Your search keyword '"INSULIN-RECEPTOR"' showing total 30 results

1. Modulation of Insulin Sensitivity by Insulin-Degrading Enzyme

Author

Malcolm A. Leissring, Beatriz Merino, Patricia Cámara-Torres, Tamara Postigo-Casado, Elena Casanueva-Álvarez, Cristina M. Fernández-Díaz, Irene Cózar-Castellano, Carlos M. González-Casimiro, Germán Perdomo, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia, Innovación y Universidades (España), European Commission, La Caixa, and Junta de Castilla y León

Subjects

0301 basic medicine, medicine.medical_specialty, medicine.medical_treatment, 2415 Biología Molecular, Medicine (miscellaneous), Blood sugar, 030209 endocrinology & metabolism, Type 2 diabetes, Review, liver, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Insulin resistance, 32 Ciencias Médicas, Internal medicine, insulin resistance, medicine, Insulin-degrading enzyme, Insulin, pancreas, glucose transporters, insulin receptor, Páncreas, Pancreas, lcsh:QH301-705.5, Liver - Diseases, biology, medicine.disease, insulin-degrading enzyme, Glucose transporters, Insulin receptor, 030104 developmental biology, medicine.anatomical_structure, Proteostasis, Endocrinology, Glucose, Liver, lcsh:Biology (General), Insulina - Receptores, Insulin-receptor, biology.protein, Enzima degradadora de insulina

Abstract

Producción Científica, Insulin-degrading enzyme (IDE) is a highly conserved and ubiquitously expressed metalloprotease that degrades insulin and several other intermediate-size peptides. For many decades, IDE had been assumed to be involved primarily in hepatic insulin clearance, a key process that regulates availability of circulating insulin levels for peripheral tissues. Emerging evidence, however, suggests that IDE has several other important physiological functions relevant to glucose and insulin homeostasis, including the regulation of insulin secretion from pancreatic β-cells. Investigation of mice with tissue-specific genetic deletion of Ide in the liver and pancreatic β-cells (L-IDE-KO and B-IDE-KO mice, respectively) has revealed additional roles for IDE in the regulation of hepatic insulin action and sensitivity. In this review, we discuss current knowledge about IDE’s function as a regulator of insulin secretion and hepatic insulin sensitivity, both evaluating the classical view of IDE as an insulin protease and also exploring evidence for several non-proteolytic functions. Insulin proteostasis and insulin sensitivity have both been highlighted as targets controlling blood sugar levels in type 2 diabetes, so a clearer understanding the physiological functions of IDE in pancreas and liver could led to the development of novel therapeutics for the treatment of this disease., Ministerio de Economía, Industria y Competitividad - (grant SAF2016-77871-C2-1-R; SAF2016-77871-C2-2-R), Ministerio de Ciencia e Innovación - (grant PID2019-110496RB-C21; PID2019-110496RB-C22), Fundación Europea para el Estudio de la Diabetes (Programa Europeo de Investigación de la Diabetes sobre nuevos objetivos para el tipo 2 Diabetes apoyada por MSD-2017), US National Institutes of Health - (grant GM115617), Fundación “la Caixa" - (grant LCF/PR/PR18/51130007), Junta de Castilla y León y Fondo Social Europeo - ((ORDER EDU/574/2018 and ORDER EDU/556/2019)

Published

2021

2. Expression of Insulin System in the Olfactory Epithelium: First Approaches to its Role and Regulation.

Author

Lacroix, M.-C., Badonnel, K., Meunier, N., Tan, F., Poupon, C. Schlegel-Le, Durieux, D., Monnerie, R., Baly, C., Congar, P., Salesse, R., and Caillol, M.

Subjects

*INSULIN, *INGESTION, *IMMUNOCYTOCHEMISTRY, *OLFACTORY mucosa, *ENDOTHELIUM, *NEURONS

Abstract

Food odours are major determinants for food choice; their detection is influenced by nutritional status. Among different metabolic signals, insulin plays a major role in food intake regulation. The aim of the present study was to investigate a potential role of insulin in the olfactory mucosa (OM), using ex vivo tissues and in vitro primary cultures. We first established the expression of insulin receptor (IR) in rat olfactory mucosa. Transcripts of IR-A and IR-B isoforms, as well as IRS-1 and IRS-2, were detected in OM extracts. Using immunocytochemistry, IR protein was located in olfactory receptor neurones, sustentacular and basal cells and in endothelium of the lamina propria vessels. Moreover, the insulin binding capacity of OM was quite high compared to that of olfactory bulb or liver. Besides the main pancreatic insulin source, we demonstrated insulin synthesis at a low level in the OM. Interestingly 48 h of fasting, leading to a decreased plasmatic insulin, increased the number of IR in the OM. Local insulin concentration was also enhanced. These data suggest a control of OM insulin system by nutritional status. Finally, an application of insulin on OM, aiming to mimic postprandial insulin increase, reversibly decreased the amplitude of electro-olfactogramme responses to odorants by approximately 30%. These data provide the first evidence that insulin modulates the most peripheral step of odour detection at the olfactory mucosa level. [ABSTRACT FROM AUTHOR]

Published

2008

3. Insulin signaling and limb-patterning: candidate pathways for the origin and evolutionary diversification of beetle ‘horns’.

Author

Emlen, D. J., Szafran, Q., Corley, L. S., and Dworkin, I.

Subjects

*SCARABAEIDAE, *BEETLES, *INSULIN, *BIOLOGICAL evolution, *ANIMAL diversity

Abstract

Beetle ‘horns’ are rigid outgrowths of the insect cuticle used as weapons in contests for access to mates. Relative to their body size, beetle horns can be enormous. They protrude from any of five different regions of the head or thorax; they are curved, straight, branched or bladed; and their development is often coupled with the nutrient environment (male dimorphism) or with sex (sexual dimorphism). Here, we show that this extraordinary diversity of horns can be distilled down to four trajectories of morphological change – horn location, shape, allometry and dimorphism – and we illustrate how the developmental mechanisms regulating horn growth could generate each of these types of horn evolution. Specifically, we review two developmental pathways known to regulate growth of morphological structures in Drosophila and other insects: a limb-patterning pathway that specifies the location and shape of a structure, and the insulin pathway, which modulates trait growth in response to larval nutrition. We summarize preliminary evidence indicating that these pathways are associated with the development of beetle horns, and we show how subtle changes in the relative activities of these two pathways would be sufficient to generate most of the extant diversity of horn forms. Our objective is to intuitively connect genotype with phenotype, and to advocate an informed ‘candidate gene’ approach to studies of the developmental basis of evolution. We end by using this insight from development to offer a solution to the long-standing mystery of the scarabs: the observation by Darwin, Lameere, Arrow and others that this one family of beetles appeared to have a ‘special tendency’ towards the evolution of horns.Heredity (2006) 97, 179–191. doi:10.1038/sj.hdy.6800868; published online 19 July 2006 [ABSTRACT FROM AUTHOR]

Published

2006

4. Receptor binding and effects of insulin and NSILA-S on glucose transport and metabolism in adipocytes from hypophysectomized rats.

Author

Schoenle, E., Zapf, J., and Froesch, E.

Abstract

Isolated fat cells from normal and hypophysectomized rats have been compared with respect to: 1) binding of insulin and NSILA-S, and 2) effects of these two hormones on glucose transport and metabolism. Although both insulin and NSILA levels were decreased in the serum of hypophysectomized rats, insulin binding was decreased to about 63% of normal, whereas NSILA-S binding remained unchanged. Basal lipogenesis was similar in adipocytes of normal and hypophysectomized rats, but was not stimulated by either insulin or NSILA-S. Similarly, neither of the two hormones stimulated the net gas exchange of 'intact' fat pads from hypophysectomized rats. In striking contrast to these findings, 3-O-methylglucose transport in unstimulated fat cells of hypophysectomized rats proceeded at a maximal rate which was not further enhanced by insulin or NSILA-S. These results suggest that the lack of one or several hormones of the pituitary causes one or several enzyme deficiencies responsible for the limited rate of lipogenesis, which otherwiese would proceed at a very rapid rate because of unrestrained glucose transport. [ABSTRACT FROM AUTHOR]

Published

1979

5. Effects of insulin and NSILA on adipocytes of normal and diabetic rats: Receptor binding, glucose transport and glucose metabolism.

Author

Schoenle, E., Zapf, J., and Froesch, E.

Abstract

Isolated fat cells from normal and streptozotocin-diabetic rats were compared with respect to metabolic indices (glucose-uptake, 3-0-methylglucose efflux) with and without stimulation by insulin and nonsuppressible insulin-like activity (NSILA). In addition, binding studies were carried out with these two hormones. BasalC-glucose oxidation and incorporation into lipids was decreased in diabetic cells and their response to insulin and NSILA was greatly reduced. Basal efflux of 3-0-methylglucose from diabetic cells was somewhat faster than from normal cells. The response to insulin and NSILA was less than in normal cells and it was delayed. The apparent number of insulin binding sites as well as their affinity for insulin was increased in diabetic cells. In contrast, the apparent number of binding sites for NSILA was decreased in diabetic cells and their affinity for NSILA was increased. In normal cells insulin enhanced binding ofI-NSILA more markedly than in diabetic cells. These findings show that the rate-limiting step of impaired glucose metabolism (oxidation and lipogenesis) in diabetic fat cells is beyond the interaction of the hormone with the receptor. They suggest that the apparent number of hormone receptors (insulin, NSILA) on the cell membrane is regulated individually for each binding site. [ABSTRACT FROM AUTHOR]

Published

1977

6. Human umbilical vein endothelium-derived exosomes play a role in foetoplacental endothelial dysfunction in gestational diabetes mellitus

Author

Tamara Sáez, Fernando Toledo, Luis Sobrevia, Andrea Leiva, Paul de Vos, Marijke M. Faas, Rocío Salsoso, Man, Biomaterials and Microbes (MBM), Translational Immunology Groningen (TRIGR), and Reproductive Origins of Adult Health and Disease (ROAHD)

