Browsing by Subject "Insulin"
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Item 100 years of insulin: celebrating the past, present and future of diabetes therapy(Springer Nature, 2021) Sims, Emily K.; Carr, Alice L.J.; Oram, Richard A.; DiMeglio, Linda A.; Evans-Molina, Carmella; Pediatrics, School of MedicineThe year 2021 marks the centennial of Banting and Best's landmark description of the discovery of insulin. This discovery and insulin's rapid clinical deployment effectively transformed type 1 diabetes from a fatal diagnosis into a medically manageable chronic condition. In this Review, we describe key accomplishments leading to and building on this momentous occasion in medical history, including advancements in our understanding of the role of insulin in diabetes pathophysiology, the molecular characterization of insulin and the clinical use of insulin. Achievements are also viewed through the lens of patients impacted by insulin therapy and the evolution of insulin pharmacokinetics and delivery over the past 100 years. Finally, we reflect on the future of insulin therapy and diabetes treatment, as well as challenges to be addressed moving forward, so that the full potential of this transformative discovery may be realized.Item 12-Lipoxygenase Inhibitor Improves Functions of Cytokine-Treated Human Islets and Type 2 Diabetic Islets(Oxford University Press, 2017-08-01) Ma, Kaiwen; Xiao, An; Park, So Hyun; Glenn, Lindsey; Jackson, Laura; Barot, Tatvam; Weaver, Jessica R.; Taylor-Fishwick, David A.; Luci, Diane K.; Maloney, David J.; Mirmira, Raghavendra G.; Imai, Yumi; Nadler, Jerry L.; Pediatrics, School of MedicineContext: The 12-lipoxygenase (12-LO) pathway produces proinflammatory metabolites, and its activation is implicated in islet inflammation associated with type 1 and type 2 diabetes (T2D). Objectives: We aimed to test the efficacy of ML355, a highly selective, small molecule inhibitor of 12-LO, for the preservation of islet function. Design: Human islets from nondiabetic donors were incubated with a mixture of tumor necrosis factor α , interluekin-1β, and interferon-γ to model islet inflammation. Cytokine-treated islets and human islets from T2D donors were incubated in the presence and absence of ML355. Setting: In vitro study. Participants: Human islets from organ donors aged >20 years of both sexes and any race were used. T2D status was defined from either medical history or most recent hemoglobin A1c value >6.5%. Intervention: Glucose stimulation. Main Outcome Measures: Static and dynamic insulin secretion and oxygen consumption rate (OCR). Results: ML355 prevented the reduction of insulin secretion and OCR in cytokine-treated human islets and improved both parameters in human islets from T2D donors. Conclusions: ML355 was efficacious in improving human islet function after cytokine treatment and in T2D islets in vitro. The study suggests that the blockade of the 12-LO pathway may serve as a target for both form of diabetes and provides the basis for further study of this small molecule inhibitor in vivo.Item An Acetate-Specific GPCR, FFAR2, Regulates Insulin Secretion(The Endocrine Society, 2015-07) Priyadarshini, Medha; Villa, Stephanie R.; Fuller, Miles; Wicksteed, Barton; Mackay, Charles R.; Alquier, Thierry; Poitout, Vincent; Mancebo, Helena; Mirmira, Raghavendra G.; Gilchrist, Annette; Layden, Brian T.; Department of Pediatrics, IU School of MedicineG protein-coupled receptors have been well described to contribute to the regulation of glucose-stimulated insulin secretion (GSIS). The short-chain fatty acid-sensing G protein-coupled receptor, free fatty acid receptor 2 (FFAR2), is expressed in pancreatic β-cells, and in rodents, its expression is altered during insulin resistance. Thus, we explored the role of FFAR2 in regulating GSIS. First, assessing the phenotype of wild-type and Ffar2(-/-) mice in vivo, we observed no differences with regard to glucose homeostasis on normal or high-fat diet, with a marginally significant defect in insulin secretion in Ffar2(-/-) mice during hyperglycemic clamps. In ex vivo insulin secretion studies, we observed diminished GSIS from Ffar2(-/-) islets relative to wild-type islets under high-glucose conditions. Further, in the presence of acetate, the primary endogenous ligand for FFAR2, we observed FFAR2-dependent potentiation of GSIS, whereas FFAR2-specific agonists resulted in either potentiation or inhibition of GSIS, which we found to result from selective signaling through either Gαq/11 or Gαi/o, respectively. Lastly, in ex vivo insulin secretion studies of human islets, we observed that acetate and FFAR2 agonists elicited different signaling properties at human FFAR2 than at mouse FFAR2. Taken together, our studies reveal that FFAR2 signaling occurs by divergent G protein pathways that can selectively potentiate or inhibit GSIS in mouse islets. Further, we have identified important differences in the response of mouse and human FFAR2 to selective agonists, and we suggest that these differences warrant consideration in the continued investigation of FFAR2 as a novel type 2 diabetes target.Item Acute Changes in Sleep Duration on Eating Behaviors and Appetite-Regulating Hormones in Overweight/Obese Adults(Taylor & Francis, 2015) Hart, Chantelle N.; Carskadon, Mary A.; Demos, Kathryn E.; Van Reen, Eliza; Sharkey, Katherine M.; Raynor, Hollie A.; Considine, Robert V.; Jones, Richard N.; Wing, Rena R.; Department of Medicine, IU School of MedicineThere is