Lecture 22-Type 1 Diabetes

Question 1

insulin was the first hormone to be?

Answer 1

cloned and produced recombinantly for therapeutic use

Question 2

insulin is made by

Answer 2

pancreatic islets

Question 3

3 types of cells in islets and function

Answer 3

beta cells- insulin
alpha cells- glucagon
gamma cells- somatostatin

Question 4

what part of proinsulin is cleaved?

Answer 4

C peptide- detected in blood

Question 5

A and B chain of proinsulin bond through

Answer 5

disulfide bonds

Question 6

C-peptide

Answer 6

detected in blood

- loss of C peptide, diagnosis for Type 1 diabetes

Question 7

4 classifications of diabetes

Answer 7

• T1D- immune mediated beta cell destruction (5-10%)
• T2D- insulin resistance and insulin deficiency (90-95%)
• other specific types (genetic factors affecting beta cell function or insulin action) (1-2%)
• gestational diabetes (in pregnancy, 3-5%)

Question 8

diabetes prevalence

Answer 8

• 2014-
• 8.5% adults over 18
• 140,000 cases of T1D in australia, more commonly diagnosed in children
• average 7 new cases/day Aus
• cost $570m- insulin injection and long term complications
• rising prevalence of T1D; 3-5% per year

Question 9

are islet autoantibodies involved in pathology?

Answer 9

no, even though they mark the presence

Question 10

islet autoantibodies and diagnosis of T1D

Answer 10

autoAbs precede diagnosis (95% newly diagnosed children have Ab)

Question 11

what do islet autoAbs mark? (2)

Answer 11

• mark the presence of autoimmune beta cell destruction

- evidence of disease specific b cell response

Question 12

what do islet cell autoAbs recognise?

Answer 12

a composite of islet antigens

Question 13

where are islet autoAbs found?

Answer 13

in serum not in the islets

Question 14

what can islet autoAbs be used to study?

Answer 14

• study natural history of disease
• identify individuals at risk (before diagnosis appearance)
• select high risk individuals for immune intervention and diagnosis

Question 15

less number of islet autoAbs in children=

Answer 15

less probability of getting disease

Question 16

what happens in presymptomatic T1D?

Answer 16

• env trigger
• development of autoAbs to islet Ags
• beta cell sensitivity to injury
• loss of first phase insulin response

Question 17

what happens in symptomatic t1D?

Answer 17

glucose intolerance

absence of C-peptide

Question 18

difference between stage 1 and 2 of natural history of T1D?

Answer 18

stage 1- normoglycemia

stage 2- dysglycemia

Question 19

how many susceptibility loci for T1D identified so far?

Answer 19

~53

Question 20

genes and diabetes

Answer 20

different combinations of genes increase risk for T1D

• many genes have immune cell function
• reveal new cellular pathways to be investigated for potential drug targets

Question 21

risk of T1D with twin

Answer 21

65% chance if you have identical twin with T1D

-risk of diabetes in autoAb positive twin is 89%

Question 22

proposed triggers of T1D

Answer 22

-infectious microbes/gut microbiome
-virus infection
-sunlight and vitD
-diet
controversial- independent studies have not consistently replicated findings

Question 23

type 1 IFN and T1D

Answer 23

increased IFNalpha detected in T1D pancreas

Question 24

what is IFN

Answer 24

potent activator of immune system

Question 25

what triggers IFN production?

Answer 25

viral infection and innate immune activation

Question 26

mice model of T1D

Answer 26

NOD mice

Question 27

IFN stimulated genes in islets of NOD mice- expression

Answer 27

overexpressed

Question 28

where do samples for study of T1D come from?

Answer 28

pancreatic organ donors with diabetes

tissue from living donors

Question 29

definition of insulitis

Answer 29

lymphocytic infiltration targeting islets of langerhans

Question 30

two forms of insulitis

Answer 30

peri- immune cells are around outside of islet

intra- immune cells in centre of islet

Question 31

insulitis is often lobular- meaning

Answer 31

there is pathology in some lobes of pancreas and normal in other lobes
- feature of human disease that we dont see in mouse models

Question 32

insulitis mainly affects

Answer 32

insulin positive islets

Question 33

insulitis always accompanied by

Answer 33

pseudoatrophic islets devoid of beta cells

Question 34

3 criteria for insulitis

Answer 34

1- fraction of infiltrated islets low (<10% islets)
2-should be lesions in >3 islets
3- >15 leucocyte common antigen (CD45)+cells/islet

Question 35

what T cells are found within and around the islets in T1D pancreas?

Answer 35

CD4+, CD8+, CD68+

Question 36

can you have insulin positive cells in pancreas even after diagnosis? implication?

Answer 36

yes- CD3+ T cells in diabetic individual 58 years after diagnosis
- if we dampen the anti-beta cell immune response, we can promote proliferation of these remaining beta cells so patient can make their own insulin

Question 37

unmet clinical need for insulin injections

Answer 37

multiple injections per day

• but no currently approved therapies address underlying cause of disease
• approach that targets immune system is desirable

Question 38

immune therapies for T1D

Answer 38

many tested in trials

• shown to slow progression of disease in trials
• but not in real treatment yet
• need new modulating therapy that can be used for large number of patients

Question 39

T cells found in human islets are?