Subjects

0301 basic medicine, Male, Umbilical Veins, endocrine system diseases, Placenta, 030204 cardiovascular system & hematology, Exosomes, THERAPY, Umbilical vein, chemistry.chemical_compound, 0302 clinical medicine, Enos, Pregnancy, Insulin, Endothelial dysfunction, Phosphorylation, biology, INSULIN-RECEPTOR, female genital diseases and pregnancy complications, medicine.anatomical_structure, cardiovascular system, Molecular Medicine, Female, Signal Transduction, Adult, EXPRESSION, medicine.medical_specialty, Endothelium, Nitric Oxide Synthase Type III, Arginine, Nitric Oxide, Nitric oxide, 03 medical and health sciences, Internal medicine, medicine, Human Umbilical Vein Endothelial Cells, Journal Article, Humans, Molecular Biology, Protein kinase B, Cationic Amino Acid Transporter 1, REDUCED ADENOSINE TRANSPORT, NITRIC-OXIDE, business.industry, Infant, Newborn, EXTRACELLULAR VESICLES, nutritional and metabolic diseases, Biological Transport, Glucose Tolerance Test, medicine.disease, biology.organism_classification, Microvesicles, Diabetes, Gestational, 030104 developmental biology, Endocrinology, chemistry, CELLS, Endothelium, Vascular, business, Reactive Oxygen Species

Abstract

Gestational diabetes mellitus (GDM) characterizes by foetoplacental endothelial dysfunction. Human umbilical vein endothelial cells (HUVECs) from women with GDM show increased L-arginine transport via the human cationic amino acid transporter 1 (hCAT-1). Moreover, expression of endothelial nitric oxide synthase (eNOS) and nitric oxide synthesis are increased. Exosomes are increased in maternal plasma from GDM. We evaluated the role of foetoplacental endothelial exosomes on endothelial dysfunction in GDM. Exosomes were isolated from HUVECs from normal (ExN) and GDM (ExGDM) pregnancies. HUVECs were exposed (8h) to ExN or ExGDM and used for wound recovery assay (up to 8h), L-arginine transport, hCAT-1 and eNOS expression and activity, reactive oxygen species (ROS) generation, and 44 and 42kDa mitogen activated protein kinases (p44/42(mapk)) and protein kinase B/Akt (Akt) activation. Wound recovery was slower in GDM compared with normal pregnancies and was recovered by ExN. However, ExGDM delayed wound recovery in cells from normal pregnancies. GDM-increased L-arginine transport, hCAT-1 and eNOS expression and activity, and p44/42(mapk) activation were blocked by ExN, but ExGDM increased these parameters and ROS generation, and reduced eNOS phosphorylation at threonine(495) in cells from normal pregnancies. Inhibition of p44/42(mapk), but not Akt reversed GDM-increased L-arginine uptake. In conclusion foetoplacental endothelial-released exosomes play a role in the maintenance of a GDM phenotype in HUVECs. It is suggested that ExN and ExGDM cargo are different with differential effects in cells from normal or GDM pregnancies. This phenomenon could contribute to the understanding of mechanisms behind foetoplacental endothelial dysfunction in GDM pregnancies.

Published

2018

7. Tryptophan metabolism

Subjects

protein homeostasis, T-CELL PROLIFERATION, aging, neurodegeneration, TUMORAL IMMUNE RESISTANCE, INSULIN-RECEPTOR, 3-DIOXYGENASE ACTIVITY, age-related diseases, TDO-2, HUNTINGTONS-DISEASE, C-ELEGANS, tryptophan, LIFE-SPAN EXTENSION, CAENORHABDITIS-ELEGANS, DIETARY RESTRICTION, INDOLEAMINE 2, GENETICALLY HETEROGENEOUS MICE, kynurenine pathway

Abstract

Aging is an important risk factor for many debilitating diseases, including cancer and neurodegeneration. In model organisms, interfering with metabolic signaling pathways, including the insulin/insulin-like growth factor (IGF) 1 (IIS) and TOR pathways, can protect against age-related pathologies and increase lifespan. Recent studies in multiple organisms have implicated tryptophan metabolism as a powerful regulator of age-related diseases and lifespan. Its high conservation throughout evolution has enabled studies that begin to dissect the contribution of individual enzymes and metabolites. Here, we focus on the emerging view of tryptophan metabolism as a pathway that integrates environmental and metabolic signals to regulate animal biology and health.

Published

2013

8. Tryptophan metabolism

Author

Annemieke T. van der Goot and Ellen A. A. Nollen

Subjects

Kynurenine pathway, medicine.medical_treatment, ved/biology.organism_classification_rank.species, Regulator, Biology, 03 medical and health sciences, 0302 clinical medicine, age-related diseases, medicine, Animals, Humans, tryptophan, LIFE-SPAN EXTENSION, Model organism, DIETARY RESTRICTION, Molecular Biology, INDOLEAMINE 2, 030304 developmental biology, Genetics, protein homeostasis, 0303 health sciences, T-CELL PROLIFERATION, ved/biology, Insulin, Growth factor, Neurodegeneration, aging, neurodegeneration, TUMORAL IMMUNE RESISTANCE, INSULIN-RECEPTOR, medicine.disease, 3-DIOXYGENASE ACTIVITY, Cell biology, Insulin receptor, TDO-2, HUNTINGTONS-DISEASE, biology.protein, C-ELEGANS, Molecular Medicine, Signal transduction, CAENORHABDITIS-ELEGANS, 030217 neurology & neurosurgery, GENETICALLY HETEROGENEOUS MICE, Signal Transduction, kynurenine pathway

Abstract

Aging is an important risk factor for many debilitating diseases, including cancer and neurodegeneration. In model organisms, interfering with metabolic signaling pathways, including the insulin/insulin-like growth factor (IGF) 1 (IIS) and TOR pathways, can protect against age-related pathologies and increase lifespan. Recent studies in multiple organisms have implicated tryptophan metabolism as a powerful regulator of age-related diseases and lifespan. Its high conservation throughout evolution has enabled studies that begin to dissect the contribution of individual enzymes and metabolites. Here, we focus on the emerging view of tryptophan metabolism as a pathway that integrates environmental and metabolic signals to regulate animal biology and health.

Published

2013

9. The Epidermal Growth Factor Receptor (EGFR) Inhibitor Gefitinib Reduces but Does Not Prevent Tumorigenesis in Chemical and Hormonal Induced Hepatocarcinogenesis Rat Models

Author

Frank Dombrowski, Diego F. Calvisi, Frauke Steinmüller, Matthias Evert, Kristin Peters, Verena Sailer, Julia Günther, Antonio Cigliano, Silvia Ribback, Kirsten Utpatel, Maria G. Pilo, Jaqueline Merz, and Enrico Böhning

Subjects

Male, 0301 basic medicine, TGF alpha, Islets of Langerhans Transplantation, 610 Medizin, medicine.disease_cause, lcsh:Chemistry, Liver Neoplasms, Experimental, 0302 clinical medicine, Epidermal growth factor receptor, lcsh:QH301-705.5, Spectroscopy, EGFR inhibitors, ddc:610, biology, TOR Serine-Threonine Kinases, hepatocarcinogenesis, Gefitinib, General Medicine, Immunohistochemistry, epidermal growth factor receptor (EGFR), Computer Science Applications, ErbB Receptors, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Female, medicine.drug, medicine.medical_specialty, Nitrosamines, HUMAN HEPATOCELLULAR-CARCINOMA, PANCREATIC-ISLET TRANSPLANTS, TYROSINE KINASE INHIBITOR, DIABETIC-RATS, SIGNALING PATHWAYS, METABOLIC-CHANGES, INSULIN-RECEPTOR, CANCER-CELLS, FACTOR-ALPHA, LIVER, intraportal transplantation, Drug Administration Schedule, Article, Catalysis, Inorganic Chemistry, 03 medical and health sciences, Sodium-Glucose Transporter 1, Internal medicine, medicine, Animals, Physical and Theoretical Chemistry, Protein Kinase Inhibitors, neoplasms, Molecular Biology, Cell Proliferation, business.industry, Pancreatic islets, Organic Chemistry, Transforming Growth Factor alpha, Hepatocellular adenoma, medicine.disease, Rats, Transplantation, Disease Models, Animal, 030104 developmental biology, Endocrinology, lcsh:Biology (General), lcsh:QD1-999, Rats, Inbred Lew, Thyroid Epithelial Cells, Quinazolines, ras Proteins, Cancer research, biology.protein, business, Carcinogenesis

Abstract

Activation of the epidermal growth factor receptor (EGFR) signaling pathway promotes the development of hepatocellular adenoma (HCA) and carcinoma (HCC). The selective EGFR inhibitor Gefitinib was found to prevent hepatocarcinogenesis in rat cirrhotic livers. Thus, Gefitinib might reduce progression of pre-neoplastic liver lesions to HCC. In short- and long-term experiments, administration of N-Nitrosomorpholine (NNM) or intrahepatic transplantation of pancreatic islets in diabetic (PTx), thyroid follicles in thyroidectomized (TTx) and ovarian fragments in ovariectomized (OTx) rats was conducted for the induction of foci of altered hepatocytes (FAH). Gefitinib was administered for two weeks (20 mg/kg) or three and nine months (10 mg/kg). In NNM-treated rats, Gefitinib administration decreased the amount of FAH when compared to controls. The amount of HCA and HCC was decreased, but development was not prevented. Upon all transplantation models, proliferative activity of FAH was lower after administration of Gefitinib in short-term experiments. Nevertheless, the burden of HCA and HCC was not changed in later stages. Thus, EGFR inhibition by Gefitinib diminishes chemical and hormonal also induced hepatocarcinogenesis in the initiation stage in the non-cirrhotic liver. However, progression to malignant hepatocellular tumors was not prevented, indicating only a limited relevance of the EGFR signaling cascade in later stages of hepatocarcinogenesis.