considerable interest in the role of sleep in weight regulation, yet few studies have examined this relationship in overweight/obese (OW/OB) adults. Using a within-subject, counterbalanced design, 12 OW/OB women were studied in lab with two nights of short (5 hr time in bed [TIB]) and two nights of long (9 hr TIB) sleep. Hunger, consumption at a buffet, and fasting hormone levels were obtained. Significant polysomnographic differences occurred between conditions in total sleep time and sleep architecture (ps < .001). Percent energy from protein at the buffet increased following short sleep. No differences were observed for total energy intake or measured hormones. Further research is needed to determine how lengthening sleep impacts weight regulation in OW/OB adults.Item Adult-Onset Type 1 Diabetes: Current Understanding and Challenges(American Diabetes Association, 2021-11) Leslie, R. David; Evans-Molina, Carmella; Freund-Brown, Jacquelyn; Buzzetti, Raffaella; Dabelea, Dana; Gillespie, Kathleen M.; Goland, Robin; Jones, Angus G.; Kacher, Mark; Phillips, Lawrence S.; Rolandsson, Olov; Wardian, Jana L.; Dunne, Jessica L.; Pediatrics, School of MedicineRecent epidemiological data have shown that more than half of all new cases of type 1 diabetes occur in adults. Key genetic, immune, and metabolic differences exist between adult- and childhood-onset type 1 diabetes, many of which are not well understood. A substantial risk of misclassification of diabetes type can result. Notably, some adults with type 1 diabetes may not require insulin at diagnosis, their clinical disease can masquerade as type 2 diabetes, and the consequent misclassification may result in inappropriate treatment. In response to this important issue, JDRF convened a workshop of international experts in November 2019. Here, we summarize the current understanding and unanswered questions in the field based on those discussions, highlighting epidemiology and immunogenetic and metabolic characteristics of adult-onset type 1 diabetes as well as disease-associated comorbidities and psychosocial challenges. In adult-onset, as compared with childhood-onset, type 1 diabetes, HLA-associated risk is lower, with more protective genotypes and lower genetic risk scores; multiple diabetes-associated autoantibodies are decreased, though GADA remains dominant. Before diagnosis, those with autoantibodies progress more slowly, and at diagnosis, serum C-peptide is higher in adults than children, with ketoacidosis being less frequent. Tools to distinguish types of diabetes are discussed, including body phenotype, clinical course, family history, autoantibodies, comorbidities, and C-peptide. By providing this perspective, we aim to improve the management of adults presenting with type 1 diabetes.Item Advanced Imaging Techniques for the Characterization of Subcellular Organelle Structure in Pancreatic Islet β Cells(Wiley, 2023-12-29) McLaughlin, Madeline R.; Weaver, Staci A.; Syed, Farooq; Evans-Molina, Carmella; Pediatrics, School of MedicineType 2 diabetes (T2D) affects more than 32.3 million individuals in the United States, creating an economic burden of nearly $966 billion in 2021. T2D results from a combination of insulin resistance and inadequate insulin secretion from the pancreatic β cell. However, genetic and physiologic data indicate that defects in β cell function are the chief determinant of whether an individual with insulin resistance will progress to a diagnosis of T2D. The subcellular organelles of the insulin secretory pathway, including the endoplasmic reticulum, Golgi apparatus, and secretory granules, play a critical role in maintaining the heavy biosynthetic burden of insulin production, processing, and secretion. In addition, the mitochondria enable the process of insulin release by integrating the metabolism of nutrients into energy output. Advanced imaging techniques are needed to determine how changes in the structure and composition of these organelles contribute to the loss of insulin secretory capacity in the β cell during T2D. Several microscopy techniques, including electron microscopy, fluorescence microscopy, and soft X-ray tomography, have been utilized to investigate the structure-function relationship within the β cell. In this overview article, we will detail the methodology, strengths, and weaknesses of each approach.Item Amelioration of type 1 diabetes following treatment of non-obese diabetic mice with INGAP and lisofylline(SciRes, 2012-05-01) Tersey, Sarah A.; Carter, Jeffery D.; Rosenberg, Lawrence; Taylor-Fishwick, David A.; Mirmira, Raghavendra G.; Nadler, Jerry L.; Department of Pediatrics, School of MedicineType 1 diabetes mellitus results from the autoimmune and inflammatory destruction of insulin-producing islet β cells, rendering individuals devoid of insulin production. Recent studies suggest that combination therapies consisting of anti-inflammatory agents and islet growth-promoting factors have the potential to cause sustained recovery of β cell mass, leading to amelioration or reversal of type 1 diabetes in mouse models. In this study, we hypothesized that the combination of the anti-inflammatory agent lisofylline (LSF) with an active peptide fragment of islet neogenesis associated protein (INGAP peptide) would lead to remission of type 1 diabetes in the non-obese diabetic (NOD) mouse. We treated groups of spontaneously diabetic NOD mice with combinations of LSF, INGAP peptide, or control saline parenterally for up to 6 weeks. Our