Your search keyword '"Egan, Josephine"' showing total 42 results

1. 1304-P: Quantification of Preproinsulin and Insulin Isoforms Derived from Upstream Open Reading Frames in Human Clinical Samples by Selected Reaction Monitoring Assay

Author

LIU, QING-RONG, primary, ZHU, MIN, additional, GHOSH, PARITOSH, additional, CHIA, CHEE W., additional, and EGAN, JOSEPHINE M., additional

Published

2022

2. 1320-P: Insulin Receptors and Their Signal Transduction Pathways in Choroid Plexus

Author

MAZUCANTI, CAIO, primary, KENNEDY, VERNON L., additional, CHO, ANDREW, additional, LIU, QING-RONG, additional, O’CONNELL, JENNIFER F., additional, CAMANDOLA, SIMONETTA, additional, and EGAN, JOSEPHINE M., additional

Published

2022

3. Novel Human Insulin Isoforms and Cα-peptide Product in Islets of Langerhans and Choroid Plexus

Author

Liu, Qing-Rong, primary, Zhu, Min, primary, Zhang, Pingbo, primary, Mazucanti, Caio H., primary, Huang, Nicholas S., primary, Lang, Doyle L., primary, Chen, Qinghua, primary, Auluck, Pavan, primary, Marenco, Stefano, primary, O’Connell, Jennifer F., primary, Ferrucci, Luigi, primary, Chia, Chee W., primary, and Egan, Josephine M., primary

Published

2021

4. 122-OR: Insulin and C-Peptide in Human Choroid Plexus of Type 1 Diabetes Mellitus

Author

LIU, QING-RONG, primary, ZHU, MIN, additional, MAZUCANTI, CAIO, additional, MARENCO, STEFANO, additional, and EGAN, JOSEPHINE M., additional

Published

2021

5. Incretin therapy and pancreatic pathologies: background pathology versus drug-induced pathology in rats

Author

Egan, Josephine M. and Chia, Chee W.

Subjects

Gastrointestinal hormones -- Complications and side effects -- Research, Pancreatitis -- Complications and side effects -- Research, Health

Abstract

It is essential that postmarketing surveillance be conducted for any new drug, especially if the drug is a trailblazer for a new class of compounds, so that possible safety concerns [...]

Published

2014

6. Resveratrol prevents β-cell dedifferentiation in nonhuman primates given a high-fat/high-sugar diet

Author

Fiori, Jennifer L., Shin, Yu-Kyong, Kim, Wook, Krzysik-Walker, Susan M., Gonzalez-Mariscal, Isabel, Carlson, Olga D., Sanghvi, Mitesh, Moaddel, Ruin, Farhang, Kathleen, Gadkaree, Shekhar K., Doyle, Maire E., Pearson, Kevin J., Mattison, Julie A., de Cabo, Rafael, and Egan, Josephine M.

Subjects

United States. National Institutes of Health, Pancreatic beta cells -- Physiological aspects, Blood sugar -- Health aspects, Resveratrol -- Dosage and administration, Health

Abstract

Eating a 'Westernized' diet high in fat and sugar leads to weight gain and numerous health problems, including the development of type 2 diabetes mellitus (T2DM). Rodent studies have shown that resveratrol supplementation reduces blood glucose levels, preserves B-cells in islets of Langerhans, and improves insulin action. Although rodent models are helpful for understanding β-cell biology and certain aspects of T2DM pathology, they fail to reproduce the complexity of the human disease as well as that of nonhuman primates. Rhesus monkeys were fed a standard diet (SD), or a high-fat/high-sugar diet in combination with either placebo (HFS) or resveratrol (HFS+Resv) for 24 months, and pancreata were examined before overt dysglycemia occurred. Increased glucose-stimulated insulin secretion and insulin resistance occurred in both HFS and HFS+Resv diets compared with SD. Although islet size was unaffected, there was a significant decrease in β-cells and an increase in α-cells containing glucagon and glucagon-like peptide 1 with HFS diets. Islets from HFS+Resv monkeys were morphologically similar to SD. HFS diets also resulted in decreased expression of essential β-cell transcription factors forkhead box O1 (FOXO1), NKX6-1, NKX2-2, and PDX1, which did not occur with resveratrol supplementation. Similar changes were observed in human islets where the effects of resveratrol were mediated through Sirtuin 1. These findings have implications for the management of humans with insulin resistance, prediabetes, and diabetes., In many developing countries, a rapid nutritional transition has occurred from a healthy diet, high in fiber and low in fat and calories, to calorie-dense meals, containing refined carbohydrates, red [...]

Published

2013

7. 2044-P: Loss of CB1R Protects against Streptozotocin-Induced ß-Cell Dysfunction in Mice

Author

ASEER, KANIKKAI RAJA, primary, O’CONNELL, JENNIFER F., additional, and EGAN, JOSEPHINE M., additional

Published

2020

8. 1719-P: Novel Mass Spectrometry–Based Selected Reaction Monitoring Proteomics for Analysis of Low Abundant Insulin Levels in Cerebrospinal Fluid

Author

LIU, QING-RONG, primary, ZHU, MIN, additional, CHIA, CHEE W., additional, O’CONNELL, JENNIFER F., additional, ZHANG, PINGBO, additional, and EGAN, JOSEPHINE M., additional

Published

2020

9. Cannabinoids inhibit insulin receptor signaling in pancreatic β-cells

Author

Kim, Wook, Doyle, Maire E., Liu, Zhuo, Lao, Qizong, Shin, Yu-Kyong, Carlson, Olga D., Kim, Hee Seung, Thomas, Sam, Napora, Joshua K., Lee, Eun Kyung, Moaddel, Ruin, Wang, Yan, Maudsley, Stuart, Martin, Bronwen, Kulkarni, Rohit N., and Egan, Josephine M.

Subjects

Insulin -- Receptors, Pancreatic beta cells -- Health aspects -- Physiological aspects -- Genetic aspects -- Research, Cannabinoids -- Research -- Health aspects -- Physiological aspects -- Genetic aspects, Health

Abstract

OBJECTIVE--Optimal glucose homeostasis requires exquisitely precise adaptation of the number of insulin-secreting β-cells in the islets of Langerhans. Insulin itself positively regulates β-cell proliferation in an autocrine manner through the insulin receptor (IR) signaling pathway. It is now coming to light that cannabinoid 1 receptor (CB1R) agonism/antagonism influences insulin action in Insulin-sensitive tissues. However, the cells on which the CB1Rs are expressed and their function in islets have not been firmly established. We undertook the current study to investigate if intraislet endogenous cannabinoids (ECs) regulate β-cell proliferation and if they influence insulin action. RESEARCH DESIGN AND METHODS--We measured EC production in isolated human and mouse islets and β-cell line in response to glucose and KC1. We evaluated human and mouse islets, several β-cell lines, and CB1R-null ([CB1R.sup.-/-]) mice for the presence of a fully functioning EC system. We investigated if ECs influence β-cell physiology through regulating insulin action and demonstrated the therapeutic potential of manipulation of the EC system in diabetic (db/db) mice. RESULTS--ECs are generated within β-cells, which also express CB1Rs that are hilly functioning when activated by ligands. Genetic and pharmacologic blockade of CB1R results in enhanced IR signaling through the insulin receptor substrate 2AKT pathway in β-cells and leads to increased β-cell proliferation and mass. CB1R antagonism in db/db mice results in reduced blood glucose and increased p-cell proliferation and mass, coupled with enhanced IR signaling in p-cells. Furthermore, CB1R activation impedes insulin-stimulated IR autophosphorylation on β-cells in a G[α.sub.1]-dependent manner. CONCLUSIONS--These findings provide direct evidence for a functional interaction between CB1R and IR signaling involved in the regulation of β-cell proliferation and will serve as a basis for developing new therapeutic interventions to enhance β-cell function and proliferation in diabetes., Insulin is the prime mediator of glucose homeostasis. A paucity (as occurs in type 1 diabetes) or surplus (due to excessive exogenous insulin administration or insulin-secreting tumors) of insulin causes [...]

Published

2011

10. Vasoactive intestinal peptide--null mice demonstrate enhanced sweet taste preference, dysglycelma, and reduced taste bud leptin receptor expression

Author

Martin, Bronwen, Shin, Yu-Kyong, White, Caitlin M., Ji, Sunggoan, Kim, Wook, Carlson, Olga D., Napora, Joshua K., Chadwick, Wayne, Chapter, Megan, Waschek, James A., Mattson, Mark P., Maudsley, Stuart, and Egan, Josephine M.