Published

2016

10. Mammalian models of extended healthy lifespan

Author

Colin Selman and Dominic J. Withers

Subjects

Life Sciences & Biomedicine - Other Topics, target of rapamycin, Empirical data, LONG-LIVED MUTANT, ved/biology.organism_classification_rank.species, Bioinformatics, PLASMA-PROTEIN-A, Animals, Genetically Modified, Mice, 0302 clinical medicine, OXIDATIVE STRESS, Cognitive decline, 11 Medical and Health Sciences, media_common, Expectancy theory, 0303 health sciences, Longevity, Articles, INSULIN-RECEPTOR, 3. Good health, Models, Animal, SIGNALING PATHWAY, General Agricultural and Biological Sciences, Life Sciences & Biomedicine, nutrient sensing, media_common.quotation_subject, insulin signalling, Biology, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, Cataracts, medicine, FATAL NEOPLASTIC DISEASES, Animals, Humans, Dementia, Model organism, AMES DWARF MICE, 030304 developmental biology, Evolutionary Biology, Science & Technology, business.industry, ved/biology, NUTRIENT HOMEOSTASIS, 06 Biological Sciences, medicine.disease, Biotechnology, ageing, Ageing, Mutation, business, KNOCKOUT MICE, GENETICALLY HETEROGENEOUS MICE, 030217 neurology & neurosurgery

Abstract

Over the last two centuries, there has been a significant increase in average lifespan expectancy in the developed world. One unambiguous clinical implication of getting older is the risk of experiencing age-related diseases including various cancers, dementia, type-2 diabetes, cataracts and osteoporosis. Historically, the ageing process and its consequences were thought to be intractable. However, over the last two decades or so, a wealth of empirical data has been generated which demonstrates that longevity in model organisms can be extended through the manipulation of individual genes. In particular, many pathological conditions associated with the ageing process in model organisms, and importantly conserved from nematodes to humans, are attenuated in long-lived genetic mutants. For example, several long-lived genetic mouse models show attenuation in age-related cognitive decline, adiposity, cancer and glucose intolerance. Therefore, these long-lived mice enjoy a longer period without suffering the various sequelae of ageing. The greatest challenge in the biology of ageing is to now identify the mechanisms underlying increased healthy lifespan in these model organisms. Given that the elderly are making up an increasingly greater proportion of society, this focused approach in model organisms should help identify tractable interventions that can ultimately be translated to humans.

Published

2011

11. In Skeletal Muscle, Glucose Storage and Oxidation Are Differentially Impaired by the IR1152 Mutant Receptor

Author

Claudia Miele, Brunella Capaldo, Gerolama Condorelli, Gabriele Riccardi, Pietro Formisano, Renata Auricchio, Francesco Beguinot, Giuseppe Bifulco, Matilde Caruso, A Oliva, Caruso, M, Miele, C, Formisano, Pietro, Condorelli, Gerolama, Bifulco, G, Oliva, A, Auricchio, Renata, Riccardi, Gabriele, Capaldo, Brunella, and Beguinot, Francesco

Subjects

medicine.medical_specialty, Glucose uptake, medicine.medical_treatment, DEPENDENT DIABETES-MELLITUS, Biochemistry, Cell Line, CULTURE, chemistry.chemical_compound, HYPERGLYCEMIA, Internal medicine, medicine, Humans, Point Mutation, PROTEIN-KINASE-C, Muscle, Skeletal, MUTATION, Molecular Biology, biology, Glycogen, Insulin, Glucose transporter, Skeletal muscle, Cell Biology, INSULIN-RECEPTOR, GENE, TRANSPORT, Receptor, Insulin, Insulin receptor, AUTOPHOSPHORYLATION, Glucose, Endocrinology, medicine.anatomical_structure, chemistry, CELLS, biology.protein, GLUT1, Oxidation-Reduction, GLUT4, Signal Transduction

Abstract

L6 myotubes expressing the constitutively active Arg(1152)-->Gln insulin receptor (L6(1152)) featured a 31% increased glucose consumption as compared with L6 cells expressing wild-type receptors (L6(WT)). However, insulin treatment decreased glucose consumption of the mutant cells by 20% while increasing that of the L6(WT) by 30%, In the L6WT, insulin elicited a significant increase in glucose transport and GLUT1 and GLUT4 plasma membrane expression, while in the L6(1152), all of these functions were constitutively activated and not further stimulated by insulin, Similarly, glycogen content and glycogen synthase activity were increased by 80 and 125%, respectively, in the L6(1152) versus the L6(WT) and unaffected by insulin (while a 2-fold increase was measured in insulin-exposed L6(WT)), Glucose oxidation and pyruvate dehydrogenase activity were also 25% higher in the mutant compared with the L6(WT), However, in the L6(1152), both functions decreased by 35% in response to insulin (while increasing by 60 and 80%, respectively, in the L6(WT)). Similarly as in the L6(1152), in vivo, forearm glucose uptake in IR(1152) patients was 2-fold higher than in control subjects, This difference was not accounted for by higher plasma glucose levels. We conclude that, in skeletal muscle, glucose storage and oxidation are differentially impaired by the expression of IR(1152), suggesting that their regulation by insulin involves divergent signaling pathways, Muscle expression of IR(1152) may contribute to impairing glucose tolerance in IR(1152) individua

Published

1997

12. O-GlcNAcylation-Inducing Treatments Inhibit Estrogen Receptor α Expression and Confer Resistance to 4-OH-Tamoxifen in Human Breast Cancer-Derived MCF-7 Cells

Author

Elodie A.Y. Masson, Shahzina Kanwal, Thierry N’Tumba-Byn, Cornelia Hampe, Yann Fardini, Cécile Pierre-Eugène, Tarik Issad, P. Pagesy, Institut Cochin (IC UM3 (UMR 8104 / U1016)), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Institut Cochin (UM3 (UMR 8104 / U1016)), Université Paris Descartes - Paris 5 (UPD5) - Institut National de la Santé et de la Recherche Médicale (INSERM) - Centre National de la Recherche Scientifique (CNRS), and Julien, Sabine

Subjects

Estrogen receptor, linked n-acetylglucosamine, Phosphatidylinositol 3-Kinases, 0302 clinical medicine, Oximes, Insulin-Like Growth Factor I, Promoter Regions, Genetic, tyrosine-phosphatase 1b, transcription factors, glcnac modification, insulin-receptor, gene-transcription, foxo1 increases, sp1, cycle arrest, c-myc, 0303 health sciences, Multidisciplinary, Cell Death, Kinase, 3. Good health, Gene Expression Regulation, Neoplastic, Selective estrogen receptor modulator, [SDV.SP.PHARMA] Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, 030220 oncology & carcinogenesis, Alimentation et Nutrition, MCF-7 Cells, Medicine, Female, Signal transduction, Research Article, Signal Transduction, medicine.drug, Selective Estrogen Receptor Modulators, Antineoplastic Agents, Hormonal, Science, Phenylcarbamates, Médecine humaine et pathologie, Breast Neoplasms, [SDV.CAN]Life Sciences [q-bio]/Cancer, Biology, Acetylglucosamine, 03 medical and health sciences, [SDV.CAN] Life Sciences [q-bio]/Cancer, medicine, Humans, Food and Nutrition, PI3K/AKT/mTOR pathway, 030304 developmental biology, Estrogen Receptor alpha, Hexosamines, Biosynthetic Pathways, Tamoxifen, Drug Resistance, Neoplasm, Cancer cell, Cancer research, [SDV.SP.PHARMA]Life Sciences [q-bio]/Pharmaceutical sciences/Pharmacology, Human health and pathology, Protein Processing, Post-Translational, Proto-Oncogene Proteins c-akt, Estrogen receptor alpha

Abstract

PLoS One; International audience; O-GlcNAcylation (addition of N-acetyl-glucosamine on serine or threonine residues) is a post-translational modification that regulates stability, activity or localization of cytosolic and nuclear proteins. O-linked N-acetylgluocosmaine transferase (OGT) uses UDP-GlcNAc, produced in the hexosamine biosynthetic pathway to O-GlcNacylate proteins. Removal of O-GlcNAc from proteins is catalyzed by the β-N-Acetylglucosaminidase (OGA). Recent evidences suggest that O-GlcNAcylation may affect the growth of cancer cells. However, the consequences of O-GlcNAcylation on anti-cancer therapy have not been evaluated. In this work, we studied the effects of O-GlcNAcylation on tamoxifen-induced cell death in the breast cancer-derived MCF-7 cells. Treatments that increase O-GlcNAcylation (PUGNAc and/or glucosoamine) protected MCF-7 cells from death induced by tamoxifen. In contrast, inhibition of OGT expression by siRNA potentiated the effect of tamoxifen on cell death. Since the PI-3 kinase/Akt pathway is a major regulator of cell survival, we used BRET to evaluate the effect of PUGNAc+glucosamine on PIP3 production. We observed that these treatments stimulated PIP3 production in MCF-7 cells. This effect was associated with an increase in Akt phosphorylation. However, the PI-3 kinase inhibitor LY294002, which abolished the effect of PUGNAc+glucosamine on Akt phosphorylation, did not impair the protective effects of PUGNAc+glucosamine against tamoxifen-induced cell death. These results suggest that the protective effects of O-GlcNAcylation are independent of the PI-3 kinase/Akt pathway. As tamoxifen sensitivity depends on the estrogen receptor (ERα) expression level, we evaluated the effect of PUGNAc+glucosamine on the expression of this receptor. We observed that O-GlcNAcylation-inducing treatment significantly reduced the expression of ERα mRNA and protein, suggesting a potential mechanism for the decreased tamoxifen sensitivity induced by these treatments. Therefore, our results suggest that inhibition of O-GlcNAcylation may constitute an interesting approach to improve the sensitivity of breast cancer to anti-estrogen therapy.

