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3. Insulin receptor substrate 3 (IRS-3) and IRS-4 impair IRS-1- and IRS-2-mediated signaling.

Author

Tsuruzoe K, Emkey R, Kriauciunas KM, Ueki K, and Kahn CR

Subjects
3T3 Cells, Adaptor Proteins, Signal Transducing, Animals, DNA biosynthesis, Gene Deletion, Genes, Immediate-Early genetics, Humans, Insulin Receptor Substrate Proteins, Intracellular Signaling Peptides and Proteins, MAP Kinase Signaling System, Mice, Mice, Knockout, Phosphatidylinositol 3-Kinases metabolism, Phosphoproteins genetics, Phosphorylation, Phosphotyrosine metabolism, Protein Binding, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, RNA, Messenger analysis, RNA, Messenger genetics, Retroviridae genetics, Transcriptional Activation, Insulin-Like Growth Factor I metabolism, Phosphoproteins metabolism, Protein Serine-Threonine Kinases, Signal Transduction
Abstract

To investigate the roles of insulin receptor substrate 3 (IRS-3) and IRS-4 in the insulin-like growth factor 1 (IGF-1) signaling cascade, we introduced these proteins into 3T3 embryonic fibroblast cell lines prepared from wild-type (WT) and IRS-1 knockout (KO) mice by using a retroviral system. Following transduction of IRS-3 or IRS-4, the cells showed a significant decrease in IRS-2 mRNA and protein levels without any change in the IRS-1 protein level. In these cell lines, IGF-1 caused the rapid tyrosine phosphorylation of all four IRS proteins. However, IRS-3- or IRS-4-expressing cells also showed a marked decrease in IRS-1 and IRS-2 phosphorylation compared to the host cells. This decrease was accounted for in part by a decrease in the level of IRS-2 protein but occurred with no significant change in the IRS-1 protein level. IRS-3- or IRS-4-overexpressing cells showed an increase in basal phosphatidylinositol 3-kinase activity and basal Akt phosphorylation, while the IGF-1-stimulated levels correlated well with total tyrosine phosphorylation level of all IRS proteins in each cell line. IRS-3 expression in WT cells also caused an increase in IGF-1-induced mitogen-activated protein kinase phosphorylation and egr-1 expression ( approximately 1.8- and approximately 2.4-fold with respect to WT). In the IRS-1 KO cells, the impaired mitogenic response to IGF-1 was reconstituted with IRS-1 to supranormal levels and was returned to almost normal by IRS-2 or IRS-3 but was not improved by overexpression of IRS-4. These data suggest that IRS-3 and IRS-4 may act as negative regulators of the IGF-1 signaling pathway by suppressing the function of other IRS proteins at several steps.

Published
2001
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4. Essential role of insulin receptor substrate 1 in differentiation of brown adipocytes.

Author

Fasshauer M, Klein J, Kriauciunas KM, Ueki K, Benito M, and Kahn CR

Subjects
Adipocytes enzymology, Adipocytes metabolism, Adipose Tissue, Brown enzymology, Adipose Tissue, Brown metabolism, Animals, CCAAT-Enhancer-Binding Protein-alpha metabolism, Cells, Cultured, Enzyme Activation, Insulin Receptor Substrate Proteins, Intracellular Signaling Peptides and Proteins, Mice, Mice, Knockout, Mitogen-Activated Protein Kinases metabolism, Phosphatidylinositol 3-Kinases metabolism, Phosphoproteins deficiency, Phosphoproteins genetics, Phosphorylation, Phosphotyrosine metabolism, Protein Binding, Protein Subunits, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Receptor, Insulin metabolism, Receptors, Cytoplasmic and Nuclear metabolism, Signal Transduction, Stem Cells cytology, Stem Cells enzymology, Stem Cells metabolism, Transcription Factors metabolism, Transfection, Adipocytes cytology, Adipose Tissue, Brown cytology, Cell Differentiation, Phosphoproteins metabolism, Protein Serine-Threonine Kinases
Abstract