Subjects

Bioenergetics -- Research -- Physiological aspects -- Chemical properties -- Health aspects, Vasoactive intestinal peptides -- Physiological aspects -- Health aspects -- Chemical properties -- Research, Energy metabolism -- Research -- Physiological aspects -- Chemical properties -- Health aspects, Taste -- Physiological aspects -- Health aspects -- Chemical properties -- Research, Health

Abstract

OBJECTIVE--It is becoming apparent that there is a strong link between taste perception and energy homeostasis. Recent evidence implicates gut-related hormones in taste perception, including glucagon-like peptide 1 and vasoactive intestinal peptide (VIP). We used VIP knockout mice to investigate VIP's specific role in taste perception and connection to energy regulation. RESEARCH DESIGN AND METHODS--Body weight, food intake, and plasma levels of multiple energy-regulating hormones were measured and pancreatic morphology was determined. In addition, the immunocytochemical profile of taste cells and gustatory behavior were examined in wild-type and VIP knockout mice. RESULTS--VIP knockout mice demonstrate elevated plasma glucose, insulin, and leptin levels, with no islet β-cell number/ topography alteration. VIP and its receptors (VPAC1, VPAC2) were identified in type II taste cells of the taste bud, and VIP knockout mice exhibit enhanced taste preference to sweet tastants. VIP knockout mouse taste cells show a significant decrease in leptin receptor expression and elevated expression of glucagon-like peptide 1, which may explain sweet taste preference of VIP knockout mice. CONCLUSIONS--This study suggests that the tongue can play a direct role in modulating energy intake to correct peripheral glycemic imbalances. In this way, we could view the tongue as a sensory mechanism that is bidirectionally regulated and thus forms a bridge between available foodstuffs and the intricate hormonal balance in the animal itself., Taste perception and its relationship to glucose homeostasis begins with stimulation of taste cells located in tongue taste buds. There are five basic taste modalities: bitter, sweet, umami, salty, and [...]

Published

2010

11. Novel Human Insulin Isoforms and Cα-Peptide Product in Islets of Langerhans and Choroid Plexus.

Author

Liu, Qing-Rong, Zhu, Min, Zhang, Pingbo, Mazucanti, Caio H., Huang, Nicholas S., Lang, Doyle L., Chen, Qinghua, Auluck, Pavan, Marenco, Stefano, O'Connell, Jennifer F., Ferrucci, Luigi, Chia, Chee W., and Egan, Josephine M.

Subjects

CHOROID plexus, ISLANDS of Langerhans, AMYLIN, INSULIN, TYPE 2 diabetes, AMYLOID

Abstract

Human insulin (INS) gene diverged from the ancestral genes of invertebrate and mammalian species millions of years ago. We previously found that mouse insulin gene (Ins2) isoforms are expressed in brain choroid plexus (ChP) epithelium cells, where insulin secretion is regulated by serotonin and not by glucose. We further compared human INS isoform expression in postmortem ChP and islets of Langerhans. We uncovered novel INS upstream open reading frame isoforms and their protein products. In addition, we found a novel alternatively spliced isoform that translates to a 74-amino acid (AA) proinsulin containing a shorter 19-AA C-peptide sequence, herein designated Cα-peptide. The middle portion of the conventional C-peptide contains β-sheet (GQVEL) and hairpin (GGGPG) motifs that are not present in Cα-peptide. Islet amyloid polypeptide (IAPP) is not expressed in ChP, and its amyloid formation was inhibited in vitro more efficiently by Cα-peptide than by C-peptide. Of clinical relevance, the ratio of the 74-AA proinsulin to proconvertase-processed Cα-peptide was significantly increased in islets from type 2 diabetes mellitus autopsy donors. Intriguingly, 100 years after the discovery of insulin, we found that INS isoforms are present in ChP from insulin-deficient autopsy donors. [ABSTRACT FROM AUTHOR]

Published

2021

12. Exogenous glucose--dependent insulinotropic polypeptide worsens postprandial hyperglycemia in type 2 diabetes

Author

Chia, Chee W., Carlson, Olga D., Kim, Wook, Shin, Yu-Kyong, Charles, Cornelia P., Kim, Hee Seung, Melvin, Denise L., and Egan, Josephine M.

Subjects

Polypeptides -- Research -- Health aspects, Diabetics -- Health aspects -- Drug therapy, Type 2 diabetes -- Diagnosis -- Drug therapy -- Research, Health, Drug therapy, Diagnosis, Research, Health aspects

Abstract

OBJECTIVE--Glucose-dependent insulinotropic polypeptide (GIP), unlike glucagon-like peptide (GLP)-1, lacks glucose-lowering properties in patients with type 2 diabetes. We designed this study to elucidate the underlying pathophysiology. RESEARCH DESIGN AND METHODS--Twenty-two insulin-naive subjects with type 2 diabetes were given either synthetic human GIP (20 ng x [kg.sup.-1] x [min.sup.-1]) or placebo (normal saline) over 180 min, starting with the first bite of a mixed meal (plus 1 g of acetaminophen) on two separate occasions. Frequent blood samples were obtained over 6 h to determine plasma GIP, GLP-1, glucose, insulin, glucagon, resistin, and acetaminophen levels. RESULTS--Compared with placebo, GIP induced an early postprandial increase in insulin levels. Intriguingly, GIP also induced an early postprandial augmentation in glucagon, a significant elevation in late postprandial glucose, and a decrease in late postprandial GLP-1 levels. Resistin and acetaminophen levels were comparable in both interventions. By immunocytochemistry, GIP receptors were present on human and mouse α-cells. In αTC1 cell line, GIP induced an increase in intracellular cAMP and glucagon secretion. CONCLUSIONS--GIP, given to achieve supraphysiological plasma levels, still had an early, short-lived insulinotropic effect in type 2 diabetes. However, with a concomitant increase in glucagon, the glucose-lowering effect was lost. GIP infusion further worsened hyperglycemia postprandially, most likely through its suppressive effect on GLP-1. These findings make it unlikely that GIP or GIP receptor agonists will be useful in treating the hyperglycemia of patients with type 2 diabetes., In response to glucose and fat in digested food, two enteroendocrine hormones, glucagon-like peptide (GLP)-I and glucose-dependent insulinotropic polypeptide (GIP), are secreted from L- and K-cells, respectively, in the gut. [...]

Published

2009

13. Exendin-4 improves glycemic control, ameliorates brain and pancreatic pathologies, and extends survival in a mouse model of Huntington's disease

Author

Martin, Bronwen, Golden, Erin, Carlson, Olga D., Pistell, Paul, Zhou, Jie, Kim, Wook, Frank, Brittany P., Thomas, Sam, Chadwick, Wayne A., Greig, Nigel H., Bates, Gillian P., Sathasivam, Kirupa, Bernier, Michel, Maudsley, Stuart, Mattson, Mark P., and Egan, Josephine M.

Subjects

Diabetes -- Risk factors -- Drug therapy -- Complications and side effects -- Genetic aspects -- Patient outcomes, Hypoglycemic agents -- Dosage and administration -- Complications and side effects, Huntington's chorea -- Complications and side effects -- Patient outcomes -- Genetic aspects -- Drug therapy -- Risk factors, Health, Drug therapy, Complications and side effects, Genetic aspects, Risk factors, Patient outcomes, Dosage and administration

Abstract

OBJECTIVE--The aim of this study was to find an effective treatment for the genetic form of diabetes that is present in some Huntington's disease patients and in Huntington's disease mouse models. Huntington's disease is a neurodegenerative disorder caused by a polyghitamine expansion within the huntingtin protein. Huntington's disease patients exhibit neuronal dysfunction/degeneration, chorea, and progressive weight loss. Additionally, they suffer from abnormalities in energy metabolism affecting both the brain and periphery. Similarly to Huntington's disease patients, mice expressing the mutated human huntingtin protein also exhibit neurodegenerative changes, motor dysfunction, perturbed energy metabolism, and elevated blood glucose levels. RESEARCH DESIGN AND METHODS--Huntington's disease mice were treated with an FDA-approved antidiabetic glucagon-like peptide 1 receptor agonist, exendin-4 (Ex-4), to test whether euglycemia could be achieved, whether pancreatic dysfunction could be alleviated, and whether the mice showed any neurological benefit. Blood glucose and insulin levels and various appetite hormone concentrations were measured during the study. Additionally, motor performance and life span were quantified and mutant huntingtin (mhtt) aggregates were measured in both the pancreas and brain. RESULTS--Ex-4 treatment ameliorated abnormalities in peripheral glucose regulation and suppressed cellular pathology in both brain and pancreas in a mouse model of Huntington's disease. The treatment also improved motor function and extended the survival time of the Huntington's disease mice. These clinical improvements were correlated with reduced accumulation of mhtt protein aggregates in both islet and brain cells. CONCLUSIONS--Targeting both peripheral and neuronal deficits, Ex-4 is an attractive agent for therapeutic intervention in Huntington's disease patients suffering from diabetes., Huntington's disease is an inherited neurodegenerative disorder typified by involuntary body movements and psychiatric and cognitive abnormalities. The incidence of Huntington's disease is ~5-10 cases per 100,000 worldwide, making it [...]