Published

2013

13. Suppressor of Cytokine Signaling 6 (SOCS6) Negatively Regulates Flt3 Signal Transduction through Direct Binding to Phosphorylated Tyrosines 591 and 919 of Flt3*

Author

Lars Rönnstrand, Amilcar Flores-Morales, Bengt Phung, Jianmin Sun, Fahad Zadjali, and Julhash U. Kazi

Subjects

PROTEINS, Suppressor of Cytokine Signaling Proteins, ACUTE MYELOID-LEUKEMIA, Biology, Biochemistry, Receptor tyrosine kinase, ACTIVATION, chemistry.chemical_compound, fluids and secretions, DOMAIN, Growth factor receptor, hemic and lymphatic diseases, Cell Line, Tumor, Chlorocebus aethiops, Animals, Humans, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Molecular Biology, Protein kinase B, Cell Proliferation, PROLIFERATION, JAK-STAT signaling pathway, Tyrosine phosphorylation, hemic and immune systems, Cell Biology, INSULIN-RECEPTOR, humanities, Cell biology, C-KIT, AUTOPHOSPHORYLATION, chemistry, fms-Like Tyrosine Kinase 3, PROTEASOMAL DEGRADATION, ROR1, embryonic structures, COS Cells, Proteolysis, biology.protein, Tyrosine, Signal transduction, Cell and Molecular Biology, Platelet-derived growth factor receptor, SRC FAMILY KINASES, Signal Transduction, Protein Binding

Abstract

The receptor tyrosine kinase Flt3 is an important growth factor receptor in hematopoiesis, and gain-of-function mutations of the receptor contribute to the transformation of acute myeloid leukemia (AML). The suppressors of cytokine signaling 6 (SOCS6) is a member of the SOCS family of E3 ubiquitin ligases that can regulate receptor tyrosine kinases signal transduction. In this study we analyzed the role of SOCS6 in Flt3 signal transduction. The results show that ligand stimulation to Flt3 can induce association of SOCS6 and Flt3 and tyrosine phosphorylation of SOCS6. Phospho-peptide fishing indicates that SOCS6 binds directly to phospho-tyrosine 591 and 919 of Flt3. By using stable transfected Ba/F3 cells with Flt3 and/or SOCS6, we show that the presence of SOCS6 can enhance ubiquitination of Flt3 as well as internalization and degradation of the receptor. The presence of SOCS6 also induces weaker activation of Erk1/2 but not Akt in transfected Ba/F3 and UT-7 cells, and in OCI-AML-5 cells. The absence of SOCS6 promotes Ba/F3 and UT-7 cell proliferation induced by oncogenic internal-tandem-duplications (ITDs) of Flt3. Taken together, these results suggest that SOCS6 negatively regulates Flt3 activation and downstream Erk signaling pathway and cell proliferation.

Published

2012

14. A Genome-Wide Association Meta-Analysis of Circulating Sex Hormone-Binding Globulin Reveals Multiple Loci Implicated in Sex Steroid Hormone Regulation

Author

Massimo Mangino, Magnus Karlsson, Wei Vivian Zhuang, Laure Morin Papunen, Nicole Soranzo, Martin Reincke, Leo-Pekka Lyytikäinen, Andrea D. Coviello, Petra H.M. Peeters, Daniel B. Mirel, Myriam Fornage, Carla H. van Gils, Kurt Lohman, Tamara B. Harris, Martin Bidlingmaier, Leslie J. Raffel, Marc J. Gunter, Liesbeth Vandenput, M. Maggio, Pamela Ouyang, Sarah Keildson, Iva Miljkovic, Annemarie Koster, Simin Liu, Steven R. Cummings, John-Olov Jansson, Mattias Lorentzon, Mika Kähönen, Stephen J. Chanock, Yuhui Chen, Luigi Ferrucci, David G. Cox, Johannes Kettunen, Henri Wallaschofski, Anneli Pouta, Marcello Ricardo Paulista Markus, Steve Franks, Jorma Viikari, Frank De Jong, Melissa Wellons, Susan E. Hankinson, Georg Homuth, Hannu Martikainen, Albert Hofman, Alexander P. Reiner, Andrew D. Johnson, Douglas P. Kiel, Marjo-Riitta Järvelin, Reiner Biffar, Fernando Rivadeneira, Joel Eriksson, Inga Prokopenko, Ann-Kristin Petersen, Kathryn M. Rexrode, H.-Erich Wichmann, Stephen M. Schwartz, Chunyan He, John R. B. Perry, Shelley S. Tworoger, N. Charlotte Onland-Moret, Yongmei Liu, David S. Siscovick, Terho Lehtimäki, Peter Kraft, Georg Brabant, André G. Uitterlinden, Alexander Teumer, Östen Ljunggren, Dan Mellström, Stefania Bandinelli, Dhananjay Vaidya, Claes Ohlsson, David Karasik, Lisette Stolk, Anna-Liisa Hartikainen, Andrew R. Wood, Shalender Bhasin, Mark I. McCarthy, Jennifer Prescott, Anna Murray, Tim D. Spector, Guangju Zhai, Olli T. Raitakari, Joanne M. Murabito, Kathryn L. Lunetta, Thomas Illig, Jingmin Liu, Melissa Garcia, Brian H. Chen, Ramachandran S. Vasan, David J. Hunter, Robin Haring, Sarah C. Nelson, Vasiliki Lagou, Aimo Ruokonen, Immaculata De Vivo, Doris Stöckl, Timothy M. Frayling, Yvonne T. van der Schouw, Interne Geneeskunde, RS: CARIM School for Cardiovascular Diseases, Public Health, Internal Medicine, Epidemiology, Urology, Medical Research Council (MRC), and Institute for Molecular Medicine Finland

Subjects

MEDICAL PROGRESS, Male, Cancer Research, Medicin och hälsovetenskap, Epidemiology, HAN CHINESE POPULATION, Genome-wide association study, RECEPTOR TYROSINE KINASE, QH426-470, HAN CHINESE, Medical and Health Sciences, 0302 clinical medicine, Sex hormone-binding globulin, Endocrinology, Sex Hormone-Binding Globulin, GENETICS & HEREDITY, Gonadal Steroid Hormones, POPULATION, Genetics (clinical), GENE-EXPRESSION, RISK, 0303 health sciences, education.field_of_study, Sex Characteristics, POLYCYSTIC-OVARY-SYNDROME, INSULIN-RECEPTOR, 3. Good health, 030220 oncology & carcinogenesis, Genetic Epidemiology, MEDICAL, Medicine, Allelic heterogeneity, Female, Life Sciences & Biomedicine, Metabolic Networks and Pathways, Research Article, medicine.medical_specialty, medicine.drug_class, Population, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, 03 medical and health sciences, Genetic Heterogeneity, SDG 3 - Good Health and Well-being, Internal medicine, medicine, Genetics, Humans, Reproductive Endocrinology, education, PROGRESS, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Alleles, 030304 developmental biology, 0604 Genetics, Science & Technology, GCKR RS780094, Endocrine Physiology, Genetic heterogeneity, ta3121, Androgen, SHBG GENE, POLYMORPHISM, Orthopedics, Sex steroid, biology.protein, 3111 Biomedicine, Developmental Biology, Genome-Wide Association Study

Abstract

Sex hormone-binding globulin (SHBG) is a glycoprotein responsible for the transport and biologic availability of sex steroid hormones, primarily testosterone and estradiol. SHBG has been associated with chronic diseases including type 2 diabetes (T2D) and with hormone-sensitive cancers such as breast and prostate cancer. We performed a genome-wide association study (GWAS) meta-analysis of 21,791 individuals from 10 epidemiologic studies and validated these findings in 7,046 individuals in an additional six studies. We identified twelve genomic regions (SNPs) associated with circulating SHBG concentrations. Loci near the identified SNPs included SHBG (rs12150660, 17p13.1, p = 1.8×10−106), PRMT6 (rs17496332, 1p13.3, p = 1.4×10−11), GCKR (rs780093, 2p23.3, p = 2.2×10−16), ZBTB10 (rs440837, 8q21.13, p = 3.4×10−09), JMJD1C (rs7910927, 10q21.3, p = 6.1×10−35), SLCO1B1 (rs4149056, 12p12.1, p = 1.9×10−08), NR2F2 (rs8023580, 15q26.2, p = 8.3×10−12), ZNF652 (rs2411984, 17q21.32, p = 3.5×10−14), TDGF3 (rs1573036, Xq22.3, p = 4.1×10−14), LHCGR (rs10454142, 2p16.3, p = 1.3×10−07), BAIAP2L1 (rs3779195, 7q21.3, p = 2.7×10−08), and UGT2B15 (rs293428, 4q13.2, p = 5.5×10−06). These genes encompass multiple biologic pathways, including hepatic function, lipid metabolism, carbohydrate metabolism and T2D, androgen and estrogen receptor function, epigenetic effects, and the biology of sex steroid hormone-responsive cancers including breast and prostate cancer. We found evidence of sex-differentiated genetic influences on SHBG. In a sex-specific GWAS, the loci 4q13.2-UGT2B15 was significant in men only (men p = 2.5×10−08, women p = 0.66, heterogeneity p = 0.003). Additionally, three loci showed strong sex-differentiated effects: 17p13.1-SHBG and Xq22.3-TDGF3 were stronger in men, whereas 8q21.12-ZBTB10 was stronger in women. Conditional analyses identified additional signals at the SHBG gene that together almost double the proportion of variance explained at the locus. Using an independent study of 1,129 individuals, all SNPs identified in the overall or sex-differentiated or conditional analyses explained ∼15.6% and ∼8.4% of the genetic variation of SHBG concentrations in men and women, respectively. The evidence for sex-differentiated effects and allelic heterogeneity highlight the importance of considering these features when estimating complex trait variance., Author Summary Sex hormone-binding globulin (SHBG) is the key protein responsible for binding and transporting the sex steroid hormones, testosterone and estradiol, in the circulatory system. SHBG regulates their bioavailability and therefore their effects in the body. SHBG has been linked to chronic diseases including type 2 diabetes and to hormone-sensitive cancers such as breast and prostate cancer. SHBG concentrations are approximately 50% heritable in family studies, suggesting SHBG concentrations are under significant genetic control; yet, little is known about the specific genes that influence SHBG. We conducted a large study of the association of SHBG concentrations with markers in the human genome in ∼22,000 white men and women to determine which loci influence SHBG concentrations. Genes near the identified genomic markers in addition to the SHBG protein coding gene included PRMT6, GCKR, ZBTB10, JMJD1C, SLCO1B1, NR2F2, ZNF652, TDGF3, LHCGR, BAIAP2L1, and UGT2B15. These genes represent a wide range of biologic pathways that may relate to SHBG function and sex steroid hormone biology, including liver function, lipid metabolism, carbohydrate metabolism and type 2 diabetes, and the development and progression of sex steroid hormone-responsive cancers.