Answer 39

Beta cell antigen specific

- recognise proteins produced by beta cells

Question 40

how do autoreactive T cells in T1D develop?

Answer 40

• T cells escapes the negative selection in thymus,–>naive islet reactive T cells–>reach circulation (peripheral blood)
• pancreatic lymph node (activation and expansion of T cells)
• back to peripheral blood
• into pancreas (T cells gain effector function and expand, produce cytokines and cytotoxic molecules)
• go back to peripheral blood (detect cells in blood) or lymph node where there is upregulation of activation markers

Question 41

tetramer staining for?

Answer 41

to detect autoantigen-specific T cells in islets

- complex of 4MHC molecules together

Question 42

catching T cells at the scene of the crime meaning

Answer 42

• isolating islets from T1D organ donors
• culture islets in presence of cytokines that promote growth of T cells
• many of the CD4 T cells recognised peptide in the islets and in peripheral blood
• also T cells that recognise B chain and A chain

Question 43

main difference between human and mouse T1D

Answer 43

mouse- large proportion of islets affected and lots of immune cells
humans- not generally

Question 44

NOD mouse model of autoimmune diabetes

Answer 44

• high risk HLA (env and genetic disposition)
• insulitis
• gradual increase of insulitis
• 4 months- diabetes development

Question 45

immune modulation…

Answer 45

delays disease progression

Question 46

immune suppression…

Answer 46

stops disease

Question 47

how to CD8+T cells interact with beta cells?

Answer 47

T cell receptor (CD8+T cells) interact with peptide/MHCI on the beta cell
-autoreactive CD8+ T cells recognise and kill beta cells

Question 48

upregulation of MHC class I correlates with?

Answer 48

number of CD8+ T cells in the islets

Question 49

what is upregulated in T1D in humans?

Answer 49

HLA expression

Question 50

what is upregulation of HLA mediated by?

Answer 50

by cytokine or IFN-gamma which signals through the JAK-STAT pathway

Question 51

stat1 correlates with?

Answer 51

increase in HLA

Question 52

how do we know stat1 is important for disease?

Answer 52

Stat1 KO mice dont develop disease- protected from autoimmune diabetes
- therefore target JAK/STAT pathway in T1D

Question 53

JAKs are direct activators of ?

Answer 53

STAT proteins downstream of cytokines

Question 54

JAK inhibitors in clinical use

Answer 54

few approved and used in clinics

safety- reactivation of varicella zoster virus (can be prevented with vaccination)

Question 55

STAT1 inhibitors in clinic?

Answer 55

not yet

Question 56

what do JAK inhibitors do?

Answer 56

reduce the interaction between beta cells and T cells

- but need to keep administering to keep glucose levels down in newly diagnosed diabetes

Question 57

cadaveric islet allograft

Answer 57

isolated from organ donors

Question 58

future transplants of beta cells

Answer 58

using stem cells- unlimited supply

OR from other animals

Question 59

when is T1D diagnosed in terms of beta cells?

Answer 59

when there is almost no beta cells remaining in pancreas

- therefore need a source of new beta cells

Question 60

autograft (pancreatitis)

Answer 60

disease of exocrine

-remove pancreas, isoalte islets, reinfuse the islets so we dont have pancreatitis and T1D

Question 61

how does islet transplantation occur?

Answer 61

• pancreas from organ donor
• islets isolated in lab
• sufficient quantity
• reinfused into portable circulation, go into liver, lodge in capillaries of liver
• sense glucose in the blood and secrete insulin into blood stream like normal pancreas

Question 62

what is hypoglycemic unawareness? implications?

Answer 62

brain doesnt tell the patient that their blood sugar is low- can slip into coma

• need someone with them all the time
• excellent candidates for transplantation- life changing experience

Question 63

4 main limitations to islet allotransplantation

Answer 63

• lack of sufficient donor pancreases (1-3 donors required per recipient)
• immunosuppression required
• eventual loss of graft function
• islet isolation is a process that is highly damaging to islets

Question 64

examples of islet isolation being a process that is highly damaging to the islets

Answer 64

• long cold ischemia (pancreas sitting in ice from donor to lab)
• mechanical and enzymatic digestion
• disruption of ECM and BM (cells damaged)
• upregulation of hypoxia response genes (no blood supply)
• therefore putting back population of unhealthy cells into bloodstream

Question 65

alternative sources of beta cells

Answer 65

• expansion/transdifferentiation (of glucagon cells to insulin producing cells)
• ESCs (need to ensure enough blood supply, otherwise wont survive)
• iPSCs
• adult stem cells
• xenotransplantation (using genetic modification in transgenic pigs_

Question 66

future clinical trials focus

Answer 66

• immune suppression (repurpose drugs for T1D)
• regulatory T cells (grow in vitro, made antigen specific)
• antigen specific therapies (good for safety and due to lack of permanent remission with non-specific agents BUT difficult to tolerize memory T cells developed from primary immune response to the disease for proinsulin antigen)
• beta cell replacement (stem cells, xenotransplantation