Published

2009

14. Glucose and insulin measurements from the oral glucose tolerance test and mortality prediction

Author

Metter, E. Jeffrey, Windham, B. Gwen, Maggio, Marcello, Simonsick, Eleanor M., Ling, Shari M., Egan, Josephine M., and Ferrucci, Luigi

Subjects

Glucose tolerance tests -- Usage -- Health aspects -- Research -- Measurement, Dextrose -- Measurement -- Research -- Health aspects -- Usage, Insulin -- Measurement -- Research -- Usage, Glucose -- Measurement -- Research -- Health aspects -- Usage, Health, Usage, Measurement, Research, Health aspects

Abstract

OBJECTIVE--To verify what information from oral glucose tolerance tests (OGTTs) independently predicts mortality. RESEARCH DESIGN AND METHODS--A total of 1,401 initially nondiabetic participants from the Baltimore Longitudinal Study of Aging [...]

Published

2008

15. Linkage and association analyses of type 2 diabetes/impaired glucose metabolism and adiponectin serum levels in Japanese Americans from Hawaii

Author

Kovac, Ilija P., Havlik, Richard J., Foley, Daniel, Peila, Rita, Hernandez, Dena, Wavrant-De Vrieze, Fabienne, Singleton, Andrew, Egan, Josephine, Taub, Dennis, Rodriguez, Beatriz, Masaki, Kamal, Curb, J. David, Fujimoto, Wilfred Y., and Wilson, Alexander F.

Subjects

Japanese Americans -- Health aspects, Diabetes -- Research, Type 2 diabetes -- Diagnosis -- Genetic aspects, Health, Diagnosis, Genetic aspects, Health aspects

Abstract

Type 2 diabetes is a common disorder associated with obesity. Lower plasma levels of adiponectin were associated with type 2 diabetes. Candidate regions on chromosomes 1 (~70 cM) and 14 (~30 cM) were evaluated for replication of suggestive linkage results for type 2 diabetes/impaired glucose homeostasis in an independent sample of Japanese Americans. Replication of independent linkage evidence for serum levels of adiponectin on chromosome 14 was also evaluated. We investigated 529 subjects from 175 sibships who were originally part of the Honolulu Heart Program. Analyses included nonparametric linkage and association using SAGE (Statistical Analysis for Genetic Epidemiology) and FBAT (family-based test of association) programs and Monte Carlo simulation of Fisher's exact test in SAS. For type 2 diabetes/impaired glucose metabolism, nominal linkage evidence (P < 0.02) followed-up by genotypic association (P = 0.016) was found with marker D14S297 at 31.8 cM; linkage analyses using only diabetes phenotype were also nominally significant at this marker (P < 0.02). Nominal evidence for genotypic association to adiponectin serum level phenotype (P = 0.04) was found with the marker D14S1032 at 23.2 cM. The present study was limited by relatively small sample size. Nevertheless, these results corroborate earlier studies, suggesting that further research is warranted in the candidate region ~30 cM on chromosome 14., Type 2 diabetes is a genetically influenced disorder associated with obesity, generally adult onset, affecting ~7% of the U.S. population (1-4). A GENNID (Genetics of NIDDM) genome scan (5) suggested [...]

Published

2007

16. Elevated plasma glucose-dependent insulinotropic polypeptide associates with hyperinsulinemia in impaired glucose tolerance

Author

Theodorakis, Michael J., Carlson, Olga, Muller, Denis C., and Egan, Josephine M.

Subjects

Insulin -- Health aspects -- Research, Metabolic diseases -- Care and treatment -- Research -- Health aspects, Type 2 diabetes -- Care and treatment -- Research -- Health aspects, Health, Care and treatment, Research, Health aspects

Abstract

OBJECTIVE--The role of gut-derived incretin, glucose-dependent insulinotropic polypeptide (also known as gastric inhibitory peptide [GIP]), in compensatory β-cell hypersecretion during insulin-resistant states and in transition to β-cell failure in type [...]

Published

2004

17. Effects of 3 months of continuous subcutaneous administration of glucagon-like peptide 1 in elderly patients with type 2 diabetes

Author

Meneilly, Graydon S., Greig, Nigel, Tildesley, Hugh, Habener, Joel F., Egan, Josephine M., and Elahi, Dariush

Subjects

Type 2 diabetes -- Care and treatment, Glucagon -- Physiological aspects, Health, Care and treatment, Physiological aspects

Abstract

OBJECTIVE--Glucagon-like peptide 1 (GLP-1) is an insulinotropic gut hormone that, when given exogenously, may be a useful agent in the treatment of type 2 diabetes. We conducted a 3-month trial [...]

Published

2003

18. Plasma adiponectin and leptin levels, body composition, and glucose utilization in adult women with wide ranges of age and obesity

Author

Ryan, Alice S., Berman, Dora M., Nicklas, Barbara J., Sinha, Madhur, Gingerich, Ronald L., Meneilly, Grady S., Egan, Josephine M., and Elahi, Dariush

Subjects

Obesity -- Health aspects -- Measurement, Dextrose -- Measurement -- Health aspects, Overweight persons -- Health aspects -- Measurement, Leptin -- Measurement -- Health aspects, Glucose -- Measurement -- Health aspects, Health, Measurement, Health aspects

Abstract

OBJECTIVE--The purpose of this study was to determine the relationships between plasma adiponectin and leptin levels, total and central obesity, and glucose utilization across the adult age span. RESEARCH DESIGN [...]

Published

2003

19. Effect of glucagon-like peptide 1 (7.36 amide) on insulin-mediated glucose uptake in patients with type 1 diabetes. (Original Article: Pathophysiology/Complications)

Author

Meneilly, Graydon S., McIntosh, Christopher H.S., Pederson, Raymond A., Habener, Joel F., Ehlers, Mario R.W., Egan, Josephine M., and Elahi, Dariush

Subjects

Type 1 diabetes -- Physiological aspects -- Analysis, Glucose metabolism -- Analysis -- Physiological aspects, Glucagon -- Physiological aspects -- Analysis, Health, Physiological aspects, Analysis

Abstract

OBJECTIVE--To examine the insulinomimetic insulin-independent effects of glucagon-like peptide (GLP)-1 on glucose uptake in type 1 diabetic patients. RESEARCH DESIGN AND METHODS--We used the hyperinsulinemic-euglycemic clamp (480 pmol * [m.sup.-2] [...]

Published

2003

20. Effect of glucagon-like peptide 1 on non-insulin-mediated glucose uptake in the elderly patient with diabetes

Author

Meneilly, Graydon S., Mcintosh, Christopher H.S., Pederson, Raymond A., Habener, Joel F., Gingerich, Ronald, Egan, Josephine M., Finegood, Diane T., and Elahi, Dariush

Subjects

Aged -- Physiological aspects, Diabetes -- Physiological aspects -- Research, Glucose metabolism -- Physiological aspects, Health, Physiological aspects

Abstract

GRAYDON S. MENEILLY (1) CHRISTOPHER H.S. MCINTOSH (2) RAYMOND A. PEDERSON (2) JOEL F. HABENER (6,7) RONALD GINGERICH (5) JOSEPHINE M. EGAN (4) DIANE T. FINEGOOD (3) DARIUSH ELAHI (4,6) [...]