Published

2012

15. Naringin, the major grapefruit flavonoid, specifically affects atherosclerosis development in diet-induced hypercholesterolemia in mice

Author

Audrey Chanet, Annie M. Bérard, Christiane Deval, Mylène Potier, Joël Constans, Dragan Milenkovic, Catherine Bennetau-Pelissero, Andrzej Mazur, Christine Morand, Unité de Nutrition Humaine (UNH), Institut National de la Recherche Agronomique (INRA)-Université d'Auvergne - Clermont-Ferrand I (UdA)-Clermont Université, Université Clermont Auvergne [2017-2020] (UCA [2017-2020]), Université Sciences et Technologies - Bordeaux 1, CHU Bordeaux [Bordeaux], French National Research Agency [ANR06-PNRA-013], and Université Sciences et Technologies - Bordeaux 1 (UB)

Subjects

Naringenin, Male, Apolipoprotein B, Endocrinology, Diabetes and Metabolism, SMOOTH-MUSCLE-CELLS, [SDV]Life Sciences [q-bio], Clinical Biochemistry, Biochemistry, Monocytes, chemistry.chemical_compound, Mice, 0302 clinical medicine, HEPATOCYTE APO-B, Myocyte, Endothelial dysfunction, 0303 health sciences, Mice, Inbred BALB C, Nutrition and Dietetics, biology, INSULIN-RECEPTOR, 3. Good health, DENSITY-LIPOPROTEIN RECEPTOR, 030220 oncology & carcinogenesis, Flavanones, Citrus paradisi, medicine.medical_specialty, Hypercholesterolemia, Myocytes, Smooth Muscle, Mice, Inbred Strains, Actin cytoskeleton organization, 03 medical and health sciences, High-fat high-cholesterol diet, Internal medicine, medicine, Hypercholesterolemic mouse models, Animals, CORONARY-HEART-DISEASE, Cell adhesion, Molecular Biology, Naringin, 030304 developmental biology, Cell growth, CITRUS FLAVONOIDS, Endothelial Cells, ADHESION MOLECULE-1, MESSENGER-RNA LEVELS, medicine.disease, Atherosclerosis, VASCULAR ENDOTHELIAL-CELLS, Endocrinology, chemistry, Transcriptomic, Immunology, biology.protein, Flavonoid, Diet, Atherogenic, KNOCKOUT MICE

Abstract

Publication Inra prise en compte dans l'analyse bibliométrique des publications scientifiques mondiales sur les Fruits, les Légumes et la Pomme de terre. Période 2000-2012. http://prodinra.inra.fr/record/256699; International audience; Naringin (NAR) from grapefruit has exhibited potential protective effects against atherosclerosis development However, specific mechanisms responsible for such effects are poorly understood. Thus, we aimed to investigate the antiatherogenic effects of NAR in different mouse models of hypercholesterolemia and decipher its molecular targets in the aorta using transcriptomic approach. Two mouse models of hypercholesterolemia, wild-type mice fed a high-fat/high-cholesterol diet and apolipoprotein E-deficient mice fed a semisynthetic diet, were studied. Mice were fed a respective control diets supplemented or not for 18 weeks with 0.02% of NAR, that is, nutritional supplementation. NAR supplementation reduced plaque progression only in wild-type mice fed the high-fat/high-cholesterol diet (-41%). Consistent with this protective effect, NAR reduced plasma non-high-density lipoprotein cholesterol concentrations as well as biomarkers of endothelial dysfunction. Microarray studies performed on aortas demonstrated differentially expressed genes encoding proteins involved in cell adhesion, actin cytoskeleton organization and cell division. Thus, the changes in gene expression induced by NAR could suggest a limited atherosclerosis progression by preventing immune cell adhesion and infiltration in the intima of vascular wall, as well as smooth muscle cell proliferation. Furthermore, this hypothesis was strengthened by in vitro experiments, which showed the ability of naringenin to reduce monocyte adhesion to endothelial cells and smooth muscle cell proliferation. In conclusion, this study revealed the antiatherogenic effect of NAR supplemented at a nutritionally achievable dose, specifically toward diet-induced atherosclerosis, and depicted its multitarget mode of action at the vascular level. (C) 2012 Elsevier Inc. All rights reserved.

Published

2012

16. Pyruvate imbalance mediates metabolic reprogramming and mimics lifespan extension by dietary restriction in Caenorhabditis elegans

Author

Mouchiroud, L., Molin, L., Kasturi, P., Triba, M. N., Dumas, M. E., Wilson, M. C., Halestrap, A. P., Roussel, D., Masse, I., Dalliere, N., Segalat, L., Billaud, M., Solari, F., Génétique moléculaire, signalisation et cancer (GMSC), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS), Université de Lyon, Department of Cellular Biochemistry [Martinsried], Max Planck Institute of Biochemistry (MPIB), Max-Planck-Gesellschaft-Max-Planck-Gesellschaft, Centre Européen de RMN à très hauts champs, Université de Lyon-Université de Lyon-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Institut des Sciences Analytiques (ISA), Department of Biomolecular Medicine, Imperial College London, Department of Biochemistry, University of Bristol [Bristol], Laboratoire d'Ecologie des Hydrosystèmes Naturels et Anthropisés (LEHNA), Université de Lyon-Université de Lyon-École Nationale des Travaux Publics de l'État (ENTPE)-Centre National de la Recherche Scientifique (CNRS), Centre de génétique et de physiologie moléculaire et cellulaire (CGPhiMC), Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon, CNRS UMR5201, Centre National de la Recherche Scientifique (CNRS), Centre National de la Recherche Scientifique (CNRS)-Université de Lyon-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-École normale supérieure - Lyon (ENS Lyon), Institut National de la Recherche Agronomique (INRA)-Université Claude Bernard Lyon 1 (UCBL), Chimie, Structures et Propriétés de Biomatériaux et d'Agents Thérapeutiques (CSPBAT), and Université Paris 13 (UP13)-Institut Galilée-Université Sorbonne Paris Cité (USPC)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects

MESH: Signal Transduction, PTEN, pyruvate, MESH: Metabolic Phenomena, DISEASE, MESH: Membrane Transport Proteins, hormesis, Pyruvic Acid, MESH: Epistasis, Genetic, MESH: Animals, MESH: Monocarboxylic Acid Transporters, MESH: Oxidative Stress, MESH: Transcription Factors, MESH: Caenorhabditis elegans Proteins, INSULIN-RECEPTOR, Mitochondria, MESH: Longevity, daf-18, C-ELEGANS, GROWTH, RNA Interference, Signal Transduction, Monocarboxylic Acid Transporters, MESH: Mutation, MESH: High-Throughput Screening Assays, INDUCED LONGEVITY, MESH: Mitochondria, Longevity, MESH: RNA Interference, DAF-16/FOXO, Pyruvate Dehydrogenase Complex, MESH: PTEN Phosphohydrolase, MESH: Pyruvate Dehydrogenase Complex, MESH: Caenorhabditis elegans, Animals, Caenorhabditis elegans, Caenorhabditis elegans Proteins, MESH: Pyruvic Acid, Caloric Restriction, MESH: Caloric Restriction, PTEN Phosphohydrolase, Membrane Transport Proteins, dietary restriction, Epistasis, Genetic, [SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Molecular biology, TRANSPORTERS, High-Throughput Screening Assays, MICE, Oxidative Stress, Metabolism, Mutation, Transcription Factors

Abstract

International audience; Dietary restriction (DR) is the most universal intervention known to extend animal lifespan. DR also prevents tumor development in mammals, and this effect requires the tumor suppressor PTEN. However, the metabolic and cellular processes that underly the beneficial effects of DR are poorly understood. We identified slcf-1 in an RNAi screen for genes that extend Caenorhabditis elegans lifespan in a PTEN/daf-18-dependent manner. We showed that slcf-1 mutation, which increases average lifespan by 40%, mimics DR in worms fed ad libitum. An NMR-based metabolomic characterization of slcf-1 mutants revealed lower lipid levels compared to wild-type animals, as expected for dietary-restricted animals, but also higher pyruvate content. Epistasis experiments and metabolic measurements support a model in which the long lifespan of slcf-1 mutants relies on increased mitochondrial pyruvate metabolism coupled to an adaptive response to oxidative stress. This response requires DAF-18/PTEN and the previously identified DR effectors PHA-4/FOXA, HSF-1/HSF1, SIR-2.1/SIRT-1, and AMPK/AAK-2. Overall, our data show that pyruvate homeostasis plays a central role in lifespan control in C. elegans and that the beneficial effects of DR results from a hormetic mechanism involving the mitochondria. Analysis of the SLCF-1 protein sequence predicts that slcf-1 encodes a plasma membrane transporter belonging to the conserved monocarboxylate transporter family. These findings suggest that inhibition of this transporter homolog in mammals might also promote a DR response.