The most widely distributed members of the family of insulin receptor substrate (IRS) proteins are IRS-1 and IRS-2. These proteins participate in insulin and insulin-like growth factor 1 signaling, as well as the actions of some cytokines, growth hormone, and prolactin. To more precisely define the specific role of IRS-1 in adipocyte biology, we established brown adipocyte cell lines from wild-type and IRS-1 knockout (KO) animals. Using differentiation protocols, both with and without insulin, preadipocyte cell lines derived from IRS-1 KO mice exhibited a marked decrease in differentiation and lipid accumulation (10 to 40%) compared to wild-type cells (90 to 100%). Furthermore, IRS-1 KO cells showed decreased expression of adipogenic marker proteins, such as peroxisome proliferator-activated receptor gamma (PPARgamma), CCAAT/enhancer-binding protein alpha (C/EBPalpha), fatty acid synthase, uncoupling protein-1, and glucose transporter 4. The differentiation deficit in the KO cells could be reversed almost completely by retrovirus-mediated reexpression of IRS-1, PPARgamma, or C/EBPalpha but not the thiazolidinedione troglitazone. Phosphatidylinositol 3-kinase (PI 3-kinase) assays performed at various stages of the differentiation process revealed a strong and transient activation in IRS-1, IRS-2, and phosphotyrosine-associated PI 3-kinase in the wild-type cells, whereas the IRS-1 KO cells showed impaired phosphotyrosine-associated PI 3-kinase activation, all of which was associated with IRS-2. Akt phosphorylation was reduced in parallel with the total PI 3-kinase activity. Inhibition of PI 3-kinase with LY294002 blocked differentiation of wild-type cells. Thus, IRS-1 appears to be an important mediator of brown adipocyte maturation. Furthermore, this signaling molecule appears to exert its unique role in the differentiation process via activation of PI 3-kinase and its downstream target, Akt, and is upstream of the effects of PPARgamma and C/EBPalpha.

Published
2001
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5. Cellular compartmentalization in insulin action: altered signaling by a lipid-modified IRS-1.

Author

Kriauciunas KM, Myers MG Jr, and Kahn CR

Subjects
Cell Compartmentation, Cell Division drug effects, Cell Line, Cell Membrane metabolism, Enzyme Activation, Gene Expression, Insulin pharmacology, Insulin Receptor Substrate Proteins, Mitogen-Activated Protein Kinases metabolism, Phosphatidylinositol 3-Kinases metabolism, Phosphoproteins genetics, Phosphorylation, Phosphoserine metabolism, Phosphothreonine metabolism, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Proto-Oncogene Proteins p21(ras) genetics, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Ribosomal Protein S6 Kinases metabolism, Subcellular Fractions, Tyrosine metabolism, Insulin metabolism, Lipid Metabolism, Phosphoproteins metabolism, Protein Serine-Threonine Kinases, Proto-Oncogene Proteins p21(ras) metabolism, Signal Transduction
Abstract

While most receptor tyrosine kinases signal by recruiting SH2 proteins directly to phosphorylation sites on their plasma membrane receptor, the insulin receptor phosphorylates intermediary IRS proteins that are distributed between the cytoplasm and a state of loose association with intracellular membranes. To determine the importance of this distribution to IRS-1-mediated signaling, we constructed a prenylated, constitutively membrane-bound IRS-1 by adding the COOH-terminal 9 amino acids from p21(ras), including the CAAX motif, to IRS-1 (IRS-CAAX) and analyzed its function in 32D cells expressing the insulin receptor. IRS-CAAX migrated more slowly on sodium dodecyl sulfate-polyacrylamide gel electrophoresis than did IRS-1 and demonstrated increased levels of serine/threonine phosphorylation. Insulin-stimulated tyrosyl phosphorylation of IRS-CAAX was slightly decreased, while IRS-CAAX-mediated phosphatidylinositol 3'-kinase (PI3'-kinase) binding and activation were decreased by approximately 75% compared to those for wild-type IRS-1. Similarly, expression of IRS-CAAX desensitized insulin-stimulated [(3)H]thymidine incorporation into DNA by about an order of magnitude compared to IRS-1. By contrast, IRS-CAAX-expressing cells demonstrated increased signaling by mitogen-activated protein kinase, Akt, and p70(S6) kinase in response to insulin. Hence, tight association with the membrane increased IRS-1 serine phosphorylation and reduced coupling between the insulin receptor, PI3'-kinase, and proliferative signaling while enhancing other signaling pathways. Thus, the correct distribution of IRS-1 between the cytoplasm and membrane compartments is critical to the normal balance in the network of insulin signaling.