Published

2001

21. Altered Extracellular Vesicle Concentration, Cargo, and Function in Diabetes

Author

Freeman, David W., primary, Noren Hooten, Nicole, additional, Eitan, Erez, additional, Green, Jamal, additional, Mode, Nicolle A., additional, Bodogai, Monica, additional, Zhang, Yongqing, additional, Lehrmann, Elin, additional, Zonderman, Alan B., additional, Biragyn, Arya, additional, Egan, Josephine, additional, Becker, Kevin G., additional, Mattson, Mark P., additional, Ejiogu, Ngozi, additional, and Evans, Michele K., additional

Published

2018

22. Insulin Resistance Is Associated With Reduced Mitochondrial Oxidative Capacity Measured by 31P-Magnetic Resonance Spectroscopy in Participants Without Diabetes From the Baltimore Longitudinal Study of Aging

Author

Fabbri, Elisa, primary, Chia, Chee W., additional, Spencer, Richard G., additional, Fishbein, Kenneth W., additional, Reiter, David A., additional, Cameron, Donnie, additional, Zane, Ariel C., additional, Moore, Zenobia A., additional, Gonzalez-Freire, Marta, additional, Zoli, Marco, additional, Studenski, Stephanie A., additional, Kalyani, Rita R., additional, Egan, Josephine M., additional, and Ferrucci, Luigi, additional

Published

2016

23. Impaired Insulin Secretion and Increased Insulin Sensitivity in Familial Maturity-Onset Diabetes of the Young 4 (Insulin Promoter Factor 1 Gene)

Author

Clocquet, Astrid R., Egan, Josephine M., Stoffers, Doris A., Muller, Denis C., Wideman, Laurie, Chin, Gail A., Clarke, William L., Hanks, John B., Habener, Joel F., and Elahi, Dariush

Subjects

Diabetes -- Research, Pancreas -- Secretions, Insulin resistance -- Physiological aspects, Health

Abstract

Diabetes resulting from heterozygosity for an inactivating mutation of the homeodomain transcription factor insulin promoter factor 1 (IPF-1) is due to a genetic defect of [Beta]-cell function referred to as [...]

Published

2000

24. Insulinotropic Glucagon-Like Peptide-1 Agonists Stimulate Expression of Homeodomain Protein IDX-1 and Increase Islet Size in Mouse Pancreas

Author

STOFFERS, DORIS A., KIEFFER, TIMOTHY J., HUSSAIN, MEHBOOB A., DRUCKER, DANIEL J., BONNER-WEIR, SUSAN, HABENER, JOEL F., and EGAN, JOSEPHINE M.

Subjects

Diabetes -- Care and treatment, Glucagon -- Health aspects, Peptides -- Health aspects, Health

Abstract

A hallmark of diabetes is a reduction in the mass of the pancreatic [Beta] cells that produce insulin. [Beta] cells are replaced by the replication of pre-existing [Beta] cells and [...]

Published

2000

25. Common variants at 10 genomic loci influence hemoglobin A1C levels via glycemic and nonglycemic pathways

Author

Soranzo, Nicole, Sanna, Serena, Wheeler, Eleanor, Gieger, Christian, Radke, Dörte, Dupuis, Josée, Bouatia-Naji, Nabila, Langenberg, Claudia, Prokopenko, Inga, Stolerman, Elliot, Sandhu, Manjinder S., Heeney, Matthew M., Devaney, Joseph M., Reilly, Muredach P., Ricketts, Sally L., Stewart, Alexandre F.R., Voight, Benjamin F., Willenborg, Christina, Wright, Benjamin, Altshuler, David, Arking, Dan, Balkau, Beverley, Barnes, Daniel, Boerwinkle, Eric, Böhm, Bernhard, Bonnefond, Amélie, Bonnycastle, Lori L., Boomsma, Dorret I., Bornstein, Stefan R., Böttcher, Yvonne, Bumpstead, Suzannah, Burnett-Miller, Mary Susan, Campbell, Harry, Cao, Antonio, Chamber, John, Clark, Robert, Collins, Francis S., Coresh, Josef, de Geus, Eco J.C., Dei, Mariano, Deloukas, Panos, Döring, Angela, Egan, Josephine M., Elosua, Roberto, Ferrucci, Luigi, Forouhi, Nita, Fox, Caroline S., Franklin, Christopher, Grazia Franzosi, Maria, Gallina, Sophie, Goel, Anuj, Graessler, Jürgen, Grallert, Harald, Greinacher, Andreas, Hadley, David, Hall, Alistair, Hamsten, Anders, Hayward, Caroline, Heath, Simon, Herder, Christian, Homuth, Georg, Hottenga, Jouke-Jan, Hunter-Merrill, Rachel, Illig, Thomas, Jackson, Anne U., Jula, Antti, Kleber, Marcus, Knouff, Christopher W., Kong, Augustine, Kooner, Jaspal, Köttgen, Anna, Kovacs, Peter, Krohn, Knut, Kühnel, Brigitte, Kuusisto, Johanna, Laakso, Markku, Lathrop, Mark, Lecoeur, Cécile, Li, Man, Li, Mingyao, Loos, Ruth J.F., Luan, Jian'an, Lyssenko, Valeriya, Mägi, Reedik, Magnusson, Patrik K.E., Mälarstig, Anders, Mangino, Massimo, Martínez-Larrad, María Teresa, März, Winfried, McArdle, Wendy L., McPherson, Ruth, Meisinger, Christa, Meitinger, Thomas, Melander, Olle, Mohlke, Karen L., Mooser, Vincent E., Morken, Mario A., Narisu, Narisu, Nathan, David M., Nauck, Matthias, O'Donnell, Chris, Oexle, Konrad, Olla, Nazario, Pankow, James S., Payne, Felicity, Peden, John F., Pedersen, Nancy L., Peltonen, Leena, Perola, Markus, Polasek, Ozren, Porcu, Eleonora, Rader, Daniel J., Rathmann, Wolfgang, Ripatti, Samuli, Rocheleau, Ghislain, Roden, Michael, Rudan, Igor, Salomaa, Veikko, Saxena, Richa, Schlessinger, David, Schunkert, Heribert, Schwarz, Peter, Seedorf, Udo, Selvin, Elizabeth, Serrano-Ríos, Manuel, Shrader, Peter, Silveira, Angela, Siscovick, David, Song, Kjioung, Spector, Timothy D., Stefansson, Kari, Steinthorsdottir, Valgerdur, Strachan, David P., Strawbridge, Rona, Stumvoll, Michael, Surakka, Ida, Swift, Amy J., Tanaka, Toshiko, Teumer, Alexander, Thorleifsson, Gudmar, Thorsteinsdottir, Unnur, Tönjes, Anke, Usala, Gianluca, Vitart, Veronique, Völzke, Henry, Wallaschofski, Henri, Waterworth, Dawn M., Watkins, Hugh, Wichmann, H-Erich, Wild, Sarah H., Willemsen, Gonneke, Williams, Gordon H., Wilson, James F., Winkelmann, Juliane, Wright, Alan F., Zabena, Carina, Zhao, Jing Hua, Epstein, Stephen E., Erdmann, Jeanette, Hakonarson, Hakon H., Kathiresan, Sekar, Khaw, Kay-Tee, Roberts, Robert, Samani, Nilesh J., Fleming, Mark D., Sladek, Robert, Abecasis, Gonçalo, Boehnke, Michael, Froguel, Philippe, Groop, Leif, McCarthy, Mark I., Kao, W.H. Linda, Florez, Jose C., Uda, Manuela, Wareham, Nicholas J., Barroso, Inês, and Meigs, James B.

Subjects

endocrine system diseases, nutritional and metabolic diseases

Abstract

OBJECTIVE Glycated hemoglobin (HbA1c), used to monitor and diagnose diabetes, is influenced by average glycemia over a 2- to 3-month period. Genetic factors affecting expression, turnover, and abnormal glycation of hemoglobin could also be associated with increased levels of HbA1c. We aimed to identify such genetic factors and investigate the extent to which they influence diabetes classification based on HbA1c levels.\ud \ud RESEARCH DESIGN AND METHODS We studied associations with HbA1c in up to 46,368 nondiabetic adults of European descent from 23 genome-wide association studies (GWAS) and 8 cohorts with de novo genotyped single nucleotide polymorphisms (SNPs). We combined studies using inverse-variance meta-analysis and tested mediation by glycemia using conditional analyses. We estimated the global effect of HbA1c loci using a multilocus risk score, and used net reclassification to estimate genetic effects on diabetes screening.\ud \ud RESULTS Ten loci reached genome-wide significant association with HbA1c, including six new loci near FN3K (lead SNP/P value, rs1046896/P = 1.6 × 10−26), HFE (rs1800562/P = 2.6 × 10−20), TMPRSS6 (rs855791/P = 2.7 × 10−14), ANK1 (rs4737009/P = 6.1 × 10−12), SPTA1 (rs2779116/P = 2.8 × 10−9) and ATP11A/TUBGCP3 (rs7998202/P = 5.2 × 10−9), and four known HbA1c loci: HK1 (rs16926246/P = 3.1 × 10−54), MTNR1B (rs1387153/P = 4.0 × 10−11), GCK (rs1799884/P = 1.5 × 10−20) and G6PC2/ABCB11 (rs552976/P = 8.2 × 10−18). We show that associations with HbA1c are partly a function of hyperglycemia associated with 3 of the 10 loci (GCK, G6PC2 and MTNR1B). The seven nonglycemic loci accounted for a 0.19 (% HbA1c) difference between the extreme 10% tails of the risk score, and would reclassify ∼2% of a general white population screened for diabetes with HbA1c.\ud \ud CONCLUSIONS GWAS identified 10 genetic loci reproducibly associated with HbA1c. Six are novel and seven map to loci where rarer variants cause hereditary anemias and iron storage disorders. Common variants at these loci likely influence HbA1c levels via erythrocyte biology, and confer a small but detectable reclassification of diabetes diagnosis by HbA1c.