Published

2011

17. Selective and Specific Activation of Rab5 during Endocytosis of Receptor Tyrosine Kinases

Author

Jozic, Ivan and Jozic, Ivan

Abstract

The Rab family of proteins are low molecular weight GTPases that have the ability to switch between GTP- (active) and GDP- (inactive) bound form, and in that sense act as molecular switches. Through distinct localization on various vesicles and organelles and by cycling through GTP/GDP bound forms, Rabs are able to recruit and activate numerous effector proteins, both spatially and temporally, and hence behave as key regulators of trafficking in both endocytic and biosynhtetic pathways. The Rab5 protein has been shown to regulate transport from plasma membrane to the early endosome as well as activate signaling pathways from the early endosome. This dissertation focused on understanding Rab5 activation via endocytosis of receptor tyrosine kinases (RTKs). First, tyrosine kinase activity of RTKs was linked to endosome fusion by demonstrating that tyrosine kinase inhibitors block endosome fusion and activation of Rab5, and a constitutively active form of Rab5 is able to rescue endosome fusion. However, depending on how much ligand is available at the cell surface, the receptor-ligand complexes can be internalized via a number of distinct pathways. Similarly, Rab5 was activated in a ligand-dependent concentration dependent manner via clathrin- and caveolin-mediated pathways, as well as a pathway independent of both. However, overexpression Rabex-5, a nucleotide exchange factor for Rab5, is able to rescue activation even when all of the pathways of EGF-receptor internalization were blocked. Next, the three naturally occurring splice variants of Rabex-5 selectively activated Rab5. Lastly, Rabex-5 inhibits differentiation of 3T3-L1 and PC12 cells through 1) degradation of signaling endosome via Rab5-dependent fusion with the early endosome, 2) and inhibition of signaling cascade via ubiquitination of Ras through the ZnF domain at the N-terminus of Rabex-5. In conclusion, these data shed light on complexity of the endosomal trafficking system where tyrosine kinase activity

Published

2013

18. Nutritional and Metabolic Mechanisms in the Ovary and Their Role in Mediating the Effects of Diet on Folliculogenesis: A Perspective

Author

R J, Scaramuzzi, H M, Brown, J, Dupont, Physiologie de la reproduction et des comportements [Nouzilly] (PRC), Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS), Department of Veterinary Basic Sciences, Royal Veterinary College, and Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours-Centre National de la Recherche Scientifique (CNRS)

Subjects

Leptin, endocrine system, growth-factor-alpha, [SDV]Life Sciences [q-bio], Nutritional Status, signal-transduction pathways, AMP-Activated Protein Kinases, in-vivo, insulin-receptor, Ovarian Follicle, Animals, Insulin, human granulosa-cells, [INFO]Computer Science [cs], activated-receptor-gamma, follicle-stimulating-hormone, Sheep, Ovary, Ruminants, gene-expression, Diet, Glucose, ovulation rate, protein-kinase pathway, Animal Nutritional Physiological Phenomena, Cattle, Female, Follicle Stimulating Hormone, Energy Metabolism, Signal Transduction

Abstract

Travail présenté lors de la conférence 14th Annual Conference of the European Society for Domestic Animal Reproduction (ESDAR), 15-18 sept. 2010, à Eger (Hongrie); International audience; Folliculogenesis in ruminants is a nutritionally sensitive process, and short-term increases in nutrient flux can stimulate folliculogenesis in sheep and cattle. These short-term effects are probably mediated directly at the follicular level to modify gonadotrophin-induced follicle growth and development. The follicle appears to have a number of 'nutrient sensing' mechanism that may form the link between nutrient status and folliculogenesis. This review examines the evidence for the presence of pathways that may sense nutrient flux from within the follicle including the insulin signalling pathway, adenosine monophosphate-activated kinase (AMPK), the hexosamine pathway, peroxisome proliferator-activated receptors (PPARs) and leptin. The review then assesses the available evidence concerning their mechanisms in the follicle and speculates on how these 'nutrient sensing' pathways are integrated into the FSH signalling pathways to adjust gonadotrophin-stimulated follicular function. We conclude that there is good evidence to suggest that the follicle does contain more than one functional 'nutrient sensing' pathway that have intra-follicular effects on some FSH-mediated functions such as the synthesis of oestradiol, in granulosa cells. These pathways include insulin, AMPK, and leptin. There is also a good case for the integration of PPARs in the intra-follicular sensing of nutrient flux. However, there is little evidence at present to suggest the hexosamine biosynthetic pathway has functional significance in the follicle as a sensor of nutrient flux. Further study will be required to fully understand 'nutrient sensing' pathways in the follicle and their cross-talk with FSH signalling pathways.

Published

2010

19. Expression of insulin system in the olfactory epithelium: first approaches to its role and regulation

Author

M. Caillol, F. Tan, Roland Salesse, K. Badonnel, Marie-Christine Lacroix, Christine Baly, R. Monnerie, D. Durieux, P. Congar, Nicolas Meunier, C. Schlegel-Le Poupon, Neurobiologie de l'Olfaction et de la Prise Alimentaire (NOPA), Institut National de la Recherche Agronomique (INRA), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Cytokines : structure, signalisation et prolifération tumorale, Université d'Angers (UA)-Institut National de la Santé et de la Recherche Médicale (INSERM), and ProdInra, Migration

Subjects

Male, Olfactory system, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Eating, 0302 clinical medicine, Endocrinology, Protein Isoforms, Cells, Cultured, 2. Zero hunger, 0303 health sciences, Fasting, INSULIN-RECEPTOR, INSULIN, Electrophysiology, medicine.anatomical_structure, RAT OLFACTORY MUCOSA, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], medicine.medical_specialty, Radioimmunoassay, Nutritional Status, Biology, Olfactory Receptor Neurons, 03 medical and health sciences, Cellular and Molecular Neuroscience, Olfactory mucosa, Olfactory Mucosa, Internal medicine, medicine, Animals, Humans, [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Rats, Wistar, 030304 developmental biology, Homeodomain Proteins, ELECTRO-OLFACTOGRAMME, Lamina propria, Olfactory receptor, Endocrine and Autonomic Systems, Insulin, Receptor, Insulin, Rats, Olfactory bulb, Insulin receptor, Odorants, Insulin Receptor Substrate Proteins, Trans-Activators, biology.protein, RAT, Olfactory epithelium, 030217 neurology & neurosurgery

Abstract

International audience; Food odours are major determinants for food choice; their detection is influenced by nutritional status. Among different metabolic signals, insulin plays a major role in food intake regulation. The aim of the present study was to investigate a potential role of insulin in the olfactory mucosa (OM), using ex vivo tissues and in vitro primary cultures. We first established the expression of insulin receptor (IR) in rat olfactory mucosa. Transcripts of IR-A and IR-B isoforms, as well as IRS-1 and IRS-2, were detected in OM extracts. Using immunocytochemistry, IR protein was located in olfactory receptor neurones, sustentacular and basal cells and in endothelium of the lamina propria vessels. Moreover, the insulin binding capacity of OM was quite high compared to that of olfactory bulb or liver. Besides the main pancreatic insulin source, we demonstrated insulin synthesis at a low level in the OM. Interestingly 48 h of fasting, leading to a decreased plasmatic insulin, increased the number of IR in the OM. Local insulin concentration was also enhanced. These data suggest a control of OM insulin system by nutritional status. Finally, an application of insulin on OM, aiming to mimic postprandial insulin increase, reversibly decreased the amplitude of electro-olfactogramme responses to odorants by approximately 30%. These data provide the first evidence that insulin modulates the most peripheral step of odour detection at the olfactory mucosa level.

Published

2008

20. A Genome-Wide Association Meta-Analysis of Circulating Sex Hormone-Binding Globulin Reveals Multiple Loci Implicated in Sex Steroid Hormone Regulation