Published
2000
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6. Essential role of insulin receptor substrate-2 in insulin stimulation of Glut4 translocation and glucose uptake in brown adipocytes.

Author

Fasshauer M, Klein J, Ueki K, Kriauciunas KM, Benito M, White MF, and Kahn CR

Subjects
Animals, Azo Compounds pharmacology, Biological Transport, Cell Differentiation, Cell Membrane metabolism, Cells, Cultured, Coloring Agents pharmacology, Dose-Response Relationship, Drug, Glucose Transporter Type 4, Immunoblotting, Insulin Receptor Substrate Proteins, Intracellular Signaling Peptides and Proteins, Mice, Mice, Knockout, Phosphatidylinositol 3-Kinases metabolism, Phosphoproteins metabolism, Phosphorylation, Plant Proteins metabolism, Plasmids metabolism, Potassium Channels metabolism, Precipitin Tests, Proto-Oncogene Proteins metabolism, Proto-Oncogene Proteins c-akt, Retroviridae genetics, Signal Transduction, Subcellular Fractions chemistry, Time Factors, Adipocytes metabolism, Adipose Tissue, Brown metabolism, Arabidopsis Proteins, Glucose metabolism, Insulin metabolism, Monosaccharide Transport Proteins metabolism, Muscle Proteins, Phosphoproteins physiology, Protein Serine-Threonine Kinases
Abstract

Insulin and insulin-like growth factor I signals are mediated via phosphorylation of a family of insulin receptor substrate (IRS) proteins, which may serve both complementary and overlapping functions in the cell. To study the metabolic effects of these proteins in more detail, we established brown adipocyte cell lines from wild type and various IRS knockout (KO) animals and characterized insulin action in these cells in vitro. Preadipocytes derived from both wild type and IRS-2 KO mice could be fully differentiated into mature brown adipocytes. In differentiated IRS-2 KO adipocytes, insulin-induced glucose uptake was decreased by 50% compared with their wild type counterparts. This was the result of a decrease in insulin-stimulated Glut4 translocation to the plasma membrane. This decrease in insulin-induced glucose uptake could be partially reconstituted in these cells by retrovirus-mediated re-expression of IRS-2, but not overexpression of IRS-1. Insulin signaling studies revealed a total loss of IRS-2-associated phosphatidylinositol (PI) 3-kinase activity and a reduction in phosphotyrosine-associated PI 3-kinase by 30% (p < 0.05) in the KO cells. The phosphorylation and activity of Akt, a major downstream effector of PI 3-kinase, as well as Akt-dependent phosphorylation of glycogen synthase kinase-3 and p70S6 kinase were not affected by the lack of IRS-2; however, there was a decrease in insulin stimulation of Akt associated with the plasma membrane. These results provide evidence for a critical role of IRS-2 as a mediator of insulin-stimulated Glut4 translocation and glucose uptake in adipocytes. This occurs without effects in differentiation, total activation of Akt and its downstream effectors, but may be caused by alterations in compartmentalization of these downstream signals.

Published
2000
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7. Vanadate normalizes hyperglycemia and phosphoenolpyruvate carboxykinase mRNA levels in ob/ob mice.