Published

2010

26. Glucagon-Like Peptide 1 and Exendin-4 Convert Pancreatic AR42J Cells Into Glucagon- and Insulin-Producing Cells

Author

Zhou, Jie, Wang, Xiaolin, Pineyro, Marco A., and Egan, Josephine M.

Subjects

Cell differentiation -- Causes of, Peptide hormones -- Physiological aspects, Islands of Langerhans -- Research, Health

Abstract

In this article, we show that glucagon-like peptide 1 (GLP-1) can induce AR42J cells to differentiate into insulin, pancreatic polypeptide, and glucagon-positive cells. In their natural state, these cells, which [...]

Published

1999

27. Glucagon-Like Protein-1 Regulates PDX-1 Protein in Insulinoma Cells

Author

WANG, XIAOLIN, ZHOU, JIE, CAHILL, CATHERINE, BERNIER, MICHEL, and EGAN, JOSEPHINE M

Subjects

Diabetes -- Research, Health

Abstract

Glucagon-like peptide-1 (GLP-1) increases not only insulin biosynthesis and secretion but it also increases transcription of genes encoding for insulin, GLUT2 and glucokinase. As these genes are regulated by the [...]

Published

1999

28. Insulin Resistance Is Associated With Reduced Mitochondrial Oxidative Capacity Measured by 31P-Magnetic Resonance Spectroscopy in Participants Without Diabetes From the Baltimore Longitudinal Study of Aging.

Author

Fabbri, Elisa, Chia, Chee W., Spencer, Richard G., Fishbein, Kenneth W., Reiter, David A., Cameron, Donnie, Zane, Ariel C., Moore, Zenobia A., Gonzalez-Freire, Marta, Zoli, Marco, Studenski, Stephanie A., Kalyani, Rita R., Egan, Josephine M., and Ferrucci, Luigi

Subjects

DIABETES, INSULIN resistance, MITOCHONDRIAL pathology, NUCLEAR magnetic resonance spectroscopy, GLUCOSE tolerance tests, HYPERGLYCEMIA, PREDIABETIC state, AGING, LONGITUDINAL method, MAGNETIC resonance imaging, MITOCHONDRIA, RESEARCH funding

Abstract

Whether individuals with insulin resistance (IR) but without criteria for diabetes exhibit reduced mitochondrial oxidative capacity is unclear; addressing this question could guide research for new therapeutics. We investigated 248 participants without diabetes from the Baltimore Longitudinal Study of Aging (BLSA) to determine whether impaired mitochondrial capacity is associated with prediabetes, IR, and duration and severity of hyperglycemia exposure. Mitochondrial capacity was assessed as the postexercise phosphocreatine recovery time constant (τPCr) by 31P-magnetic resonance spectroscopy, with higher τPCr values reflecting reduced capacity. Prediabetes was defined using the American Diabetes Association criteria from fasting and 2-h glucose measurements. IR and sensitivity were calculated using HOMA-IR and Matsuda indices. The duration and severity of hyperglycemia exposure were estimated as the number of years from prediabetes onset and the average oral glucose tolerance test (OGTT) 2-h glucose measurement over previous BLSA visits. Covariates included age, sex, body composition, physical activity, and other confounders. Higher likelihood of prediabetes, higher HOMA-IR, and lower Matsuda index were associated with longer τPCr. Among 205 participants with previous OGTT data, greater severity and longer duration of hyperglycemia were independently associated with longer τPC In conclusion, in individuals without diabetes a more impaired mitochondrial capacity is associated with greater IR and a higher likelihood of prediabetes. [ABSTRACT FROM AUTHOR]

Published

2017

29. Hyperglycemia Predicts Persistently Lower Muscle Strength With Aging

Author

Kalyani, Rita Rastogi, primary, Metter, E. Jeffrey, additional, Egan, Josephine, additional, Golden, Sherita H., additional, and Ferrucci, Luigi, additional

Published

2014

30. No Interactions Between Previously Associated 2-Hour Glucose Gene Variants and Physical Activity or BMI on 2-Hour Glucose Levels

Author

Scott, Robert A., primary, Chu, Audrey Y., additional, Grarup, Niels, additional, Manning, Alisa K., additional, Hivert, Marie-France, additional, Shungin, Dmitry, additional, Tönjes, Anke, additional, Yesupriya, Ajay, additional, Barnes, Daniel, additional, Bouatia-Naji, Nabila, additional, Glazer, Nicole L., additional, Jackson, Anne U., additional, Kutalik, Zoltán, additional, Lagou, Vasiliki, additional, Marek, Diana, additional, Rasmussen-Torvik, Laura J., additional, Stringham, Heather M., additional, Tanaka, Toshiko, additional, Aadahl, Mette, additional, Arking, Dan E., additional, Bergmann, Sven, additional, Boerwinkle, Eric, additional, Bonnycastle, Lori L., additional, Bornstein, Stefan R., additional, Brunner, Eric, additional, Bumpstead, Suzannah J., additional, Brage, Soren, additional, Carlson, Olga D., additional, Chen, Han, additional, Chen, Yii-Der Ida, additional, Chines, Peter S., additional, Collins, Francis S., additional, Couper, David J., additional, Dennison, Elaine M., additional, Dowling, Nicole F., additional, Egan, Josephine S., additional, Ekelund, Ulf, additional, Erdos, Michael R., additional, Forouhi, Nita G., additional, Fox, Caroline S., additional, Goodarzi, Mark O., additional, Grässler, Jürgen, additional, Gustafsson, Stefan, additional, Hallmans, Göran, additional, Hansen, Torben, additional, Hingorani, Aroon, additional, Holloway, John W., additional, Hu, Frank B., additional, Isomaa, Bo, additional, Jameson, Karen A., additional, Johansson, Ingegerd, additional, Jonsson, Anna, additional, Jørgensen, Torben, additional, Kivimaki, Mika, additional, Kovacs, Peter, additional, Kumari, Meena, additional, Kuusisto, Johanna, additional, Laakso, Markku, additional, Lecoeur, Cécile, additional, Lévy-Marchal, Claire, additional, Li, Guo, additional, Loos, Ruth J.F., additional, Lyssenko, Valeri, additional, Marmot, Michael, additional, Marques-Vidal, Pedro, additional, Morken, Mario A., additional, Müller, Gabriele, additional, North, Kari E., additional, Pankow, James S., additional, Payne, Felicity, additional, Prokopenko, Inga, additional, Psaty, Bruce M., additional, Renström, Frida, additional, Rice, Ken, additional, Rotter, Jerome I., additional, Rybin, Denis, additional, Sandholt, Camilla H., additional, Sayer, Avan A., additional, Shrader, Peter, additional, Schwarz, Peter E.H., additional, Siscovick, David S., additional, Stančáková, Alena, additional, Stumvoll, Michael, additional, Teslovich, Tanya M., additional, Waeber, Gérard, additional, Williams, Gordon H., additional, Witte, Daniel R., additional, Wood, Andrew R., additional, Xie, Weijia, additional, Boehnke, Michael, additional, Cooper, Cyrus, additional, Ferrucci, Luigi, additional, Froguel, Philippe, additional, Groop, Leif, additional, Kao, W.H. Linda, additional, Vollenweider, Peter, additional, Walker, Mark, additional, Watanabe, Richard M., additional, Pedersen, Oluf, additional, Meigs, James B., additional, Ingelsson, Erik, additional, Barroso, Inês, additional, Florez, Jose C., additional, Franks, Paul W., additional, Dupuis, Josée, additional, Wareham, Nicholas J., additional, and Langenberg, Claudia, additional