Author

University of Helsinki, Institute for Molecular Medicine Finland (FIMM), Coviello, Andrea D., Haring, Robin, Wellons, Melissa, Vaidya, Dhananjay, Lehtimaki, Terho, Keildson, Sarah, Lunetta, Kathryn L., He, Chunyan, Fornage, Myriam, Lagou, Vasiliki, Mangino, Massimo, Onland-Moret, N. Charlotte, Chen, Brian, Eriksson, Joel, Garcia, Melissa, Mei, Yong, Koster, Annemarie, Lohman, Kurt, Lyytikainen, Leo-Pekka, Petersen, Ann-Kristin, Prescott, Jennifer, Stolk, Lisette, Vandenput, Liesbeth, Wood, Andrew R., Zhuang, Wei Vivian, Ruokonen, Aimo, Hartikainen, Anna-Liisa, Pouta, Anneli, Bandinelli, Stefania, Biffar, Reiner, Brabant, Georg, Cox, David G., Chen, Yuhui, Cummings, Steven, Ferrucci, Luigi, Gunter, Marc J., Hankinson, Susan E., Martikainen, Hannu, Hofman, Albert, Homuth, Georg, Illig, Thomas, Jansson, John-Olov, Johnson, Andrew D., Karasik, David, Karlsson, Magnus, Kettunen, Johannes, Kiel, Douglas P., Kraft, Peter, Liu, Jingmin, Ljunggren, Osten, Lorentzon, Mattias, Maggio, Marcello, Markus, Marcello R. P., Mellstrom, Dan, Miljkovic, Iva, Mirel, Daniel, Nelson, Sarah, Papunen, Laure Morin, Peeters, Petra H. M., Prokopenko, Inga, Raffel, Leslie, Reincke, Martin, Reiner, Alex P., Rexrode, Kathryn, Rivadeneira, Fernando, Schwartz, Stephen M., Siscovick, David, Soranzo, Nicole, Stockl, Doris, Tworoger, Shelley, Uitterlinden, Andre G., van Gils, Carla H., Vasan, Ramachandran S., Wichmann, H. -Erich, Zhai, Guangju, Bhasin, Shalender, Bidlingmaier, Martin, Chanock, Stephen J., De Vivo, Immaculata, Harris, Tamara B., Hunter, David J., Kahonen, Mika, Liu, Simin, Ouyang, Pamela, Spector, Tim D., van der Schouw, Yvonne T., Viikari, Jorma, Wallaschofski, Henri, McCarthy, Mark I., Frayling, Timothy M., Murray, Anna, Franks, Steve, Jarvelin, Marjo-Riitta, de Jong, Frank H., Raitakari, Olli, Teumer, Alexander, Ohlsson, Claes, Murabito, Joanne M., Perry, John R. B., University of Helsinki, Institute for Molecular Medicine Finland (FIMM), Coviello, Andrea D., Haring, Robin, Wellons, Melissa, Vaidya, Dhananjay, Lehtimaki, Terho, Keildson, Sarah, Lunetta, Kathryn L., He, Chunyan, Fornage, Myriam, Lagou, Vasiliki, Mangino, Massimo, Onland-Moret, N. Charlotte, Chen, Brian, Eriksson, Joel, Garcia, Melissa, Mei, Yong, Koster, Annemarie, Lohman, Kurt, Lyytikainen, Leo-Pekka, Petersen, Ann-Kristin, Prescott, Jennifer, Stolk, Lisette, Vandenput, Liesbeth, Wood, Andrew R., Zhuang, Wei Vivian, Ruokonen, Aimo, Hartikainen, Anna-Liisa, Pouta, Anneli, Bandinelli, Stefania, Biffar, Reiner, Brabant, Georg, Cox, David G., Chen, Yuhui, Cummings, Steven, Ferrucci, Luigi, Gunter, Marc J., Hankinson, Susan E., Martikainen, Hannu, Hofman, Albert, Homuth, Georg, Illig, Thomas, Jansson, John-Olov, Johnson, Andrew D., Karasik, David, Karlsson, Magnus, Kettunen, Johannes, Kiel, Douglas P., Kraft, Peter, Liu, Jingmin, Ljunggren, Osten, Lorentzon, Mattias, Maggio, Marcello, Markus, Marcello R. P., Mellstrom, Dan, Miljkovic, Iva, Mirel, Daniel, Nelson, Sarah, Papunen, Laure Morin, Peeters, Petra H. M., Prokopenko, Inga, Raffel, Leslie, Reincke, Martin, Reiner, Alex P., Rexrode, Kathryn, Rivadeneira, Fernando, Schwartz, Stephen M., Siscovick, David, Soranzo, Nicole, Stockl, Doris, Tworoger, Shelley, Uitterlinden, Andre G., van Gils, Carla H., Vasan, Ramachandran S., Wichmann, H. -Erich, Zhai, Guangju, Bhasin, Shalender, Bidlingmaier, Martin, Chanock, Stephen J., De Vivo, Immaculata, Harris, Tamara B., Hunter, David J., Kahonen, Mika, Liu, Simin, Ouyang, Pamela, Spector, Tim D., van der Schouw, Yvonne T., Viikari, Jorma, Wallaschofski, Henri, McCarthy, Mark I., Frayling, Timothy M., Murray, Anna, Franks, Steve, Jarvelin, Marjo-Riitta, de Jong, Frank H., Raitakari, Olli, Teumer, Alexander, Ohlsson, Claes, Murabito, Joanne M., and Perry, John R. B.

Published

2012

21. Comprehensive Analysis of Interactions between the Src-Associated Protein in Mitosis of 68 kDa and the Human Src-Homology 3 Proteome

Author

University of Helsinki, Haartman Institute, Asbach, Benedikt, Ludwig, Christine, Saksela, Kalle, Wagner, Ralf, University of Helsinki, Haartman Institute, Asbach, Benedikt, Ludwig, Christine, Saksela, Kalle, and Wagner, Ralf

Published

2012

22. Suppressor Of cytokine signaling 6 (SOCS6) negatively regulates Flt3 signal transduction through direct binding to phosphorylated Tyr 591 and Tyr 919 of Flt3.

Author

Kazi, Julhash U., Sun, Jianmin, Phung, Bengt, Zadjali, Fahad, Flores-Morales, Amilcar, Rönnstrand, Lars, Kazi, Julhash U., Sun, Jianmin, Phung, Bengt, Zadjali, Fahad, Flores-Morales, Amilcar, and Rönnstrand, Lars

Abstract

The receptor tyrosine kinase Flt3 is an important growth factor receptor in hematopoiesis, and gain-of-function mutations of the receptor contribute to the transformation of acute myeloid leukemia (AML). The suppressors of cytokine signaling 6 (SOCS6) is a member of the SOCS family of E3 ubiquitin ligases that can regulate receptor tyrosine kinases signal transduction. In this study we analyzed the role of SOCS6 in Flt3 signal transduction. The results show that ligand stimulation to Flt3 can induce association of SOCS6 and Flt3 and tyrosine phosphorylation of SOCS6. Phospho-peptide fishing indicates that SOCS6 binds directly to phospho-tyrosine 591 and 919 of Flt3. By using stable transfected Ba/F3 cells with Flt3 and/or SOCS6, we show that the presence of SOCS6 can enhance ubiquitination of Flt3 as well as internalization and degradation of the receptor. The presence of SOCS6 also induces weaker activation of Erk1/2 but not Akt in transfected Ba/F3 and UT-7 cells, and in OCI-AML-5 cells. The absence of SOCS6 promotes Ba/F3 and UT-7 cell proliferation induced by oncogenic internal-tandem-duplications (ITDs) of Flt3. Taken together, these results suggest that SOCS6 negatively regulates Flt3 activation and downstream Erk signaling pathway and cell proliferation.

Published

2012

23. SUMOylation Mediates the Nuclear Translocation and Signaling of the IGF-1 Receptor

Author

Sehat, Bita, Tofigh, Ali, Lin, Yingbo, Trocme, Eric, Liljedahl, Ulrika, Lagergren, Jens, Larsson, Olle, Sehat, Bita, Tofigh, Ali, Lin, Yingbo, Trocme, Eric, Liljedahl, Ulrika, Lagergren, Jens, and Larsson, Olle

Abstract

The insulin-like growth factor 1 receptor (IGF-1R) plays crucial roles in developmental and cancer biology. Most of its biological effects have been ascribed to its tyrosine kinase activity, which propagates signaling through the phosphatidylinositol 3-kinase and mitogen-activated protein kinase pathways. Here, we report that IGF-1 promotes the modification of IGF-1R by small ubiquitin-like modifier protein-1 (SUMO-1) and its translocation to the nucleus. Nuclear IGF-1R associated with enhancer-like elements and increased transcription in reporter assays. The SUMOylation sites of IGF-1R were identified as three evolutionarily conserved lysine residues-Lys(1025), Lys(1100), and Lys(1120)-in the beta subunit of the receptor. Mutation of these SUMO-1 sites abolished the ability of IGF-1R to translocate to the nucleus and activate transcription, but did not alter its kinase-dependent signaling. Thus, we demonstrate a SUMOylation-mediated mechanism of IGF-1R signaling that has potential implications for gene regulation., QC 20120329

Published

2010

24. RET-familial medullary thyroid carcinoma mutants Y791F and S891A activate a Src/JAK/STAT3 pathway, independent of glial cell line-derived neurotrophic factor

Author

Ivan Plaza Menacho, Tineke van der Sluis, Charles H.C.M. Buys, Roelof Koster, Almer M. van der Sloot, Grzegorz M. Burzynski, Bart J. L. Eggen, Wim J. Quax, Harry Hollema, Jan Osinga, Oliver Gimm, Robert M.W. Hofstra, Nanotechnology and Biophysics in Medicine (NANOBIOMED), Biopharmaceuticals, Discovery, Design and Delivery (BDDD), and Restoring Organ Function by Means of Regenerative Medicine (REGENERATE)

Subjects

Cancer Research, Protein Conformation, PROTEIN, Multiple Endocrine Neoplasia Type 2a, RECEPTOR TYROSINE KINASE, Proto-Oncogene Mas, Receptor tyrosine kinase, Immunoenzyme Techniques, Adenosine Triphosphate, DOMAIN, Neurotrophic factors, Chlorocebus aethiops, Glial cell line-derived neurotrophic factor, CRYSTAL-STRUCTURE, Phosphorylation, Receptor, Luciferases, Cells, Cultured, Oncogene Proteins, biology, INSULIN-RECEPTOR, Protein-Tyrosine Kinases, DNA-Binding Proteins, Oncology, Carcinoma, Medullary, Signal transduction, Tyrosine kinase, Proto-oncogene tyrosine-protein kinase Src, Protein Binding, Signal Transduction, STAT3 Transcription Factor, Blotting, Western, Proto-Oncogene Proteins pp60(c-src), AUTOPHOSPHORYLATION SITES, Proto-Oncogene Proteins, Animals, Humans, Immunoprecipitation, Glial Cell Line-Derived Neurotrophic Factor, Nerve Growth Factors, Thyroid Neoplasms, Cell Nucleus, MUTATIONS, Cell Membrane, Proto-Oncogene Proteins c-ret, Receptor Protein-Tyrosine Kinases, Janus Kinase 1, PROTOONCOGENE, Janus Kinase 2, Enzyme Activation, Insulin receptor, Amino Acid Substitution, HIRSCHSPRUNGS-DISEASE, Mutation, biology.protein, Cancer research, Trans-Activators, MICE LACKING GDNF

Abstract

The RET proto-oncogene encodes a receptor tyrosine kinase whose dysfunction plays a crucial role in the development of several neural crest disorders. Distinct activating RET mutations cause multiple endocrine neoplasia type 2A (MEN2A), type 2B (MEN2B), and familial medullary thyroid carcinoma (FMTC). Despite clear correlations between the mutations found in these cancer syndromes and their phenotypes, the molecular mechanisms connecting the mutated receptor to the different disease phenotypes are far from completely understood. Luciferase reporter assays in combination with immunoprecipitations, and Western and immunohistochemistry analyses were done in order to characterize the signaling properties of two FMTC-associated RET mutations, Y791F and S891A, respectively, both affecting the tyrosine kinase domain of the receptor. We show that these RET-FMTC mutants are monomeric receptors which are autophosphorylated and activated independently of glial cell line–derived neurotrophic factor. Moreover, we show that the dysfunctional signaling properties of these mutants, when compared with wild-type RET, involve constitutive activation of signal transducers and activators of transcription 3 (STAT3). Furthermore, we show that STAT3 activation is mediated by a signaling pathway involving Src, JAK1, and JAK2, differing from STAT3 activation promoted by RETC634R which was previously found to be independent of Src and JAKs. Three-dimensional modeling of the RET catalytic domain suggested that the structural changes promoted by the respective amino acids substitutions lead to a more accessible substrate and ATP-binding monomeric conformation. Finally, immunohistochemical analysis of FMTC tumor samples support the in vitro data, because nuclear localized, Y705-phosphorylated STAT3, as well as a high degree of RET expression at the plasma membrane was observed.