results demonstrate that the mice receiving combined treatment with LSF and INGAP peptide exhibited partial remission of diabetes with increased plasma insulin levels. Histologic assessment of pancreata in mice receiving combined therapy revealed the presence of islet insulin staining, increased β cell replication, and evidence of Pdx1-positivity in ductal cells. By contrast, diabetic animals showed severe insulitis with no detectible insulin or Pdx1 staining. We conclude that the novel combination treatment with LSF and INGAP peptide has the potential to ameliorate hyperglycemia in the setting of established type 1 diabetes via the recovery of endogenous β cells and warrant further studies.Item Analyzing outcomes following pancreas transplantation: Definition of a failure or failure of a definition(Wiley, 2022) Stratta, Robert J.; Farney, Alan C.; Fridell, Jonathan A.; Surgery, School of MedicinePancreas transplantation has an identity crisis and is at a crossroads. Although outcomes continue to improve in each successive era, the number of pancreas transplants performed annually in the United States has been static for several years in spite of increasing numbers of deceased donors. For most practitioners who manage diabetes, pancreas transplantation is considered an extreme measure to control diabetes. With expanded recipient selection (primarily simultaneous pancreas-kidney transplantation) in patients who are older, have a higher BMI, are minorities, or who have a type 2 diabetes phenotype, the controversy regarding type of diabetes detracts from the success of intervention. The absence of a clear and precise definition of pancreas graft failure, particularly one that lacks a measure of glycemic control, inhibits wider application of pancreas transplantation with respect to reporting long-term outcomes, comparing this treatment to alternative therapies, developing listing and allocation policy, and having a better understanding of the patient perspective. It has been suggested that the definition of pancreas graft failure should differ depending on the type of pretransplant diabetes. In this commentary, we discuss current challenges regarding the development of a uniform definition of pancreas graft failure and propose a potential solution to this vexing problem.Item Associations among osteocalcin, leptin and metabolic health in children ages 9-13 years in the United States(BioMed Central, 2017-03-07) Virecoulon Giudici, Kelly; Kindler, Joseph M.; Martin, Berdine R.; Laing, Emma M.; McCabe, George P.; McCabe, Linda D.; Hausman, Dorothy B.; Martini, Lígia Araújo; Lewis, Richard D.; Weaver, Connie M.; Peacock, Munro; Hill Gallant, Kathleen M.; Department of Medicine, IU School of MedicineBACKGROUND: This study aimed to investigate the relationships among osteocalcin, leptin and metabolic health outcomes in children ages 9-13 years. METHODS: This was a cross-sectional analysis of baseline data from 161 boys and 157 girls (ages 9-13 years) who previously participated in a double-blinded randomized placebo controlled trial of vitamin D supplementation. Relationships among fasting serum total osteocalcin (tOC), undercarboxylated osteocalcin (ucOC), leptin, and metabolic health outcomes were analyzed. RESULTS: Approximately 52% of study participants were obese based on percent body fat cutoffs (>25% for boys and >32% for girls) and about 5% had fasting serum glucose within the prediabetic range (i.e. 100 to 125 mg/dL). Serum tOC was not correlated with leptin, glucose, insulin, HOMA-IR, or HOMA-β after adjusting for percent body fat. However, serum ucOC negatively correlated with leptin (partial r = -0.16; p = 0.04) and glucose (partial r = -0.16; p = 0.04) after adjustment for percent body fat. Leptin was a positive predictor of insulin, glucose, HOMA-IR, and HOMA-β after adjusting for age, sex and percent body fat (all p < 0.001). CONCLUSIONS: These data depict an inverse relationship between leptin and various metabolic health outcomes in children. However, the notion that tOC or ucOC link fat with energy metabolism in healthy children was not supported.Item B Quiet: Autoantigen-Specific Strategies to Silence Raucous B Lymphocytes and Halt Cross-Talk with T Cells in Type 1 Diabetes(MDPI, 2021-01-06) Felton, Jamie L.; Conway, Holly; Bonami, Rachel H.; Pediatrics, School of MedicineIslet autoantibodies are the primary biomarkers used to predict type 1 diabetes (T1D) disease risk. They signal immune tolerance breach by islet autoantigen-specific B lymphocytes. T-B lymphocyte interactions that lead to expansion of pathogenic T cells underlie T1D development. Promising strategies to broadly prevent this T-B crosstalk include T cell elimination (anti-CD3, teplizumab), B cell elimination (anti-CD20, rituximab), and disruption of T cell costimulation/activation (CTLA-4/Fc fusion, abatacept). However, global disruption or depletion of immune cell subsets is associated with significant risk, particularly in children. Therefore, antigen-specific therapy is an area of active investigation for T1D prevention. We provide an overview of strategies to eliminate antigen-specific B lymphocytes as a means to limit pathogenic T cell expansion to prevent beta cell attack in T1D. Such approaches could be used to prevent T1D in at-risk individuals. Patients with established T1D would also benefit from such targeted therapies if endogenous beta cell function can be recovered or islet transplant becomes clinically feasible for T1D treatment.