Published

2012

31. Exogenous Glucose–Dependent Insulinotropic Polypeptide Worsens Post prandial Hyperglycemia in T ype 2 Diabetes

Author

Chia, Chee W., primary, Carlson, Olga D., additional, Kim, Wook, additional, Shin, Yu-Kyong, additional, Charles, Cornelia P., additional, Kim, Hee Seung, additional, Melvin, Denise L., additional, and Egan, Josephine M., additional

Published

2009

32. Hyperglycemia Predicts Persistently Lower Muscle Strength With Aging.

Author

Kalyani, Rita Rastogi, Metter, E. Jeffrey, Egan, Josephine, Golden, Sherita H., and Ferrucci, Luigi

Subjects

HYPERGLYCEMIA, MUSCLE strength, PHYSIOLOGICAL aspects of aging, KNEE anatomy, MUSCLES, PHYSICAL activity, GLYCOSYLATED hemoglobin, REGRESSION analysis

Abstract

OBJECTIVE Persons with diabetes have accelerated muscle loss compared with their counterparts. The relationship of hyperglycemia per se to declines in muscle function has not been explored yet has implications for developing appropriate intervention strategies to prevent muscle loss. RESEARCH DESIGN AND METHODS We examined 984 participants aged 25-96 years in the Baltimore Longitudinal Study of Aging (2003-2011) with HbA1c, knee extensor strength (isokinetic dynamometer), and lean body mass (DEXA) measured at baseline. Participants had repeated measurements up to 7.5 years later. Muscle quality was defined as knee extensor strength/leg lean mass. Participants were categorized by HbA1c quartile (<5.5, 5.5-5.79, 5.8-6.09, and ≥6.1% or <37, 37-40, 40-43, and ≥43 mmol/mol). Mixed-effects regression models were used to examine the regression of muscle outcomes on HbA1c. RESULTS Muscle strength and quality were significantly lower across HbA1c quartiles (both P < 0.001), without differences in muscle mass at baseline. Comparing highest versus lowest HbA1c quartiles and adjusting for age, race, sex, weight, and height, strength was significantly lower (-4.70 ± 2.30 N ⋅ m; P value trend = 0.02) and results were unchanged after adjustment for physical activity (P value trend = 0.045) but of borderline significance after additional adjustment for peripheral neuropathy (P value trend = 0.05). Adjusting for demographics, muscle quality was significantly lower (20.32 ± 0.15 N ⋅ m/kg; P value trend = 0.02) in the highest versus lowest HbA1c quartiles, but differences were attenuated after adjusting for weight and height (20.25 ± 0.15 N ⋅ m/kg; P value trend = 0.07). Muscle mass measures were similar across HbA1c quartiles. CONCLUSIONS Hyperglycemia is associated with persistently lower muscle strength with aging, but this effect may be mediated, at least in part, by peripheral neuropathy. Future studies should explore if better glycemic control can preserve muscle function in diabetes. [ABSTRACT FROM AUTHOR]

Published

2015

33. Effect of Glucagon-Like Peptide 1 (7-36 Amide) on Insulin-Mediated Glucose Uptake in Patients With Type 1 Diabetes

Author

Meneilly, Graydon S., primary, McIntosh, Christopher H.S., additional, Pederson, Raymond A., additional, Habener, Joel F., additional, Ehlers, Mario R.W., additional, Egan, Josephine M., additional, and Elahi, Dariush, additional

Published

2003

34. Cannabinoids Inhibit Insulin Receptor Signaling in Pancreatic β-Cells.

Author

Wook Kim, Doyle, Máire E., Zhuo Liu, Qizong Lao, Yu-Kyong Shin, Carlson, Olga D., Hee Seung Kim, Thomas, Sam, Napora, Joshua K., Eun Kyung Lee, Moaddel, Ruin, Yan Wang, Maudsley, Stuart, Martin, Bronwen, Kulkarni, Rohit N., and Egan, Josephine M.

Subjects

HOMEOSTASIS, CANNABINOIDS, CANNABIS (Genus), CELL proliferation, INSULIN

Abstract

OBJECTIVE--Optimal glucose homeostasis requires exquisitely precise adaptation of the number of insulin-secreting β-cells in the islets of Langerhans. Insulin itself positively regulates β-cell proliferation in an autocrine manner through the insulin receptor (IR) signaling pathway. It is now coming to light that cannabinoid 1 receptor (CBIR) agonism/antagonism influences insulin action in insulin-sensitive tissues. However, the cells on which the CBIRs are expressed and their function in islets have not been firmly established. We undertook the current study to investigate if intraislet endogenous cannabinoids (ECs) regulate β-cell proliferation and if they influence insulin action. RESEARCH DESIGN AND METHODS--We measured EC production in isolated human and mouse islets and β-cell line in response to glucose and KC1. We evaluated human and mouse islets, several β-cell lines, and CB1R-null (CB1R-/-) mice for the presence of a fully functioning EC system. We investigated if ECs influence β-cell physiology through regulating insulin action and demonstrated the therapeutic potential of manipulation of the EC system in diabetic (db/db) mice. RESULTS--ECs are generated within β-cells, which also express CBIRs that are fully functioning when activated by ligands. Genetic and pharmacologic blockade of CBIR results in enhanced IR signaling through the insulin receptor substrate 2-AKT pathway in β-cells and leads to increased β-cell proliferation and mass. CBIR antagonism in db/db mice results in reduced blood glucose and increased β-cell proliferation and mass, coupled with enhanced IR signaling in β-cells. Furthermore, CBIR activation impedes insulin-stimulated IR autophosphorylation on β-cells in a Gαi-dependent manner. CONCLUSIONS--These findings provide direct evidence for a functional interaction between CB1R and IR signaling involved in the regulation of β-cell proliferation and will serve as a basis for developing new therapeutic interventions to enhance β-cell function and proliferation in diabetes. [ABSTRACT FROM AUTHOR]

Published

2011

35. Exogenous glucose-dependent insulinotropic polypeptide worsens post prandial hyperglycemia in type 2 diabetes.

Author

Chia CW, Carlson OD, Kim W, Shin YK, Charles CP, Kim HS, Melvin DL, Egan JM, Chia, Chee W, Carlson, Olga D, Kim, Wook, Shin, Yu-Kyong, Charles, Cornelia P, Kim, Hee Seung, Melvin, Denise L, and Egan, Josephine M

Abstract

Objective: Glucose-dependent insulinotropic polypeptide (GIP), unlike glucagon-like peptide (GLP)-1, lacks glucose-lowering properties in patients with type 2 diabetes. We designed this study to elucidate the underlying pathophysiology.Research Design and Methods: Twenty-two insulin-naïve subjects with type 2 diabetes were given either synthetic human GIP (20 ng x kg(-1) x min(-1)) or placebo (normal saline) over 180 min, starting with the first bite of a mixed meal (plus 1 g of acetaminophen) on two separate occasions. Frequent blood samples were obtained over 6 h to determine plasma GIP, GLP-1, glucose, insulin, glucagon, resistin, and acetaminophen levels.Results: Compared with placebo, GIP induced an early postprandial increase in insulin levels. Intriguingly, GIP also induced an early postprandial augmentation in glucagon, a significant elevation in late postprandial glucose, and a decrease in late postprandial GLP-1 levels. Resistin and acetaminophen levels were comparable in both interventions. By immunocytochemistry, GIP receptors were present on human and mouse alpha-cells. In alphaTC1 cell line, GIP induced an increase in intracellular cAMP and glucagon secretion. CONCLUSIONS; GIP, given to achieve supraphysiological plasma levels, still had an early, short-lived insulinotropic effect in type 2 diabetes. However, with a concomitant increase in glucagon, the glucose-lowering effect was lost. GIP infusion further worsened hyperglycemia postprandially, most likely through its suppressive effect on GLP-1. These findings make it unlikely that GIP or GIP receptor agonists will be useful in treating the hyperglycemia of patients with type 2 diabetes. [ABSTRACT FROM AUTHOR]

Published

2009

36. Glucagon-Like Peptide 1 and Exendin-4 Convert Pancreatic AR42J Cells Into Glucagon- and Insulin-Producing Cells.

Author

Jie ghou, Xiaolin Wang, Pineyro, Marco A., and Egan, Josephine M.

Subjects

GLUCAGON-like peptide 1, PANCREATIC cytology, GLUCAGON, INSULIN, PHYSIOLOGY, SECRETION

Abstract

Investigates whether glucagon-like peptide 1 (GLP-1) and exendin-4 convert pancreatic AR42J cells into glucagon- and insulin-producing cells. Effects of GLP-1 and exendin-4 on islet hormone expression; Change in amylase concentration upon incubation of AR42J cells with dexamethasone; Influence of GLP-1 on amylase release from dexamethasone-treated cells.

