Functional Heterogeneity Among Pancreatic Alpha Cells

胰腺α细胞的功能异质性

• 批准号: 9911945
• 负责人: Glyn M Noguchi
• 金额: $ 3.72万
• 依托单位: UNIVERSITY OF CALIFORNIA AT DAVIS
• 依托单位国家: 美国
• 财政年份: 2019
• 资助国家: 美国
• 起止时间: 2019-09-23 至 2021-09-22
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/9911945
• 关键词: Address; Adrenal Medulla; Affect; Alpha Cell; Amino Acids; Argipressin; Autonomic nervous system; Behavior; Beta Cell; Biosensor; Blood Glucose; Calcium; Catecholamines; Cell Shape; Cell secretion; Cells; Cues; Cyclic AMP; Data Set; Defect; Diabetes Mellitus; Diabetic mouse; Dimensions; Disease; Effector Cell; Endocrine; Ensure; Epinephrine; Exhibits; Functional disorder; Glucagon; Glucose; Hepatic; Heterogeneity; Hormones; Human; Hyperglycemia; Hypoglycemia; Image; Impairment; Insulin; Islet Cell; Islets of Langerhans; Knowledge; Measurable; Mediating; Meta-Analysis; Methods; Mus; Organ; Output; Oxytocin; Pacemakers; Physiological; Population; Research; Research Personnel; Role; Signal Pathway; Signal Transduction; Source; Stimulus; Structure of alpha Cell of islet; Subgroup; Testing; Therapeutic; Thinness; Time; Tissue-Specific Gene Expression; Treatment Efficacy; base; blood glucose regulation; cell behavior; cell type; diabetic; experimental study; glucose production; imaging modality; interest; islet; novel; pancreatic juice; paracrine; receptor; relating to nervous system; release factor; response; single-cell RNA sequencing; transcriptomics

Project Summary The alpha cells of the pancreatic islet are the primary source of glucagon in the body, which serves as the main counterregulatory hormone to beta cell-derived insulin. Glucagon mobilizes hepatic glucose production to increase blood glucose and protect from hypoglycemia, but in addition to reacting to glycemic status, alpha cell secretion is mediated by a multitude of other signals. Among the other alpha cell effectors are epinephrine, arginine vasopressin, oxytocin, and amino acids from outside the islet. The many inputs affecting alpha cells and their uneven distribution amongst other cell types in the islet has so far precluded researchers from generating a comprehensive understanding of how they function. This complexity is no more apparent than in diabetes, where, in conjunction with insulin impairment, glucagon dysfunction remains unaddressed despite nearly 50 years of research on the issue. A better mechanistic understanding of alpha cells is paramount to developing effective therapeutics to address the defects in diabetes. In the Huising Lab, I have pioneered a method of imaging alpha cell activity in intact islets in real time, and in doing so vastly increased the throughput of measurable alpha cell behavior. I have observed heterogeneous responsiveness of alpha cells to different stimuli previously assumed to uniformly activate all alpha cells within an islet. These observations have led to my hypothesis that alpha cells exist as a pool of functionally heterogeneous subpopulations that respond to different stimuli. The relative distribution of these subtypes is altered in the context of diabetes, contributing to the changes in glucagon secretion seen in disease. In this proposal, I aim to quantify heterogeneous responses by alpha cells in healthy and diabetic mouse and human islets and how this reflects on the total glucagon secretion. By successfully leveraging my high throughput live imaging of both calcium and cAMP in intact islets to define functional heterogeneity in alpha cell activation I will have established a new paradigm by which the field may need to think about not just alpha cells, but the islet cells in general. Successful demonstration of changes in alpha cell heterogeneity in the context of diabetes has the potential to inform on more effective methods by which to normalize glucagon release in disease.

项目摘要 胰岛的α细胞是体内胰高血糖素的主要来源，它用作 β细胞衍生的胰岛素的主要反调节激素。胰高血糖动员肝葡萄糖的产生 为了增加血糖并免受低血糖症，但除了对血糖状态做出反应外 细胞分泌是由许多其他信号介导的。在其他α细胞效应子中，是肾上腺素， 精氨酸加压素，催产素和氨基酸来自胰岛外部。影响α细胞和 到目前为止，它们在小岛其他细胞类型中的分布不均 对它们的运作方式的全面了解。这种复杂性比在糖尿病中更明显， 在与胰岛素损伤的结合下，胰高血糖素功能障碍尽管近50 多年研究该问题。对α细胞的更好的机械理解对于发展至关重要 有效解决糖尿病缺陷的有效治疗剂。 在Huising Lab中，我开创了一种实时成像完整胰岛中α细胞活性的方法， 并大大增加了可测量的α细胞行为的吞吐量。我已经观察到 α细胞对不同刺激的异质反应性先前假定均匀激活所有刺激 胰岛内的α细胞。这些观察结果导致了我的假设，即α细胞作为一个库存在 在功能上对不同刺激做出反应的非均质亚群。这些的相对分布 亚型在糖尿病的背景下改变了，导致疾病中胰高血糖素分泌的变化。 在此提案中，我旨在量化健康和糖尿病小鼠中α细胞的异质反应 人类胰岛以及这如何反映胰高血糖素的分泌。通过成功利用我的高 完整胰岛中钙和cAMP的吞吐量实时成像，以定义α细胞中的功能异质性 激活我将建立一个新的范式，该领域可能不仅需要考虑Alpha细胞， 但是胰岛细胞一般。成功地证明了α细胞异质性的变化 糖尿病有可能告知更有效的方法，通过该方法将胰高血糖素释放到疾病中。