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Effects of glycaemia on glucose transport in isolated skeletal muscle from patients with NIDDM: in vitro reversal of muscular insulin resistance (1994)

Zierath, J. R. ; Galuska, D. ; Nolte, L. A. ; [et al.]

Springer

Diabetologia 37 (1994), S. 270-277

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ISSN: 1432-0428

Keywords: Key words Glucose transport, glucose kinetics, human skeletal muscle, insulin action, insulin resistance.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We investigated the influence of altered glucose levels on insulin-stimulated 3–0-methylglucose transport in isolated skeletal muscle obtained from NIDDM patients (n =13) and non-diabetic subjects (n =23). Whole body insulin sensitivity was 71 % lower in the NIDDM patients compared to the non-diabetic subjects (p〈0.05), whereas, insulin-mediated peripheral glucose utilization in the NIDDM patients under hyperglycaemic conditions was comparable to that of the non-diabetic subjects at euglycaemia. Following a 30-min in vitro exposure to 4 mmol/l glucose, insulin-stimulated 3–0-methylglucose transport (600 pmol/l insulin) was 40 % lower in isolated skeletal muscle strips from the NIDDM patients when compared to muscle strips from the non-diabetic subjects. The impaired capacity for insulin-stimulated 3–0-methylglucose transport in the NIDDM skeletal muscle was normalized following prolonged (2 h) exposure to 4 mmol/l, but not to 8 mmol/l glucose. Insulin-stimulated 3–0-methylglucose transport in the NIDDM skeletal muscle exposed to 8 mmol/l glucose was similar to that of the non-diabetic muscle exposed to 5 mmol/l glucose, but was decreased by 43 % (p〈0.01) when compared to non-diabetic muscle exposed to 8 mmol/l glucose. Despite the impaired insulin-stimulated 3–0-methylglucose transport capacity demonstrated by skeletal muscle from the NIDDM patients, skeletal muscle glycogen content was similar to that of the non-diabetic subjects. Kinetic studies revel a Km for 3–0-methylglucose transport of 9.7 and 8.8 mmol/l glucose for basal and insulin-stimulated conditions, respectively. In conclusion, the impaired capacity for insulin-stimulated glucose transport in skeletal muscle from patients with NIDDM appears to protect the cell from excessive glucose uptake under hyperglycaemic conditions. Furthermore, the in vitro normalization of the decreased insulin-stimulated glucose transport in NIDDM skeletal muscle following exposure to 4 mmol/l glucose suggests that glycaemia per se has a profound effect on the regulation of muscular glucose transport. [Diabetologia (1994) 37: 270–277]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398054

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Effects of glycaemia on glucose transport in isolated skeletal muscle from patients with NIDDM: in vitro reversal of muscular insulin resistance (1994)

Zierath, J. R. ; Galuska, D. ; Nolte, L. A. ; [et al.]

Springer

Diabetologia 37 (1994), S. 270-277

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Details

ISSN: 1432-0428

Keywords: Glucose transport ; glucose kinetics ; human skeletal muscle ; insulin action ; insulin resistance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We investigated the influence of altered glucose levels on insulin-stimulated 3-0-methylglucose transport in isolated skeletal muscle obtained from NIDDM patients (n=13) and non-diabetic subjects (n=23). Whole body insulin sensitivity was 71% lower in the NIDDM patients compared to the non-diabetic subjects (p 〈0.05), whereas, insulin-mediated peripheral glucose utilization in the NIDDM patients under hyperglycaemic conditions was comparable to that of the non-diabetic subjects at euglycaemia. Following a 30-min in vitro exposure to 4 mmol/l glucose, insulin-stimulated 3-0-methylglucose transport (600 pmol/l insulin) was 40% lower in isolated skeletal muscle strips from the NIDDM patients when compared to muscle strips from the non-diabetic subjects. The impaired capacity for insulin-stimulated 3-0-methylglucose transport in the NIDDM skeletal muscle was normalized following prolonged (2 h) exposure to 4 mmol/l, but not to 8 mmol/l glucose. Insulin-stimulated 3-0-methylglucose transport in the NIDDM skeletal muscle exposed to 8 mmol/l glucose was similar to that of the non-diabetic muscle exposed to 5 mmol/l glucose, but was decreased by 43% (p 〈0.01) when compared to non-diabetic muscle exposed to 8 mmol/l glucose. Despite the impaired insulin-stimulated 3-0-methylglucose transport capacity demonstrated by skeletal muscle from the NIDDM patients, skeletal muscle glycogen content was similar to that of the non-diabetic subjects. Kinetic studies revel a Km for 3-0-methylglucose transport of 9.7 and 8.8 mmol/l glucose for basal and insulin-stimulated conditions, respectively. In conclusion, the impaired capacity for insulinstimulated glucose transport in skeletal muscle from patients with NIDDM appears to protect the cell from excessive glucose uptake under hyperglycaemic conditions. Furthermore, the in vitro normalization of the decreased insulin-stimulated glucose transport in NIDDM skeletal muscle following exposure to 4 mmol/l glucose suggests that glycaemia per se has a profound effect on the regulation of muscular glucose transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00398054

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Effects of non-esterified fatty acids on insulin-stimulated glucose transport in isolated skeletal muscle from patients with type 2 (non-insulin-dependent) diabetes mellitus (1994)

Galuska, D. ; Nolte, L. ; Wahlström, E. ; [et al.]

Springer

Acta diabetologica 31 (1994), S. 169-172

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ISSN: 1432-5233

Keywords: Glucose transport ; Human skeletal muscle ; Non-esterified fatty acids ; Insulin action ; Insulin resistance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The influence of elevated levels of oleate on insulin-stimulated 3-0-methylglucose transport was assessed in vitro, in isolated skeletal muscle obtained from patients with type 2 (non-insulin-dependent) diabetes mellitus (n=7) and control subjects (n=8). An increase in oleate levels from 0.3 to 1.0 mmol/l induced a 3.7-fold increase in the rate of oleate oxidation (P〈0.001) in skeletal muscle from control subjects. However, the rate of insulinstimulated 3-0-methylglucose transport was not altered in isolated skeletal muscle from the control subjects or the type 2 diabetic patients following exposure to 1.0 mmol/l oleate. This observation indicates that elevation of nonesterified fatty acids to a high physiological level has no inhibitory effect on glucose transport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00570374

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