Primary Immunodeficiency and Transplantation

Question 1

What is the average incidence of IgA deficiency?

Answer 1

1/500 to 1/700

Question 2

What are the six main hallmarks of a primary immunodeficiency?

Answer 2

1. Abnormal immune cell development
2. Abnormal cell-to-cell communication
3. Abnormal embryonic differentiation
4. Enzyme defects
5. Absence of cell surface adhesion molecules
6. Defective complement or Ig synthesis

Question 3

Primary antibody deficiencies are caused by what?

Answer 3

Defects in the genes for B cell differentiation or Ig genes

Question 4

What are the key clinical finding a an Ab deficiency?

Answer 4

1. recurrent infection by encapsulated bacteria
2. Gram- rods, staph, H influenza
3. Normal response to viruses but memory doesnt develop
4. Autoimmunity, lymphoid hypertrophy, allergy

Question 5

What three things mediate immune response to pyogenic bacteria?

Answer 5

1. Ab
2. Neutrophils
3. complement

Question 6

Why are patients with Ab deficiency still able to clear viral infection?

Answer 6

They still have a T cell response which is the prime factor for viral infection
They will not have long lasting immunity though so chicken pox, mumps, etc can reoccur in these patients

Question 7

What is the cause of X-linked Agammaglobulinemia?

Answer 7

XLA is caused by a loss of function of BTK (bruton’s tyrosine kinase) on the X chromosome.

This blocks B cell maturation at the pre-B cell stage. IgM forms the heavy chain, but then since cell signalling is lost, it cannot make a light chain

Question 8

Who is more likely to get XLA, men or women? When will signs of disease show?

Answer 8

Men because it is x-linked and signs will show at about 6 months whene the passive transfer of the mother’s Ab are gone

Question 9

What are clinical manifestations of XLA?

Answer 9

1. recurrent respiratory infection, ear infections, sinus infection
2. Diarrhea bc of G. lamblia
3. Systemic infections
4. skin infections

CAN clear most viruses EXCEPT enteroviruses loke echo, coxsackie and polio

Question 10

What vaccine should NOT be given if XLA is suspected?

Answer 10

Polio vaccine because they will get paralytic poliomyelitis

Question 11

What is the cause of Hyper-IgM syndrome?

What problems does this create?

Answer 11

A defect in CD40/40L.
X linked = CD40L

1. CD40L on T cells following activation bind to CD40 on B cells to activate them and allow class switching
2. CD40L binds CD154 on macrophages to make IL12 which causes IFNg production

Question 12

What pathogen would a person with HyperIgM have a tough time clearing? Why?

Answer 12

P. jiroveci because CD40 can’t bind CD154 on macrophages to produce IL12 necessary for IFNg production

Question 13

What would be the clinical findings of a person with hyper IgM?

Answer 13

1. elevated levels of IgM and low IgG IgA IgE
2. normal B and T cell count
3. respiratory infection, CMV, P. jiroveci, crypotocuccus
4. lymphoid hyperplasia

Question 14

What causes IgA deficiency?

What will serum levels be?

Answer 14

The inability of B cells to differentiate into IgA secreting plasma cells

Serum:
Low IgA
normal IgM
normal OR low IgG

Question 15

What are the clinical manifestations of IgA deficiency?

Answer 15

1. respiratory tract infection
2. diarrhea
3. occasional high IgE which can be directed against IgA (high risk in blood transfusions)
4. develop SLE
5. GI and lymphoid malignancy

Question 16

What is the most common primary antibody deficiency?

Answer 16

CVID- common variable immunodeficiency

Question 17

When are most cases of CVID diagnosed?

Who does it primarily affect?

Answer 17

Affects males and females of European descent and presents in adulthood

Question 18

How do you differentiate someone with CVID from someone with Celiac’s disease?

Answer 18

Put them on a gluten free diet.
Better = Celiacs
No change = CVID

Question 19

What specific viruses can’t be cleared by CVID patients?

Answer 19

Hep B and C

Question 20

Most patients with CVID have normal ______.

Answer 20

numbers of B cells

Question 21

Primary T cell immunodeficiencies result from ____________________ but they will often present as ____________.

Answer 21

They result from defective T cell differentiation or function but they will present as combined immunodeficiencies because T cells play a large role in activating macrophages and B cells

Question 22

What are the 8 signs of a Tcell immunodeficiency?

Answer 22

1. Failure to Thrive
2. Infection by intracellular pathogens
3. Recurrent infection
4. Infection by opportunisitic pathogens
5. Diarrhea/malabsorption
6. Allergy
7. Autoimmunity
8. Lymphoma

Question 23

What is the defect in SCID?

Answer 23

Caused by defect in T cell differentiation and may or may not involve B cell differentiation.

Question 24

What is necessary for a SCID patient to survive past early childhood?

Answer 24

Hemopoeitic Stem Cell transfusions

Question 25

What are the 4 types of SCID?

