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The role of B- cells in Diabetes

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The role of B- cells in Diabetes Yoon, J., Yoon, C., Lim, H., Huang, Q., Kang, Y., Pyun, K., Hirasawa, K., Sherwin, R., Jun, H. (1999). Control of autoimmune diabetes ... – PowerPoint PPT presentation

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Title: The role of B- cells in Diabetes


1
The role of B- cells in Diabetes
  • Yoon, J., Yoon, C., Lim, H., Huang, Q., Kang, Y.,
    Pyun, K., Hirasawa, K.,
  • Sherwin, R., Jun, H. (1999). Control of
    autoimmune diabetes in NOD mice by GAD
    expression or suppression in B Cells. Science
    2841183-1187.

2
Background
  • used to be know as insulin dependent diabetes
  • Autoimmune disease
  • Bodies white blood cells kill pancreatic cells
    responsible for insulin production
  • Patients depend on insulin shots

3
Requirements of a Diabetic
  • Daily insulin shots
  • Monitoring of blood-sugar levels
  • Adjustment of diet

4
Consequences of Diabetes
  • Blindness
  • Vascular disease
  • Kindney failure
  • Peripheral vascular disease
  • Decreased circulation
  • Amputation of limbs

5
Rationale
  • T- cell mediated autoimmune destruction of
    pancreatic cells is due to Type 1 diabetes
    mellitus.
  • Tests were done using NOD mice because there
    immune system is most closely related to the
    human immune system
  • Glutamic acid decarboxylase (GAD) is the most
    likely autoantigen responsible for the triggering
    of B- cell specific autoimmunity.

6
Glutamic acid dicarboxylase
  • GAD is a pancreatic B cell autoantigen in humans
    and nonobese diabetic mice (NOD mice).
  • B cell specific supression of GAD expression in
    two lines of NOD mice prevented autoimmune
    diabetes.
  • Persistent GAD in NOD mice resulted in diabetes.
  • Complete suppression of B cell GAD expression
    resulted in the absence of diabetogenic T cells
    (DG T cells) and prevent injury to autoimmunity.

7
Diabetogenic T cell proliferation
  • Scientists test to see what causes T cell
    proliferation.

8
Causes of expression of the diabetogenic T cell.
  • In comparison with other pancreatic B cell
    autoantigens, GAD showed the most positive effect
    in the production of DG T cells.
  • However, there is no conclusive evidence that GAD
    transgenic is absolutely necessary for the
    initiation of diabetes.

9
Purpose behind experiment
  • The scientists wanted to find out if GAD is
    necessary for the initiation of diabetes.
  • This is the basis for the experiment.
  • The suppression of B cell GAD expression is
    necessary to begin the experiment.

10
Suppressing GAD
  • Transgenic NOD mice with an antisense GAD
    transgene were produced
  • Six lines of antisense GAD65.67 transgenic mice
    were established.

11
  • The mice were categorized according to the amount
    of transgenic expression.

12
Categorization
  • - First three lines
  • - High levels- H-AS-GAD-NOD
  • - Medium levels- M-AS-GAD-NOD
  • - Low levels- L-AS-GAD-NOD
  • Second three lines
  • - High levels- Hk-AS-GAD-NOD
  • - Medium levels- Mk-AS-GAD-NOD
  • - Low levels- Lk-AS-GAD-NOD

13
Testing the manipulation
  • The scientists had to check the amount of
    repression of the B cell GAD expression.
  • Protein immunoblot analysis was used to check
    repression.

14
Results for expression
  • H-AS-GAD-NOD showed complete suppression.
  • M-AS-GAD-NOD and L-AS-GAD-NOD showed moderate to
    low suppression.
  • GAD expression was detected to be the same in the
    brain tissue of the transgene negative mice and
    the three lines of AS-GAD-NOD mice.
  • The three lines of AS-GAD-NOD mice were
    indistinguishable from the transgene negative
    littermates concerning pancreatic insulin control
    andplasma insulin concentrations.

15
Is B cell GAD expression necessary for the
development of autoimmune diabetes in NOD mice?
  • Experimentation is necessary to find the answer.
  • Heres how they did it.

16
Experiment
  • The disease development was monitored in the
    three lines of AS-GAD-NOD mice and transgene
    negative littermates.

17
Results for first three lines
  • H-AS-GAD-NOD mice
  • -did not develop diabetes after 40 weeks of age
  • -over 80 had intact islets at 20 weeks of age
  • -less than 20 showed periinsulitis by 20 weeks
    of age.
  • (67)M-AS-GAD-NOD, (75)L-AS-GAD-NOD, and the
    (81)transgene negative mice all demonstrated
    diabetes at the same age.
  • In contrast with H-AS-GAD-NOD mice, the
    M-AS-GAD-NOD, L-AS-GAD-NOD, and the transgene
    negative littermates showed insulitis by 20 weeks
    of age.