Author

Ferber S, Meyerovitch J, Kriauciunas KM, and Kahn CR

Subjects
Administration, Oral, Animals, Blotting, Northern, Glucose Transporter Type 2, Glyceraldehyde-3-Phosphate Dehydrogenases metabolism, Liver drug effects, Liver enzymology, Male, Mice, Mice, Obese, Monosaccharide Transport Proteins metabolism, Proto-Oncogene Proteins c-myc metabolism, Rats, Starvation, Tumor Cells, Cultured, Vanadates administration & dosage, Blood Glucose metabolism, Liver metabolism, Phosphoenolpyruvate Carboxykinase (GTP) metabolism, RNA, Messenger biosynthesis, Vanadates pharmacology
Abstract

Oral vanadate administration has been demonstrated to normalize blood glucose levels in ob/ob and db/db mice and streptozotocin (STZ) diabetic rats. The exact mechanism of this vanadate effect is uncertain, since there are no consistent effects on the insulin receptor tyrosine kinase activity or phosphotyrosine phosphatase activity. We have therefore studied the postreceptor actions of vanadate, focusing our attention on the steady-state levels of mRNA of enzymes involved in carbohydrate metabolism. When compared with their lean (ob/+) controls, the livers of ob/ob mice exhibited an approximately 90% reduction in the levels of phosphoenolpyruvate carboxykinase (PEPCK) mRNA and twofold to fivefold higher levels of the mRNAs for glyceraldehyde-3-phosphate dehydrogenase (GAPDH), the "liver beta-cell" glucose transporter (GLUT2), and the proto-oncogene c-myc. Administration of sodium vanadate (0.25 mg/mL) in the drinking water of ob/ob mice over a 45-day period resulted in a near normalization of blood glucose and increased PEPCK mRNA levels more than ninefold. Starvation of the ob/ob mice for 24 to 48 hours also increased PEPCK mRNA levels by fourfold to 15-fold. Vanadate treatment did not alter mRNA levels of any other proteins studied and had no effect on PEPCK mRNA in ob/+ mice. However, 1 to 100 mumol/L vanadate produced a concentration-dependent increase in PEPCK mRNA levels in an H35 hepatoma cell line, an effect opposite to the suppression of PEPCK mRNA produced by insulin. In summary, hyperglycemia in the ob/ob mouse is characterized by decreased expression of PEPCK and increased expression of GAPDH mRNA.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1994
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8. Modulation of expression of insulin and IGF-I receptor by Epstein-Barr virus and its gene products LMP and EBNA-2 in lymphocyte cell lines.

Author

Kriauciunas KM, Goldstein BJ, Lipes MA, and Kahn CR

Subjects
Antigens, Viral genetics, Blotting, Northern, Burkitt Lymphoma, Cell Line, Transformed, Cell Membrane metabolism, Epstein-Barr Virus Nuclear Antigens, Genes, Viral, Herpesvirus 4, Human genetics, Humans, Insulin metabolism, Insulin-Like Growth Factor I metabolism, Mutation, Receptor, IGF Type 1 biosynthesis, Receptor, Insulin biosynthesis, Transfection, Tumor Cells, Cultured, Viral Envelope Proteins genetics, Viral Envelope Proteins physiology, Viral Matrix Proteins genetics, Antigens, Viral physiology, DNA-Binding Proteins physiology, Herpesvirus 4, Human physiology, Lymphocytes metabolism, Receptor, IGF Type 1 genetics, Receptor, Insulin genetics, Viral Matrix Proteins physiology
Abstract

