Acute glucosamine-induced insulin resistance in muscle in vivo is associated with impaired capillary recruitment

M. G. Wallis, M. E. Smith, C. M. Kolka, L. Zhang, S. M. Richards, S. Rattigan and M. G. Clark

View Related Documents

Journal Article
Local methacholine but not bradykinin potentiates insulin-mediated glucose uptake in muscle in vivo by augmenting capillary recruitment
H. Mahajan, S. M. Richards, S. Rattigan and M. G. Clark
Diabetologia, 2004, Volume 47, Number 12, Pages 2226-2234
- Download PDF (498.3 KB)
- View HTML
Journal Article
Acute blockade by endothelin-1 of haemodynamic insulin action in rats
R. M. Ross, C. M. Kolka, S. Rattigan and M. G. Clark
Diabetologia, 2007, Volume 50, Number 2, Pages 443-451
- Download PDF (328.1 KB)
- View HTML
Journal Article
Insulin-mediated capillary recruitment in skeletal muscle: Is this a mediator of insulin action on glucose metabolism?
Stephen Rattigan, Eugene J. Barrett and Michael G. Clark
Current Diabetes Reports, 2003, Volume 3, Number 3, Pages 195-200
- Download PDF (286.1 KB)
Journal Article
In vivo effects of glucosamine on insulin secretion and insulin sensitivity in the rat: Possible relevance to the maladaptive responses to chronic hyperglycaemia
A. Giaccari, L. Morviducci, D. Zorretta, P. Sbraccia and F. Leonetti, et al.
Diabetologia, 1995, Volume 38, Number 5, Pages 518-524
- Download PDF (887.2 KB)
- View HTML
Book Chapter
The Hexosamine Biosynthesis Pathway
Contribution to the Pathogenesis of Diabetic Nephropathy
I. George Fantus, Howard J. Goldberg, Catharine I. Whiteside and Delilah Topic
Contemporary Diabetes, 2006, The Diabetic Kidney, I, D, Pages 117-133
- Download PDF (299.5 KB)
Journal Article
Vascular and metabolic effects of methacholine in relation to insulin action in muscle
H. Mahajan, C. M. Kolka, J. M. B. Newman, S. Rattigan and S. M. Richards, et al.
Diabetologia, 2006, Volume 49, Number 4, Pages 713-723
- Download PDF (221.9 KB)
- View HTML
Book Chapter
The insulin receptor and metabolic signaling
T. Gustafson, S. Moodie and B. Lavan
Reviews of Physiology, Biochemistry and Pharmacology, 2006, Volume 137, Reviews of Physiology, Biochemistry and Pharmacology, Volume 137, Pages 71-190
- Download PDF (7.1 MB)
Journal Article
P38 mitogen-activated protein kinase mediates hexosamine-induced TGFβ1 mRNA expression in human mesangial cells
D. J. Burt, G. Gruden, S. M. Thomas, P. Tutt and C. Dell'Anna, et al.
Diabetologia, 2003, Volume 46, Number 4, Pages 531-537
- Download PDF (218.1 KB)
- View HTML
Journal Article
Introduction of hyperglycemia and dyslipidemia in the pathogenesis of diabetic vascular complications
Yizhen Xu, Zhiheng He and George L. King
Current Diabetes Reports, 2005, Volume 5, Number 2, Pages 91-97
- Download PDF (397.7 KB)
Journal Article
Hexosamines are unlikely to function as a nutrient-sensor in 3T3-L1 adipocytes
A comparison of UDP-hexosamine levels after increased glucose flux and glucosamine treatment
Remko R. Bosch, Marie-José J. M. Pouwels, Paul N. Span, André J. Olthaar and Cees J. Tack, et al.
Endocrine, 2004, Volume 23, Number 1, Pages 17-24
- Download PDF (206.9 KB)

Abstract

Aims/hypothesis

Glucose toxicity and glucosamine-induced insulin resistance have been attributed to products of glucosamine metabolism. In addition, endothelial cell nitric oxide synthase is inhibited by glucosamine. Since insulin has endothelial nitric-oxide-dependent vasodilatory effects in muscle, we hypothesise that glucosamine-induced insulin resistance in muscle in vivo is associated with impaired vascular responses including capillary recruitment.

Materials and methods

Glucosamine (6.48 mg kg^–1 min^–1 for 3 h) was infused with or without insulin (10 mU kg^–1 min^–1) into anaesthetised rats under euglycaemic conditions.

Results

Glucosamine infusion alone increased blood glucosamine (1.9±0.1 mmol/l) and glucose (5.4±0.2 to 7.7±0.3 mmol/l) (p<0.05) but not insulin. Glucosamine induced both hepatic and muscle insulin resistance as evident from measures of glucose appearance and disposal as well as hind-leg glucose uptake, which was inhibited by approx. 50% (p<0.05). Insulin-mediated increases in femoral arterial blood flow and capillary recruitment were completely blocked by glucosamine.

Conclusion/interpretation

Glucosamine mediates a major impairment of insulin action in muscle vasculature associated with the insulin resistance of muscle. Further studies will be required to assess whether the impaired capillary recruitment contributes to insulin resistance.

Keywords Capillary recruitment - Glucosamine - Insulin resistance - Muscle - Vascular effects

Fulltext Preview

Image of the first page of the fulltext document

Frequently asked questions General info on journals and books Send us your feedback Impressum Contact us

SpringerLink