Answer 25

1. Reticular Dysgenesis
2. Alymphocytosis
3. Abscence of T lymphocytes
4. Adenosine Deaminase Deficiency (ADA)

Question 26

How does one acquire Reticular Dysgenesis SCID and what cells are affected?

Answer 26

It is autosomal recessive mutation and affects T, B, NK, leukocytes and platelets

Question 27

What is the cause of Alymphocytosis?

Answer 27

Autosomal recessive mutation in RAG1/RAG2 so there cannot be VDJ rearrangement of T cell receptors and Ig genes

Question 28

What is the cause of SCID with abscent T lymphocytes?

What are the three potential mutations?

Answer 28

X-linked that affects T and NK cells (common)
Auto recessive (less common)

Mutation is in JAK3, IL7R alpha chain or gamma c chain

Question 29

What causes ADA deficiency?

Answer 29

Auto recessive that affects T, B, NK cells

Mutation in ADA enzyme that metabolizes purines
High levels of adenosine are toxic to lymphocytes

Question 30

What are clinical manifestations of SCID?

Answer 30

1. Early onset of respiratory/GI infections
2. Oral candida
3. Diarrhea
4. growth impairment
5. LIVE VACCINE IS A THREAT
6. Graft vs Host bc of maternal lymphocytes

Question 31

What is DiGeorge syndrome?

Answer 31

A T-cell deficiency with combined features due to improper development of the 3rd and 4th branchial arches

Question 32

What are the 5 major defects with DiGeorge?

Answer 32

1. No thymus
2. Facial defects (micrognathia, low ears)
3. cardio defects (truncus arteriosis)
4. mental retardation
5. feeding difficulty

Question 33

What is the cause of Wiscott-Aldrich syndrome?

Answer 33

X-linked disease caused by a mutation in the gene encoding WA syndrome protein
It is associated with age-related depletion in T cells in the periphery (born with right number and depletes as life goes on)

Question 34

What are the four types of transplant?

Answer 34

1. Autologous- from same person
2. Syngeneic- from identical twin
3. Allogeneic- from HLA related donor
4. Xenogeneic- from different species

Question 35

What level of immunosuppression is needed for an autologous transplant?

Answer 35

None because it is self-to-self.

This is typical for cardiac bypass where vessels from leg are moved to heart

Question 36

What is the most common type of transplant?

Answer 36

Allogeneic

Question 37

What determines the dose of immunosuppressant needed when doing an allogeneic transplant?

Answer 37

1. the level of HLA match between donor and recipient

2. the sensitization of the patient (do they have anti-HLA antibodies?)

Question 38

What is HLA?

What region of the chromosomes is it located on?

Answer 38

Human leukocyte antigen and it is the most polymorphic gene found in humans.
It is the most potent alloantigen in transplantsI
It is on chromosome 6

Question 39

What are the major HLA classes?

Answer 39

HLA I = HLA-A HLA-B HLA-C

HLA II =1 HLA-DR HLA-DQ HLA-DP

Question 40

What are clinical manifestations of SCID?

Answer 40

1. Early onset of respiratory/GI infections
2. Oral candida
3. Diarrhea
4. growth impairment
5. LIVE VACCINE IS A THREAT
6. Graft vs Host bc of maternal lymphocytes

Question 41

What is DiGeorge syndrome?

Answer 41

A T-cell deficiency with combined features due to improper development of the 3rd and 4th branchial arches

Question 42

What are the 5 major defects with DiGeorge?

Answer 42

1. No thymus
2. Facial defects (micrognathia, low ears)
3. cardio defects (truncus arteriosis)
4. mental retardation
5. feeding difficulty

Question 43

What is the cause of Wiscott-Aldrich syndrome?

Answer 43

X-linked disease caused by a mutation in the gene encoding WA syndrome protein
It is associated with age-related depletion in T cells in the periphery (born with right number and depletes as life goes on)

Question 44

What are the four types of transplant?

Answer 44

1. Autologous- from same person
2. Syngeneic- from identical twin
3. Allogeneic- from HLA related donor
4. Xenogeneic- from different species

Question 45

What level of immunosuppression is needed for an autologous transplant?

Answer 45

None because it is self-to-self.

This is typical for cardiac bypass where vessels from leg are moved to heart

Question 46

What is the most common type of transplant?

Answer 46

Allogeneic

Question 47

What determines the dose of immunosuppressant needed when doing an allogeneic transplant?

Answer 47

1. the level of HLA match between donor and recipient

2. the sensitization of the patient (do they have anti-HLA antibodies?)

Question 48

What is HLA?

What region of the chromosomes is it located on?

Answer 48

Human leukocyte antigen and it is the most polymorphic gene found in humans.
It is the most potent alloantigen in transplantsI
It is on chromosome 6

Question 49

What are the major HLA classes?

Answer 49

HLA I = HLA-A HLA-B HLA-C

HLA II =1 HLA-DR HLA-DQ HLA-DP

Question 50

What are the two types of immune recognition of allografts? How does each occur?

