BACKGROUND AND PURPOSE: We previously reported that up-regulation of aldolase B, a key enzyme in fructose metabolism, was mainly responsible for vascular methylglyoxal (MG) overproduction under different pathological conditions. Here we investigated whether aldolase A, an enzyme of the glycolytic pathway, also caused MG overproduction in insulin-sensitive adipocytes. EXPERIMENTAL APPROACH: The relative contributions of different metabolic pathways or enzymes to MG generation were evaluated in cultured 3T3-L1 adipocytes. KEY RESULTS: Glucose (25 mM) had no effect on aldolase A gene expression, but insulin (100 nM) up-regulated aldolase A mRNA and protein levels in the absence or presence of 25 mM glucose in adipocytes. Treatment with insulin increased levels of basal or glucose (25 mM)-induced MG and glucose 6-phosphate. However, insulin, glucose (25 mM) or their combination had no effect on cellular levels of sorbitol and fructose, but down-regulated gene expression of aldolase B to a similar extent, when compared with the control group. Incubation of 3T3-L1 adipocytes with fructose, acetone, acetol, threonine or glycine (25 mM), with or without insulin did not alter cellular MG levels. The elevated MG levels induced by insulin, glucose (25 mM) or their combination in adipocytes was completely reduced by siRNA knock down of aldolase A or application of 2-deoxy-D-glucose (a non-specific inhibitor of glucose uptake and glycolysis), but not by knock down of aldolase B. CONCLUSION AND IMPLICATIONS: Insulin enhanced MG overproduction in insulin-sensitive adipocytes by up-regulating aldolase A, a mechanism that could be involved in the development of insulin resistance and obesity.
BACKGROUND AND PURPOSE: We previously reported that up-regulation of aldolase B, a key enzyme in fructose metabolism, was mainly responsible for vascular methylglyoxal (MG) overproduction under different pathological conditions. Here we investigated whether aldolase A, an enzyme of the glycolytic pathway, also caused MG overproduction in insulin-sensitive adipocytes. EXPERIMENTAL APPROACH: The relative contributions of different metabolic pathways or enzymes to MG generation were evaluated in cultured 3T3-L1 adipocytes. KEY RESULTS:Glucose (25 mM) had no effect on aldolase A gene expression, but insulin (100 nM) up-regulated aldolase A mRNA and protein levels in the absence or presence of 25 mM glucose in adipocytes. Treatment with insulin increased levels of basal or glucose (25 mM)-induced MG and glucose 6-phosphate. However, insulin, glucose (25 mM) or their combination had no effect on cellular levels of sorbitol and fructose, but down-regulated gene expression of aldolase B to a similar extent, when compared with the control group. Incubation of 3T3-L1 adipocytes with fructose, acetone, acetol, threonine or glycine (25 mM), with or without insulin did not alter cellular MG levels. The elevated MG levels induced by insulin, glucose (25 mM) or their combination in adipocytes was completely reduced by siRNA knock down of aldolase A or application of 2-deoxy-D-glucose (a non-specific inhibitor of glucose uptake and glycolysis), but not by knock down of aldolase B. CONCLUSION AND IMPLICATIONS: Insulin enhanced MG overproduction in insulin-sensitive adipocytes by up-regulating aldolase A, a mechanism that could be involved in the development of insulin resistance and obesity.
Authors: L Pénicaud; P Ferré; J Terretaz; M F Kinebanyan; A Leturque; E Doré; J Girard; B Jeanrenaud; L Picon Journal: Diabetes Date: 1987-05 Impact factor: 9.461
Authors: Kevin Pethe; Patricia C Sequeira; Sanjay Agarwalla; Kyu Rhee; Kelli Kuhen; Wai Yee Phong; Viral Patel; David Beer; John R Walker; Jeyaraj Duraiswamy; Jan Jiricek; Thomas H Keller; Arnab Chatterjee; Mai Ping Tan; Manjunatha Ujjini; Srinivasa P S Rao; Luis Camacho; Pablo Bifani; Puiying A Mak; Ida Ma; S Whitney Barnes; Zhong Chen; David Plouffe; Pamela Thayalan; Seow Hwee Ng; Melvin Au; Boon Heng Lee; Bee Huat Tan; Sindhu Ravindran; Mahesh Nanjundappa; Xiuhua Lin; Anne Goh; Suresh B Lakshminarayana; Carolyn Shoen; Michael Cynamon; Barry Kreiswirth; Veronique Dartois; Eric C Peters; Richard Glynne; Sydney Brenner; Thomas Dick Journal: Nat Commun Date: 2010-08-24 Impact factor: 14.919