Pancreatic β-Cell
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Pancreatic β-Cell Nucleus Envelop Nucleol Chromatin Lysosome Mitochondria Glucose Glucose Glucokinase Glucokinase Gl Glucose Transporter T t Nonmaturated Vesicles Glucokinase (sensor of glucose level) Maturated Vesicles Closing the K+ATP Channel Endoplasmic Reticulum Depolarization of the Membrane Golgi Apparatus Exocytosis Opening the Ca+ Channel secretory vesicle Normal 102 secretory vesicle ~ ProInsulin Insulin ProAmylin Amylin < 102 Pro-diabetes Amylin Deposition is a Hallmark of Type-2 Diabetes in Humans Diabetes 56:1324-1332 (2007) HUMAN PANCREAS 20 µm 20 Amylin Transmissible Spongiform Encephalopathies Dementia, Alzheimer’s Disease Parkinson’s Disease Type-2 Diabetes Hyperamylinemia, Amylin Oligomerization, & the Risk of Cardio-Cerebrovascular Diseases β‐Cell Dysfunction & β Cell Dysfunction & Apoptosis B BLOOD Pancreatic β‐Cell β AMYLIN OLIGOMERIZATION HYPERGLYCEMIA (INSULINOGENIC DRUGS) HYPERAMYLINEMIA Florin Despa HYPERINSULINEMIA Department of Pharmacology University of California, Davis Relevance to Our Mission This research project is relevant to understanding, preventing, and, possibly, treating diabetes complications in two ways: 1. It uncovers an early pathogenic mechanism linking age-related metabolic disorders with diabetic brain injury, dementia, and CVD; 2. It identifies hyperamylinemia as a feasible therapeutic target to reduce accumulation of proteinaceous debris in the CV and CN systems, and thus to limit/ delay diabetes complications. Outline of Research in My Laboratory 1. Mechanisms of amylin oligomer formation and accumulation: a. understanding the etiology of hyperamylinemia; b testing the circulating amylin oligomer hypothesis. b. hypothesis 2. Amylin oligomer-induced cardiac dysfunction: a. primary structural defect induced by oligomers in myocytes; b. hypertrophy, remodeling; c. oxidative and inflammatory stress. 3. Role of oligomeric amylin in diabetic brain damage and dementia: a. interaction & co-localization of amylin with Aβ; b. amylin oligomer-mediated inflammatory and oxidative damage. 4. Curbing amylin deposition to delay/reduce the CVD risk: a. pro-fibrinolytic molecules limit amylin attachment to sarcolemma and reduce red ce ROS prod production ction in cardiac myocytes. m oc tes Collaborators • Kaleena K l JJackson k • Kathy Guglielmino • Brian Koch • • • • • • • • • Sanda Despa Bruce Hammock Peter J Havel Anne Knowlton Donald Bers Heinrich Taegtmeyer (UTHS) Keneth B. Margulies (U Penn) Donald Steiner (U Chicago) Simon Xie (Stanford) • • • • Heike Wulff Elva Diaz Gustavo Barisone Dave Speca AD Center • Charles DeCarli • Lee-way Jin Funds: AHA, NSF, UCD AD Center, Vision Grant - UC Davis Cardiotoxicity of Hyperamylinemia (RATIONALE) Lean Non-Failing g Hearts Lean, Non-diabetes Failing Hearts Amylin Oligomers Obese/Overweight Non-Failing g Hearts Obese/Overweight Failing Hearts Type-2 Diabetes Failing Hearts Amylin Oligomers distinct amylin oligomer size distributions Amylin Oligomers Accumulate in Heart FAILING OCTAMER TETRAMER TRIMER DIMER NON-FAILING DM-HF F 0 OW/OB B-HF 100 ** Larger Amylin Oligomers 500 ** 400 * 300 200 100 0 DM-HF 16-MER 200 OB-HF OW/O trimer 10 kDa 300 OW/OB B-NF 15 ** O OW/OB -NF tetramer tet a e 400 L-HF octamer ** L-HF 50 500 L-NF OW/OB-HF AmylinTTrimers