Answer 50

1. Direct recognition where the graft recipients T cells recognize foreign MHC displayed on foreign APC and the CD8 cells kill the graft and CD4 cells cause inflammation
2. Indirect allorecognition- when the recipient T cell recognizes recipient APC presenting foreign (donor) peptide. CD4 cells will drive inflammation and B cells will produce alloantibodies

Question 51

Which allorecognition (direct or indirect) occurs first?

Answer 51

Direct occurs first because it is donor peptide presented on donor APC. After some time, all the donor APC will be killed

Question 52

What is the role of CD8 in T cell mediated rejection of the graft?

Answer 52

It kills cells present in the allograft causing tissue and endothelial death which can lead to thrombosis and ischemia

Question 53

What is the role of CD4 in T cell mediated rejection of a graft?

Answer 53

It will produce cytokines and cause inflammation which resembles delayed type hypersensitivity in the graft and vessels resulting in ischemia and graft destruction

Question 54

What is humeral rejection?

Answer 54

When T cells help activate B cells which will generate Ab against the graft. Ab binding to the graft will cause vascular injury, thrombosis and ischemic damage via complement mechanisms

Question 55

What are the three main types of graft rejection?

Answer 55

1. Hyperacute rejection
2. Acute rejection
3. Chronic rejection

Question 56

Describe the time scale add mechanism of hyperacute graft rejection.

How often does it occur?

Answer 56

Hyperacute rejection occurs within minutes to hours of the transplantation and is due to the presence of pre-formed anti-HLA antibodies that bind to endothelium and promote clotting.

This rarely occurs because people are screened for preformed donor Ab

Question 57

Describe acute rejection in terms of time scale and mechanism/

How often does this occur?

Answer 57

It occurs days to months after transplantation and can be cell or Ab mediated.

It occurs when patients stop taking immunosuppressant drugs because they “feel better”

Question 58

Describe chronic rejection in terms of time scale and mechanism.

How often does it occur?

Answer 58

It occurs months to years after the transplant and occurs for most grafts.

It is the most common cause of long term kidney failure

Question 59

Immunosuppressive drugs can control __________ rejection well, but they are not effective for ______.

Answer 59

Control acute rejection but are not effective at treating chronic infection

Question 60

What are three ways we can improve graft survival?

Answer 60

1. HLA matching
2. Testing for donor specific Ab (to prevent hyperacute)
3. Immunosuppression

Question 61

Routine screenings of are done in post-transplant recipients to check for the development of _______.

Answer 61

donor specific HLA AB to help diagnose potential Ab-mediated rejection

Question 62

Currently used immunosuppressive drugs are NOT _________ therefore they can place the recipient at higher risk of infection

Answer 62

antigen specific

Question 63

What are the seven common immunosuppressive drugs?

Answer 63

1. corticosteroid
2. cytotoxic drugs
3. antimetabolites
4. calcineurin inhibitors
5. Mycophenolate Mofetil
6. Anti-IL2
7. Antithymocyte globulin

Question 64

Why are corticosteroids used for immunosuppression?

Answer 64

They inhibit lymphocyte proliferation by down-regulating IL2

Question 65

What is a major cytotoxic drug that can allow for immunosuppression and what is the mechanism?

Answer 65

Cyclophosphamide alkylates and damages cells by crosslinking DNA to inhibit T cell and B cell immunity and inflammation

Question 66

What are the two major antimetabolites used in immunosuppression?

Answer 66

1. methotrexate- blocks folate acid synthesis

2. azathioprine- antagonizes purine synthesis (Cell mediated and humoral)

Question 67

What is the major calcineurin inhibitor that allows for immunosuppression? What is the mechanism?

Answer 67

Tacrolimus and cyclosporin blocks the NFAT pathway

Question 68

What is the function of mycophenolate mofetil?

Answer 68

It blocks lymphocyte production and guanine nucleotide synthesis

Question 69

What does antithymocyte globulin do?

Answer 69

it induces immunosuppression by making Ab against thymocytes so less T cells are in circulation

Question 70

What are the three conditions that would require hematopoietic stem cell transplantation?

Which can be autologous? Which must be allogeneic?

Answer 70

1. leukemia- either
2. lymphoma- either
3. immunodeficiency- must be allogeneic

Question 71

What cells are involved in the rejection of allogeneic HSC transplants?

Answer 71

T and NK cells.

Humoral response is not seen in bone marrow transplant, however alloantibodies can prevent engraftment of HSC recipients

Question 72

What is GVHD?
What are the clinical presentations?
What is the benefit?

Answer 72

Donor T cells recognize the recipients tissue as foreign and mount an immune response.

It causes rashes, destruction of gut epithelium, bile duct and jaundice.

The benefit of GVHD is that donor T cells can provide a Graft-Vs-LEukemia effect reducing the risk of recurrence