Published

2005

25. Lateral diffusion coefficients of separate lipid species in a ternary raft-forming bilayer: A Pfg-NMR multinuclear study

Author

Orädd, Greger, Westerman, PW, Lindblom, Göran, Orädd, Greger, Westerman, PW, and Lindblom, Göran

Abstract

By isotopical labeling lipid lateral diffusion coefficients for each of the membrane constituents, including cholesterol, have been measured by H-1, H-2, and F-19 pulsed field gradient NMR spectroscopy in macroscopically oriented lipid bilayers. This provides a means of obtaining detailed dynamic and compositional information in raft-forming lipid bilayers without introducing foreign molecules into the systems. The raft systems studied contained dioleoylphosphatidylcholine/dipalmitoylphosphatidylcholine (DPPC)/cholesterol at the molar ratios of 42.5: 42.5: 15 and 35: 35: 30 in excess water. At temperatures below 30 degrees C the raft system forms large (>1 mu m) domains of a liquid ordered (l(o)) phase, in which the lipid lateral diffusion was; 5 times slower than for the lipids in the surrounding liquid disordered (l(d)) phase. Within each domain all lipid species showed the same diffusion coefficient, despite the very different structures of cholesterol and phospholipids. DPPC partitions exclusively into the l(o) domains, whereas cholesterol and dioleoylphosphatidylcholine were distributed in both l(o) and l(d) phases. The cholesterol concentration was found to be 10-20 mol% in the l(d) domain and 30-40 mol% in the l(o) domain. Comparison of these results with data from sphingomyelin-containing systems suggests that DPPC interacts more weakly with cholesterol than does sphingomyelin.

Published

2005

26. Protein kinase C (PKC)-alpha activation inhibits PKC-zeta and mediates the action of PED/PEA-15 on glucose transport in the L6 skeletal muscle cells

Author

Claudia Miele, Stefania Santopietro, Matilde Caruso, Francesco Beguinot, Maria Alessandra Maitan, Gerolama Condorelli, Pietro Formisano, Francesco Oriente, Giovanni Vigliotta, Alessandra Trencia, Condorelli, Gerolama, Vigliotta, G, Trencia, A, Maitan, Ma, Caruso, M, Miele, C, Oriente, Francesco, Santopietro, S, Formisano, Pietro, and Beguinot, Francesco

Subjects

STIMULATION, medicine.medical_specialty, Protein Kinase C-alpha, Monosaccharide Transport Proteins, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Glucose uptake, BETA, ISOFORMS, Biology, PKC alpha, Transfection, Cell Line, Internal medicine, Insulin receptor substrate, Internal Medicine, medicine, Phosphorylation, Muscle, Skeletal, Protein kinase C, Protein Kinase C, TYROSINE PHOSPHORYLATION, Insulin, Histocompatibility Antigens Class I, Glucose transporter, Intracellular Signaling Peptides and Proteins, Skeletal muscle, PRIMARY CULTURES, INSULIN-RECEPTOR, Phosphoproteins, TRANSLOCATION, APOPTOSIS, ALPHA, Enzyme Activation, Isoenzymes, Insulin receptor, Endocrinology, medicine.anatomical_structure, Mutagenesis, biology.protein, Apoptosis Regulatory Proteins

Abstract

Overexpression of the PED/PEA-15 protein in muscle and adipose cells increases glucose transport and impairs further insulin induction. Like glucose transport, protein kinase C (PKC)-alpha and -beta are also constitutively activated and are not further stimulatable by insulin in L6 skeletal muscle cells overexpressing PED (L6(PED)). PKC-zeta features no basal change but completely loses insulin sensitivity in L6(PED). In these cells, blockage of PKC-alpha and -beta additively returns 2-deoxy-D-glucose (2-DG) uptake to the levels of cells expressing only endogenous PED (L6(WT)). Blockage of PKC-alpha and -beta also restores insulin activation of PKC-zeta in L6(PED) cells, with that of PKC-alpha sixfold more effective than PKC-beta. Similar effects on 2-DG uptake and PKC-zeta were also achieved by 50-fold overexpression of PKC-zeta in L6(PED). In L6(WT), fivefold overexpression of PKC-alpha or -beta increases basal 2-DG uptake and impairs further insulin induction with no effect on insulin receptor or insulin receptor substrate phosphorylation. In these cells, overexpression of PKC-alpha blocks insulin induction of PKC-zeta activity. PKC-beta is 10-fold less effective than PKC-alpha in inhibiting PKC-zeta stimulation. Expression of the dominant-negative K(281)-->W PKC-zeta mutant simultaneously inhibits insulin activation of PKC-zeta and 2-DG uptake in the L6(WT) cells. We conclude that activation of classic PKCs, mainly PKC-alpha, inhibits PKC-zeta and may mediate the action of PED on glucose uptake in L6 skeletal muscle cells.

Published

2001

27. Inhibition of central insulin-receptor signaling by S961 causes hyperglycemia and glucose intolerance in rats

Author

Vikram, Ajit and Jena, Gopabandhu

Published

2011

28. The Role of Insulin-Receptor Interactions in Regulation of Nutrient Utilization by Skeletal Muscle and Adipose Tissue: A Review

Author

Etherton, Terry D.

Subjects

ADIPOSE tissues, ANIMAL science

Published

1982

29. Alteration of cardiac glucose metabolism in association to low birth weight: experimental evidence in lambs with left ventricular hypertrophy.

Author

Wang KC, Lim CH, McMillen IC, Duffield JA, Brooks DA, and Morrison JL

Subjects

Animals, Biomarkers metabolism, Blotting, Western, Fatty Acids metabolism, Female, Glucose Transporter Type 1 metabolism, Glucose Transporter Type 4 metabolism, Glycogen Synthase Kinase 3 metabolism, Mitochondria metabolism, Myocardium pathology, Myocytes, Cardiac metabolism, Protein Kinases metabolism, Real-Time Polymerase Chain Reaction, Receptor, Insulin metabolism, Sheep, Glucose metabolism, Glycogen metabolism, Hypertrophy, Left Ventricular metabolism, Infant, Low Birth Weight metabolism, Myocardium metabolism

Abstract

Objective: Intrauterine growth restriction that results in low birth weight (LBW) has been linked to the onset of pathological cardiac hypertrophy. An altered transition from a fetal to an adult energy metabolism phenotype, with increased reliance on glucose rather than fatty acids for energy production, could help explain this connection. We have therefore investigated cardiac metabolism in relation to left ventricular hypertrophy in LBW lambs, at 21days after birth., Materials/methods: The expression of regulatory molecules involved in cardiac glucose and fatty acid metabolism was measured using real-time PCR and Western blotting. A section of the left ventricle was fixed for Periodic Acid Schiff staining to determine tissue glycogen content., Results: There was increased abundance of insulin signalling pathway proteins (phospho-insulin receptor, insulin receptor and phospho-Akt) and the glucose transporter (GLUT)-1, but no change in GLUT-4 or glycogen content in the heart of LBW compared to ABW lambs. There was, however, increased abundance of cardiac pyruvate dehydrogenase kinase 4 (PDK-4) in LBW compared to ABW lambs. There were no significant changes in the mRNA expression of components of the peroxisome proliferator activated receptor regulatory complex or proteins involved in fatty acid metabolism., Conclusion: We concluded that LBW induced left ventricular hypertrophy was associated with increased GLUT-1 and PDK-4, suggesting increased glucose uptake, but decreased efficacy for the conversion of glucose to ATP. A reduced capacity for energy conversion could have significant implications for vulnerability to cardiovascular disease in adults who are born LBW., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

30. A covalently linked probe to monitor local membrane properties surrounding plasma membrane proteins

Author

Miwa Umebayashi, Satoko Takemoto, Luc Reymond, Mayya Sundukova, Ruud Hovius, Annalisa Bucci, Paul A. Heppenstall, Hideo Yokota, Kai Johnsson, and Howard Riezman

Subjects

Glycosylphosphatidylinositols, nile red, Cell Membrane, Membrane Proteins, Molecular Probe Techniques, Cell Biology, gpi-anchored proteins, lipid order, organization, cell, GPI-Linked Proteins, Receptor, Insulin, insulin-receptor, activation

Abstract

We present a method probing the local membrane environment surrounding membrane proteins in the plasma membrane by linking a solvatochromic dye to the target, and provide evidence for lipid-based sorting. The insulin receptor environment changed upon insulin stimulation revealing dynamic local changes and distance dependence., Functional membrane proteins in the plasma membrane are suggested to have specific membrane environments that play important roles to maintain and regulate their function. However, the local membrane environments of membrane proteins remain largely unexplored due to the lack of available techniques. We have developed a method to probe the local membrane environment surrounding membrane proteins in the plasma membrane by covalently tethering a solvatochromic, environment-sensitive dye, Nile Red, to a GPI-anchored protein and the insulin receptor through a flexible linker. The fluidity of the membrane environment of the GPI-anchored protein depended upon the saturation of the acyl chains of the lipid anchor. The local environment of the insulin receptor was distinct from the average plasma membrane fluidity and was quite dynamic and heterogeneous. Upon addition of insulin, the local membrane environment surrounding the receptor specifically increased in fluidity in an insulin receptor-kinase dependent manner and on the distance between the dye and the receptor.