L-NF L NF L-NF Amylin n Level (% C Control) Anti-Amylin Antibody Amylin Trimers (% C Control) Failing vs. Non-failing Despa S, …, Despa F. Circ Res. 2012;110:598 Cardiac Amylin Deposition in Humans with Type-2 Diabetes HEART PANCREAS HEART 20 µm 20 µm HEART Co ongo Red Staining Antii-Amylin A Antibody 20 µm 20 µm HEART Control HEART 20 µm 20 µm Despa S, …, Despa F. Circ Res. 2012;110:598 Selection of Human Brain Samples Type-2 Diabetes + CD and/or AD Amylin Accumulation Late-onset AD no diabetes Amylin Accumulation Age-matched, lean (?), non-diabetics, without AD ? Amylin Deposition in the Brain of Patients with Dementia A 20 µm B 20 X D 20 X 20 µm C 20 µm 20 X 20 µm E 20 X 20 µm 20 X F 20 X 20 µm G 20 µm PANCREAS 20 X Amylin co-localizes with Aβ B A 10 µm C 10 µm E D 10 µm T2D-AD Group 10 µm F 10 µm 10 µm 40 X Not All Amylin Species are Amyloidogenic ! Human Amylin (amyloidogenic) KCNTATCATQRLANFLVHSSNNFGAILSSTNVGSNTY Q Rat Amylin (non-amyloidogenic) KCNTATCATQRLANFLVRSSNNLGPVLPPTNVGSNTY Q Despa et al., Biol. Phys. (2008) Pancreas Heart PancreasHeart 25 15 10 kDa HIP rats UCD-T2DM rats Animal Models Human Amylin pancreas HIP rat Rat Amylin Pre Diabetes Pre-Diabetes 180 160 140 120 100 H IP B lo o d G lu c o s e m g /d l) (m non-fasted UCD-T2DM rat 200 U C D -T 2 D M pancreas Summary (1) Circulating Amylin Oligomers ? mitochondrial dynamics Ca transients attachment to endothelial cells ROS RAGE CaMKII/HDAC activation ti ti Calcineurin/NFAT activation ti ti Hypertrophic signaling SERCA expression i ? NF-κB TNF-α; TNF α; IL-6; IL 6; Altere ed glucose e/ lipid hom meostasis; Other factors attachment to sarcolemma IL 10 IL-10 ? Diastolic [Ca]i Slower Ca transient relaxation Diastolic dysfunction Ca transients Systolic dysfunction inflammation Oligomeric amylin accelerates diabetic HF ! 0 HIIP 40 6000 4000 2000 0 HIIP Maximum Rate of P Pressure Ri Rise 80 8000 RIIP * dP/dtmax (mm mHg/s) 120 RIIP End d Systolic P (mmHg) Cardiac Accumulation of Oligomeric Amylin Induces Contractile Dysfunction in Pre-diabetic HIP Rats Left-Ventricular End Systolic Pressure Maximum Rate of Pressure Fall 0 HIP 2000 collab. with A. Knowlton (UC Davis) 6 4 2 0 HIP 4000 8 RIP * End Diasttolic P (mm mHg) 6000 RIP -dP/dtm min (mmHg//s) Left-Ventricular End Diastolic Pressure Cerebral Accumulation of Oligomeric Amylin Induces Behavioral Changes in HIP Rats collab. with S. Xie (Stanford) Therapeutics: Th Reversing/Preventing g g Amylin y Oligomer-Induced g Injury j y Patent US20070031955 “Compositions and Methods for Refolding of Denaturated Proteins” (sold to Maroon Biotech). Circulating Amylin Oligomers ↑ EET EETs ↓ sEH EH Altered glucose/ liipid homeo ostasis; Otther factors s attachment to sarcolemma Ca transients APAU mitochondrial dynamics ROS CaMKII/HDAC C MKII/HDAC activation Calcineurin/NFAT C l i i /NFAT activation Hypertrophic signaling SERCA expression Diastolic [[Ca]]i Slower Ca transient relaxation Ca transients Systolic dysfunction Diastolic dysfunction Summary Hyperamylinemia and consequent amylin oligomerization are an early pathogenic mechanism linking age-related metabolic disorders with diabetic brain injury, dementia, and CVD. Hyperamylinemia is a feasible therapeutic target to reduce accumulation of proteinaceous debris in the CV and CN systems, and thus to limit/ delay diabetes complications.
