker, R. ; [et al.]

Springer

Diabetologia 42 (1999), S. 1171-1174

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ISSN: 1432-0428

Keywords: Keywords Skeletal muscle ; adipose tissue ; intramyocellular lipids ; lipolysis ; insulin resistance.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Aims/hypothesis. Both patients with Type II (non-insulin-dependent) diabetes mellitus and normoglycaemic, insulin resistant subjects were shown to have an increased lipid content in skeletal muscle, which correlates negatively with insulin sensitivity. Recently, it was shown that during a hyperinsulinaemic euglycaemic clamp interstitial glycerol was reduced not only in adipose tissue but also in skeletal muscle. To assess whether lipolysis of muscular lipids is also regulated by low physiological concentrations of insulin, we used the microdialysis technique in combination with a 3-step hyperinsulinaemic glucose clamp. Methods. Nineteen lean, healthy subjects (12 m/7 f) underwent a glucose clamp with various doses of insulin (GC I = 0.1, GC II = 0.25 and GC III = 1.0mU · kg–1· min–1). Two double lumen microdialysis catheters each were inserted in the paraumbilical subcutaneous adipose tissue and in skeletal muscle (tibialis anterior) to measure interstitial glycerol concentration (index of lipolysis) and ethanol outflow (index of tissue flow). Results. During the different steps of the glucose clamp, glycerol in adipose tissue was reduced to 81 ± 7 % (GC I), 55 ± 8 % (GC II) and 25 ± 5 % (GC III), respectively, of basal. In contrast, glycerol in skeletal muscle declined to 73 ± 5 % (GC I) and to 57 ± 6 % (GC II) but was not further reduced at GC III. Tissue flow was higher in the skeletal muscle and remained unchanged in both compartments throughout the experiment. Conclusion/interpretation. This study confirms the presence of glycerol release in skeletal muscle. Lipolysis in skeletal muscle and adipose tissue are suppressed similarly by minute and physiological increases in insulin but differently by supraphysiological increases. Inadequate suppression of intramuscular lipolysis resulting in increased availability of non-esterified fatty acids, could represent a potential mechanism involved in the pathogenesis of impaired glucose disposal, i. e. insulin resistance, in muscle. [Diabetologia (1999) 42: 1171–1174]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001250051288

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