Type-I Diabetes

1. Type-I Diabetes Seth Cressey Steven Moore Nov 2012

2. Background Information Diabetes mellitus type-1 -Also called Insulin dependent diabetes or Juvenile diabetes. -Autoimmune destruction of insulin-producing (beta cells) of the pancreas -Results in total insulin deficiency. -Affects 1 in 300 children and more adults. 4

3. Diabetes: not just an American problem...

4. The Pancreas Beta Cells: secrete insulin. Alpha Cells: secrete glucagon Autoimmunity occurs in islet of Langerhans against the beta cells...

5. What is Insulin? What does it do? -Peptide Hormone, regulates blood sugar. -Causes body cells to take up glucose from the blood. -Insulin receptors found on: Liver cells Skeletal muscles Adipose tissue

6. Symptoms Symptoms include: -Hyperglycemia -Polyuria: Excessive urine -Polydipsia: Excessive Thirst -Lipidemia -Polyphagia :Excessive Hunger -Glycosuria: Sugar in the urine 4 -Lipidemia:Lack of insulin starves body of glucose, body begins metabolizing fatty acids as energy source. - Ketoacidoses: Ketones build up in blood, dropping Ph - Ketouria: Ketones in urine - Macular degeneration 4

7. Risk Factors Mostly Genetic: alleles of HLA-DQB1, a MHC-II -DQB1*0201 -DQB1*0302 -Both DQB1*0201 and DQB1*0302 = greatest relative risk. 1 1

8. Environmental Factors: -Diagnosed rates between subjects with high-risk HLA genotypes (decreased) and low-risk or even protective HLA genotypes (increased). -Twin studies -Cold Temperatures -Diet, stress, etc. Risk Factors con’t 1 1 1 new studies are pointing to the importance of the environment...

9. Pathophysiology: Overview Triggers: -Poorly understood, plenty of theories. -Molecular mimicry… -Injury to islets… -Random failure of tolerance… Cell mediated response: -Type 1 diabetes is caused by a T cell–mediated autoimmune destruction of the pancreatic beta cells. 5 5 KAI W. WUCHERPFENNIG1 AND GEORGE S. EISENBARTH.:Type 1 Diabetes

10. Pathophysiology: Triggers Molecular mimicry: similar epitopes between pathogen and host. -Viruses can produce proteins similar to those of the host. -Immune cells present viral protein homologous to self protein. Failure of tolerance and autoimmunity. Injury to Islet cells: macrophages provoke insulitis by release of interleukin. -Can lead to presentation of cryptic antigens.... HGAD65: auto antigen Coxsackie & hCMV: Viral peptides 3 Image from ROEP et al.: MOLECULAR MIMICRY IN TYPE 1 DIABETES 3

11. Cell-mediated Response Activates macrophages and granulocytes: Induce apoptosis of beta cells APCs phagocytize apoptotic bodies Th cells secrete Interferon-gamma: 2 Activation of further Tc and Th cells Presentation of cryptic antigens from within Beta cells on MHC Cryptic Antigens: epitopes not presented for recognition by T cells unless they are produced in unusually large concentrations or are freed from their configuration in body. Cycle is self perpetuating…

12. Diagnosis -Fasting plasma glucose levels. -Detection of antibodies against islet antigens (insulin, beta cells, etc.) in the serum.  Detects autoimmunity before diabetes is clinical. -Hemoglobin A1c (glycolated hemogolobin) test.

13. Treatment • Type 1 diabetes is fatal if not treated with external insulin. • Insulin: • -fast acting and slow acting • Delivery: • subcutaneous injection • insulin pump

14. A Future Cure? Type-1 Diabetes is currently non-preventable but… Drugs?Diet? … Mostly in experimental stages. Further research is required. Pancreas transplantation? Islet cell transplantation? Pancreatic Lymph Therapy and Node removal Some success in mice

15. Study Questions! 1) What cells are responsible for insulin secretion: a) Alpha cells, b) Beta cells, c) Gamma Cells, d) Islet of Langerhans 2) Which of the following statements is false. a) Type 1 diabetes is caused by a T cell–mediated autoimmune destruction of the pancreatic beta cells. b) Having one or both copies of a certain MHC-II allele leads to greater relative risk in developing type-1 diabetes. c) It is believed that molecular mimicry between viral pathogens and beta cell protein explains the loss of tolerance in type 1 diabetes. d) Eosinophils play an important role in mediating the humoral response of type-1 diabetes by use of IgE Fc receptors.

16. Study Questions! 3) Which of the following is true about the immune response of Type 1 diabetes: a)Type 1 diabetes is caused by a T cell–mediated autoimmune destruction of the pancreatic beta cells. b) Primarily chronic phagocytosis by cells of the innate immune system always begins the destruction of insulin producing cells. c) IgA penetrates the pancreases and mediate complement on beta cells. d) In type 1 diabetes insulin begins to directly attack the pancreas resulting in beta cell destruction.

17. Study Questions! 4) Which genetic factor results in the greatest relative risk in developing type 1 diabetes? a) Having one or both copies of a certain MHC-II allele. b) Mutant forms of CD8. c) Auto reactive IgM associated with the BCR complex, d) Non antigen specific coupling of MHC TCR complex

18. Study Questions! 5) Molecular mimicry is an important trigger in the onset of Type-1 Diabetes. Describe how molecular mimicry can lead to autoimmune disorders.

19. References. 1) Morran MP, Omenn GS, and Pietropaolo M. 2008.Immunology and Genetics of Type 1 Diabetes. Mount Sinai Journal of Medicine. 75: 314-327. 2) Pear-Yafe M, Kaminitz A, Yolcu E, Yanic I, Stein J, and Askenasy N. 2007. Pancreatic Islets Under Attack: Cellular and Molecular Effectors. Current Pharmaceutical Design.13: 749-760. 3) Roep BO, Hiemstra HS, Schloot NC, De Vries RRP, Chaudhuri A, Behan PO, and Drijfhout JW. 2002. Molecular Mimicry in Type 1 Diabetes. Annals of New York Academy of Sciences. 958:163-165. 4) Tisch R, and McDevitt H. 1996. Insulin-Dependent Diabetes Mellitus. Cell. 85: 291-297. 5) Wucherpenning KW, AND Eisenbarth G. 2001. Type 1 diabetes. Nature Publishing Group. News & Views: 1-2. (http://www.nature.com/immuno/index.html)