18
Results for second three lines
  • Hk-AS-GAD-NOD
  • - 2.8 of mice showed diabetes by the age of
    40 weeks
  • Mk-AS-GAD-NOD
  • - 83.3 had diabetes by the age of 40 weeks
  • Lk-AS-GAD-NOD
  • - 80.8 had diabetes by the age of 40 weeks
  • Transgene negative littermates
  • - 85.7 had diabetes
  • - There was no signigicant difference between
    the samples concerning insulitis at 19 and 20
    weeks of age.

19
  • What do these results imply?

20
Indications
  • B cell GAD expression is an ablsolute
    requirement for the development of diabetes in
    NOD mice.
  • - The H-AS-GAD-NOD mice did not develop
    diabetes

21
Indications
  • The complete and near complete prevention of
    diabetes is not due to the nonspecific effect of
    antisense transgene incorporated into DNA.
  • - The low and moderate suppression of B cell
    GAD expression in the first and second lines of
    transgene mice did not prevent diabetes.

22
Further examination of experiment
  • Further examination required the use of new
    control.
  • Mice carrying the antisense endogenous murine
    leukemia proviral env region DNA

23
  • Endogenous retroviral env protein

24
Results
  • 79 of the antisense transgenic mice carrying the
    endogenous retroviral env protein developed
    diabetes.
  • 82 of the transgene negative littermates
    developed diabetes.

25
What does this mean?
  • The prevention of diabetes in antisense GAD
    transgenic NOD mice is not due to the nonspecific
    effect of an antisense transgene incorporated
    into the chromosomal DNA.

26
Does B cell specific suppression affect B cell
specific autoimmunity
  • The salivary gland was examined to answer this
    question.

27
The salivary gland
  • The salivary gland show lymphocytic infiltration
    in diabetes prone NOD mice.
  • - Lymphocytic infiltration was not prevented in
    the H-AS-GAD-NOD mice.
  • Sialitis was similar to that of the transgene
    negative littermates.

28
Indication
  • Autoimmunity is not affected in other tissues.

29
How does the suppression of B cell inhibit
disease?
  • Possibly by blocking the development of DG T
    cells.

30
Samples for experimenation
  • Splenocytes were taken from
  • -20 week old, female
  • H-AS-GAD-NOD nondiabetic mice. - Age
    matched transgene negative nondiabetic
    littermates.

31
Experiment
  • Splenocytes from the two samples were transfused
    into 6 to 8 week old NOD severe combined
    deficiency disease mice.

32
The effect of B cell-specific suppression of GAD
expression on the development of B cell-cytotoxic
T cells and immune responses to autoantigens
33
Results for A
  • H-AS-GAD-NOD mice did not develop diabetes within
    10 weeks of the transplanted splenocytes
  • Diabetic NOD mice began to develop diabetes at 1
    week
  • The transgene negative began to develop diabetes
    at 2 weeks

34
Results for B, C, and D
  • No T cell proliferation was detected for any of
    the three ages of H-AS-GAD-NOD mice
  • With autoantigen HSP60 and insulin, those mice at
    15 weeks of age showed a small proliferative
    response

35
The effect of B cell-specific suppression of GAD
expression on the development of diabetes and
insulitis
36
Results for A
  • Little variation between the control and the low
    and medium AS-GAD-NOD mice
  • None of the mice developed diabetes before 10
    weeks of age
  • H-AS-GAD-NOD mice did not develop diabetes before
    40 weeks of age

37
Results for B
  • The transgene negative littermates, and the low
    and medium AS-GAD-NOD mice all showed moderate to
    severe insulitis
  • The H-AS-GAD-NOD mice showed 80 normal islets
  • Less than 20 showed periinsulitis

38
Results for C
  • There was a little more variation between the
    development of diabetes in the second three lines
    of AS-GAD-NOD mice
  • The control developed diabetes by 5 weeks
  • Low and medium AS-GAD-NOD mice developed diabetes
    at 10 weeks
  • The H-AS-GAD-NOD mice began to develop deiabetes
    by 25 weeks but less than 10

39
Results for D
  • There was no significant difference in the extent
    of insulitis between the high, medium, and low
    AS-GAD-NOD mice.

40
Indication
  • The generation of T cells that cause diabetes is
    blocked without the presence of B cell GAD.
  • With this the DG T cells were also blocked.

41
Conclusion
  • Diabetes can be successfully prevented with the
    complete suppression of the B cell GAD
    expression.
  • B cell GAD expression enhances the development of
    the disease causing diabetogenic T cells.
  • The diabetogenic T cells are responsible for the
    development of diabetes.
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