Published

1999

37. Cannabinoids Inhibit Insulin Receptor Signaling in Pancreatic \(\beta\)-Cells

Author

Doyle, Máire E., Liu, Zhuo, Lao, Qizong, Shin, Yu-Kyong, Carlson, Olga D., Thomas, Sam, Napora, Joshua K., Moaddel, Ruin, Maudsley, Stuart, Martin, Bronwen, Egan, Josephine M., Kim, Wookhyun, Kim, Hee Seung, Lee, Eun-Kyung, Wang, Yan, and Kulkarni, Rohit Narayan

Abstract

Objective: Optimal glucose homeostasis requires exquisitely precise adaptation of the number of insulin-secreting \(\beta\)-cells in the islets of Langerhans. Insulin itself positively regulates \(\beta\)-cell proliferation in an autocrine manner through the insulin receptor (IR) signaling pathway. It is now coming to light that cannabinoid 1 receptor (CB1R) agonism/antagonism influences insulin action in insulin-sensitive tissues. However, the cells on which the CB1Rs are expressed and their function in islets have not been firmly established. We undertook the current study to investigate if intraislet endogenous cannabinoids (ECs) regulate \(\beta\)-cell proliferation and if they influence insulin action. Research Design and Methods: We measured EC production in isolated human and mouse islets and \(\beta\)-cell line in response to glucose and KCl. We evaluated human and mouse islets, several \(\beta\)-cell lines, and CB1R-null (CB1R\(^{−/−}\)) mice for the presence of a fully functioning EC system. We investigated if ECs influence \(\beta\)-cell physiology through regulating insulin action and demonstrated the therapeutic potential of manipulation of the EC system in diabetic (db/db) mice. Results: ECs are generated within \(\beta\)-cells, which also express CB1Rs that are fully functioning when activated by ligands. Genetic and pharmacologic blockade of CB1R results in enhanced IR signaling through the insulin receptor substrate 2-AKT pathway in \(\beta\)-cells and leads to increased \(\beta\)-cell proliferation and mass. CB1R antagonism in db/db mice results in reduced blood glucose and increased \(\beta\)-cell proliferation and mass, coupled with enhanced IR signaling in \(\beta\)-cells. Furthermore, CB1R activation impedes insulin-stimulated IR autophosphorylation on \(\beta\)-cells in a G\(\alpha_i\)-dependent manner. Conclusions: These findings provide direct evidence for a functional interaction between CB1R and IR signaling involved in the regulation of \(\beta\)-cell proliferation and will serve as a basis for developing new therapeutic interventions to enhance \(\beta\)-cell function and proliferation in diabetes.

Published

2011

38. 2135-P: Genetic Ablation of CB1R Protects against Streptozotocin-Induced ß-Cell Destruction in Mice.

Author

ASEER, KANIKKAI RAJA and EGAN, JOSEPHINE M.

Abstract

Approximately 1.25 million Americans have type 1 diabetes mellitus (T1DM), resulting from β-cell destruction. There is no known way to prevent it or to stop destruction of any remaining β-cells. Although the cannabinoid system, specifically cannabinoid 1 receptor (CB1R), is implicated in obesity and T2DM, its role, if any, in T1DM has not been studied. To address this, we induced β-cell destruction in wild type mice (WT: n=8) and mice in which CB1R was genetically nullified in β-cells only (β-CB1R-/-: n=8) in adulthood by five injections of streptozotocin (50 mg/kg intraperitoneally [IP]), a toxin selective for β-cells. We found that β-CB1R-/- mice had random blood glucose (BG) levels in the range of 137-289 mg/dL throughout the study period (28 days) as well as preserved insulin secretion with superior glucose tolerance after IP glucose (2g/kg) at day 8, 15 or 27, relative to their (random BG 500-600 mg/dL) WT littermates. CB1R knockout drove significant increases in pancreatic islet autophagic activity based on increased accumulation of autophagosome hallmarks (LC3B, Beclin-1, ATG5 and ATG7) and reduced p62 expression. Insulin and LC3B were colocalized in CB1R-deficient β-cells. Remarkably, the islets did not show the upregulation of ER unfolded protein response, which was present in β-cells of WT mice, while exerting the induction of protective chaperones. These anti-stress functions were accompanied by increased phosphorylation of AKT (ser) 473 and ERK in β-cells, which reveals a previously unrecognized route for PI3K-AKT pathway to activate the anti-apoptotic NFkB/p65 signaling that coordinately is permissive to β-cell survival. We conclude that CB1R nullification restores autophagy machinery as a novel signaling pathway to counteract ER stress-mediated cell death and confers resistance to β-cell destruction. We propose that CB1R is a potential therapeutic target during the honeymoon phase of T1DM. Disclosure: K. Aseer: None. J.M. Egan: None. [ABSTRACT FROM AUTHOR]

Published

2019

39. 1895-P: The Role of Endocannabinoid Receptor 1 (CB1R) in the Insulin Signaling Pathway.

Author

KIM, YOO and EGAN, JOSEPHINE M.

Abstract

Cannabinoid 1 receptors (CB1Rs) are G protein-coupled receptors that are present in peripheral organs such as liver, pancreas, adipose tissue and skeletal muscle where they are involved in fine-tuning many metabolic functions. It was previously reported that liver-specific genetic deletion of CB1R (hCNR1-/-) mice fed high fat diets (HFD) had similar body weight to HFD-fed hCNR1+/+ mice, but they retained insulin sensitivity comparable to normal chow-fed (NCD) hCNR1+/+ mice. Therefore, this study was undertaken to uncover how hCB1Rs impact the insulin signaling pathway. Male hCNR1-/- and hCNR1+/+ mice were fed with a high fat high sugar diet (HFSD: N = 8-12) for 15 weeks. In contrast with the previous study of HFD only, HFSD-fed hCNR1-/- mice had less body weight gain than HFSD-fed hCNR1+/+ mice (25.1±2.7 vs. 19.8±1.7g), less fat accumulation in the liver, 1.3-fold increase in glucose disposal and 1.7-fold increase in insulin sensitivity compared to HFSD-fed hCNR1+/+ mice. Further study demonstrated that the lack of hepatic CB1R resulted in upregulated phosphorylation in liver of protein kinase B (AKT), causing activation of downstream target molecules, such as proline-rich AKT substrate 40 (PRAS40) in the mammalian target of rapamycin complex 1 (mTORC1). Similarly, primary hepatocytes isolated from hCNR1-/- mice had increased amounts of phosphorylated AKT and PRAS40 in comparison to hepatocytes from hCNR1+/+ mice. The co-immunoprecipitation studies clearly revealed hepatic CB1R modulates insulin signaling by the association or dissociation of the components of mTORC1. In support of these data, the deficiency of hepatic CB1R leads to upregulation of phosphoinositide 3-kinase (PI3K) class IB, p110γ, resulting in increased association between p110γ and G-protein beta. These findings indicate that genetic deletion of hepatic CB1R contributes to improved glucose homeostasis. Therefore, modulation of CB1R activity in liver may be a useful therapeutic in obese and diabetic individuals. Disclosure: Y. Kim: None. J.M. Egan: None. [ABSTRACT FROM AUTHOR]

Published

2019

40. Glucagon-like peptide-1 (7-37) augments insulin release in elderly patients with diabetes.

Author

Meneilly, Graydon S., McIntosh, Christopher H.S., Pederson, Raymond A., Habener, Joel F., Gingerich, Ronald, Egan, Josephine M., Elahi, Dariush, Meneilly, G S, McIntosh, C H, Pederson, R A, Habener, J F, Gingerich, R, Egan, J M, and Elahi, D

Subjects

GLUCAGON-like peptide 1, DIABETES in old age, INSULIN, BLOOD sugar, C-peptide, COMPARATIVE studies, GLUCAGON, INTRAVENOUS therapy, RESEARCH methodology, MEDICAL cooperation, TYPE 2 diabetes, PEPTIDES, RESEARCH, EVALUATION research, GLUCAGON-like peptides, GLUCOSE clamp technique

Abstract

Deals with a study which determined whether the effects of glucagon-like peptide-1 on glucose-induced insulin release are preserved in elderly patients with diabetes. Subjects; Procedures of the study; Significance.

Published

2001

41. Intravenous GIP Worsens Postprandial Hyperglycemia in Humans with Type 2 Diabetes.

Author

Chia, Chee W., Carlson, Olga, Melvin, Denise, Kim, Heeseung, Tagalicud, Arlene, Charles, Cornelia, and Egan, Josephine M.