The receptors for insulin and insulin-like growth factor I (IGF-I) are two closely related integral membrane glycoproteins involved in signalling of cell growth and metabolism. We have used the unique paradigm of pairs of Burkitt lymphoma cell lines (BLO2, BL30, BL41) with or without Epstein-Barr Virus (EBV) infection and cells transfected with EBV-related genes to examine effects of EBV on expression of these receptors at the gene and protein functional level. In BL30 and BL41 cells, EBV infection increased surface insulin binding and total receptor number by 2- and 18-fold, respectively. By contrast, EBV infection decreased total IGF-I receptors by 29 to 87% in all three cell lines. In general, there was a correlation between total receptor concentration and the level of insulin or IGF-I receptor mRNAs, although in one cell line insulin binding increased while receptor mRNA levels decreased slightly, suggesting posttranslational effects. BL41 cells transfected with a vector expressing the EBV latent membrane protein (LMP) exhibited a 2.6- to 3.2-fold increase in insulin receptor expression, whereas cells transfected with EBNA-2 (one of the EBV nuclear antigens) alone exhibited no effect. However, EBNA-2 appears to be required for the EBV effect on insulin receptor expression since cells infected with a mutant virus, P3JHRI, which lacks the EBNA-2 gene failed to show an increase in insulin receptor number. These data indicate that EBV infection of lymphocytes increases expression of insulin receptors while simultaneously decreasing expression of IGF-I receptors. The magnitude and sometimes even the direction of change, depends on host cell factors. A maximal increase in insulin receptors appears to require the coordinate action of several of the EBV proteins including LMP and EBNA-2.

Published
1993
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9. Altered expression and function of the insulin receptor in a family with lipoatrophic diabetes.

Author

Kriauciunas KM, Kahn CR, Muller-Wieland D, Reddy SS, and Taub R

Subjects
DNA Restriction Enzymes, Deoxyribonuclease BamHI, Diabetes Mellitus, Lipoatrophic metabolism, Female, Genetic Variation, Humans, Insulin Resistance, Male, Phosphorylation, Polymorphism, Restriction Fragment Length, RNA, Messenger metabolism, Receptor, Insulin metabolism, Diabetes Mellitus, Lipoatrophic genetics, Gene Expression Regulation, Receptor, Insulin genetics
Abstract

To determine the role of genetic defects in the insulin receptor in the insulin resistance of lipoatrophic diabetes mellitus, we studied insulin binding, insulin receptor autophosphorylation, and insulin receptor mRNA levels and performed Southern blot analysis of genomic DNA in four siblings, all of whom have some degree of insulin resistance and three of whom have lipoatrophy. The insulin receptor concentration in Epstein-Barr virus-transformed lymphocytes was about 30% of normal in all three lipoatrophic siblings (LA1, LA2, and LA3) and was 55% of normal in the nonlipoatrophic sibling (LAS). Insulin receptor mRNA concentrations in the lymphocytes paralleled insulin binding and ranged from 15-67% of the mean normal level. Insulin binding to fibroblasts was also reduced about 50% in the lipoatrophic siblings. In addition, insulin binding to fibroblasts of LAS and LA2 exhibited a rightward shift of the competition curve, suggesting reduced receptor affinity [ED50, 35 and 50 ng/mL (5845 and 8350 pmol/L); normal, 1-3 ng/mL (167-501 pmol/L)]. Receptor autophosphorylation determined using Triton X-100 extracts of the fibroblasts was decreased in LA1 and LA3, but normal in LA2 and LAS. Using restriction enzyme digests of genomic DNA and probes spanning the entire cDNA of the insulin receptor, no gross alterations in receptor gene structure were detected in any members of this family. In 2 of the lipoatrophic siblings (LA1 and LA3) and in the sibling with insulin resistance but no lipoatrophy (LAS), a unique variant BamHI site was detected using a probe to the alpha-subunit region. This site was not found in 200 normal or diabetic insulin receptor alleles. By use of probes 5' and 3' to the alpha-subunit probe and by genomic cloning analysis, this variant BamHI site was localized to an intron in the insulin receptor gene downstream of exon 3 which encodes amino acids 191-296 of the alpha-subunit of the receptor. These data indicate the complex nature of familial lipoatrophic diabetes mellitus, with alterations in insulin receptor expression and/or function in both clinically affected and non-affected siblings. Both the reduced insulin binding and reduced levels of insulin receptor mRNA in the lipoatrophic siblings suggest that an insulin receptor gene defect contributes to this syndrome. Several members of this family also carry a unique variant insulin receptor gene, which, however, could not be linked to a specific alteration in receptor expression or the presence of lipoatrophy.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1988
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