Subjects

PEPTIDE hormones, HYPOGLYCEMIA, PEOPLE with diabetes, TYPE 2 diabetes, BLOOD sugar, PEPTIDES

Abstract

Glucose-dependent insulinotropic polypeptide (GIP) is an incretin secreted from the enteroendocrine K-cells in response to food. Unlike the other incretin, glucagon-like peptide-1 (GLP-1), GIP is reported to have lost its insulinotropic effect and not have glucose-lowering properties in patients with type 2 diabetes mellitus (T2DM). We attempted to gain insight into the pathophysiology underlying the seeming lack of effects of GIP on glucose homeostasis in T2DM. We therefore administered synthetic human GIP (with a meal) to subjects who had T2DM, and then, for 6hr, took frequent blood samples to measure various factors known to be involved in glucose homeostasis. 22 insulin-naive subjects with T2DM (ages 52.6±9.3years; BMI 36.7±7.3kg/m²; HbA[sub 1c] 7.4±1.5%; fasting plasma glucose 155±46mg/dl; diabetes duration 4.3±4.2years; f/m ratio 13/9) that had been treated with diet alone, metformin and/or sulfonylurea were recruited. They stopped oral hypoglycemic medications for 5 days prior to testing and fasted for 8hr prior to 2 study visits, each visit separated by not less than 6 weeks. After 3 baseline blood draws, the subjects received continuous intravenous administration of either placebo (0.9%NaCl) or GIP (20ng/kg/min) for 180min starting with the first bite of a 550calorie mixed-meal, and 1g of acetaminophen to study gastric emptying. Frequent blood sampling took place over the subsequent 6hr (every 5min for the first 75min then every 15min until 180min and every 20min until 360min). Compared to placebo, GIP induced an increase in plasma insulin from 5-30min but a transient decrease in plasma glucose at the 10min time-point only (p<0.05). Intriguingly, and hitherto undescribed, GIP induced a later augmentation in glucagon secretion with a peak level at approximately 30min (p<0.05), a significant elevation in plasma glucose from 120-220min (p<0.05) and a decrease in GLP-I secretion at 135min that lasted for the remainder of the 6hr study period (p<0.05). Based on plasma acetaminophen levels, GIP did not affect gastric emptying and NEFAs were similar during both studies. In T2DM therefore, GIP, given at a pharmacological dose with a meal, still has an early, short-lived insulinotropic effect, resulting in a transient, clinically irrelevant plasma glucose drop. However, this was subsequently followed by increased plasma glucagon levels and worsening hyperglycemia. These findings make it unlikely that GIP or GIP receptor agonists will ever be useful as glucose-lowering agents. [ABSTRACT FROM AUTHOR]

Published

2007

42. Common variants at 10 genomic loci influence hemoglobin A₁(C) levels via glycemic and nonglycemic pathways.

Author

Soranzo N, Sanna S, Wheeler E, Gieger C, Radke D, Dupuis J, Bouatia-Naji N, Langenberg C, Prokopenko I, Stolerman E, Sandhu MS, Heeney MM, Devaney JM, Reilly MP, Ricketts SL, Stewart AF, Voight BF, Willenborg C, Wright B, Altshuler D, Arking D, Balkau B, Barnes D, Boerwinkle E, Böhm B, Bonnefond A, Bonnycastle LL, Boomsma DI, Bornstein SR, Böttcher Y, Bumpstead S, Burnett-Miller MS, Campbell H, Cao A, Chambers J, Clark R, Collins FS, Coresh J, de Geus EJ, Dei M, Deloukas P, Döring A, Egan JM, Elosua R, Ferrucci L, Forouhi N, Fox CS, Franklin C, Franzosi MG, Gallina S, Goel A, Graessler J, Grallert H, Greinacher A, Hadley D, Hall A, Hamsten A, Hayward C, Heath S, Herder C, Homuth G, Hottenga JJ, Hunter-Merrill R, Illig T, Jackson AU, Jula A, Kleber M, Knouff CW, Kong A, Kooner J, Köttgen A, Kovacs P, Krohn K, Kühnel B, Kuusisto J, Laakso M, Lathrop M, Lecoeur C, Li M, Li M, Loos RJ, Luan J, Lyssenko V, Mägi R, Magnusson PK, Mälarstig A, Mangino M, Martínez-Larrad MT, März W, McArdle WL, McPherson R, Meisinger C, Meitinger T, Melander O, Mohlke KL, Mooser VE, Morken MA, Narisu N, Nathan DM, Nauck M, O'Donnell C, Oexle K, Olla N, Pankow JS, Payne F, Peden JF, Pedersen NL, Peltonen L, Perola M, Polasek O, Porcu E, Rader DJ, Rathmann W, Ripatti S, Rocheleau G, Roden M, Rudan I, Salomaa V, Saxena R, Schlessinger D, Schunkert H, Schwarz P, Seedorf U, Selvin E, Serrano-Ríos M, Shrader P, Silveira A, Siscovick D, Song K, Spector TD, Stefansson K, Steinthorsdottir V, Strachan DP, Strawbridge R, Stumvoll M, Surakka I, Swift AJ, Tanaka T, Teumer A, Thorleifsson G, Thorsteinsdottir U, Tönjes A, Usala G, Vitart V, Völzke H, Wallaschofski H, Waterworth DM, Watkins H, Wichmann HE, Wild SH, Willemsen G, Williams GH, Wilson JF, Winkelmann J, Wright AF, Zabena C, Zhao JH, Epstein SE, Erdmann J, Hakonarson HH, Kathiresan S, Khaw KT, Roberts R, Samani NJ, Fleming MD, Sladek R, Abecasis G, Boehnke M, Froguel P, Groop L, McCarthy MI, Kao WH, Florez JC, Uda M, Wareham NJ, Barroso I, and Meigs JB

Subjects

Adult, Blood Glucose metabolism, Body Mass Index, Chromosome Mapping, Cohort Studies, Female, Genome-Wide Association Study, Humans, Male, Meta-Analysis as Topic, Middle Aged, Polymorphism, Single Nucleotide, White People genetics, Genetic Variation, Glycated Hemoglobin genetics

Abstract

Objective: Glycated hemoglobin (HbA₁(c)), used to monitor and diagnose diabetes, is influenced by average glycemia over a 2- to 3-month period. Genetic factors affecting expression, turnover, and abnormal glycation of hemoglobin could also be associated with increased levels of HbA₁(c). We aimed to identify such genetic factors and investigate the extent to which they influence diabetes classification based on HbA₁(c) levels., Research Design and Methods: We studied associations with HbA₁(c) in up to 46,368 nondiabetic adults of European descent from 23 genome-wide association studies (GWAS) and 8 cohorts with de novo genotyped single nucleotide polymorphisms (SNPs). We combined studies using inverse-variance meta-analysis and tested mediation by glycemia using conditional analyses. We estimated the global effect of HbA₁(c) loci using a multilocus risk score, and used net reclassification to estimate genetic effects on diabetes screening., Results: Ten loci reached genome-wide significant association with HbA(1c), including six new loci near FN3K (lead SNP/P value, rs1046896/P = 1.6 × 10⁻²⁶), HFE (rs1800562/P = 2.6 × 10⁻²⁰), TMPRSS6 (rs855791/P = 2.7 × 10⁻¹⁴), ANK1 (rs4737009/P = 6.1 × 10⁻¹²), SPTA1 (rs2779116/P = 2.8 × 10⁻⁹) and ATP11A/TUBGCP3 (rs7998202/P = 5.2 × 10⁻⁹), and four known HbA₁(c) loci: HK1 (rs16926246/P = 3.1 × 10⁻⁵⁴), MTNR1B (rs1387153/P = 4.0 × 10⁻¹¹), GCK (rs1799884/P = 1.5 × 10⁻²⁰) and G6PC2/ABCB11 (rs552976/P = 8.2 × 10⁻¹⁸). We show that associations with HbA₁(c) are partly a function of hyperglycemia associated with 3 of the 10 loci (GCK, G6PC2 and MTNR1B). The seven nonglycemic loci accounted for a 0.19 (% HbA₁(c)) difference between the extreme 10% tails of the risk score, and would reclassify ∼2% of a general white population screened for diabetes with HbA₁(c)., Conclusions: GWAS identified 10 genetic loci reproducibly associated with HbA₁(c). Six are novel and seven map to loci where rarer variants cause hereditary anemias and iron storage disorders. Common variants at these loci likely influence HbA₁(c) levels via erythrocyte biology, and confer a small but detectable reclassification of diabetes diagnosis by HbA₁(c).

Published

2010