Primary Immunodeficiency Disorders

Question 1

What is the difference between an autoimmune disease and a hypersensitivity?

Answer 1

Autoimmune- an organisms “self” cells are attacked by the immune system.

Hypersensitivity- the immune system reacts in excess to a seemingly harmless substance like pollen

Question 2

What is a situation where we intentionally disregulate the immune system?

Answer 2

Use immunosuppressives to avoid transplant rejection

Question 3

What is the difference between a primary and secondary immunodeficiency?

Answer 3

Primary- a gene defect (inherited)

Secondary- arises from infection (HIV), autoimmunity against immune cells, malignancies, steroid/drugs

Question 4

What can primary immunodeficiency lead to?

Answer 4

Cancer because the immune system will not be able to control infections or cancer cells

Question 5

What are 4 examples of your immune system “doing too much”?

Answer 5

1. Autoimmune- attacks its own cells
2. Hypersensitivity- overreaction to antigens
3. Transplant rejection by host attacking donor
4. GVHD when the donor tissue attacks the recipient

Question 6

What kind of gene defect causes most PID?

Answer 6

single gene defect

Question 7

What is the accepted prevalence of PID?

Answer 7

1/10,000 so about 400 babies a year in the US

Question 8

Over 50% of PID are due to a defect in what?

Answer 8

Ab

Question 9

The clinical presentation of PID depends on _______________________.

Answer 9

The component of the immune system that is deficient

Question 10

What are the research validated warning signs that someone has a PID?

Answer 10

1. Recurrent infections
2. Infection by strange organisms
3. Need for IV antibiotics to clear infection
4. Family history of PID
5. Failure to thrive

Question 11

Failure to thrive in an infant is usually a defect in what structure in the immune system?
Need for IV antibiotics is usually a defect in what ?

Answer 11

Failure to thrive- T cell defect

IV antibiotics- phagocytic defect

Question 12

What percent of WBCs is lymphocytes?

What percent of the lymphocytes are Bcells?

Answer 12

40% of WBC are lymphocytes

20% of lymphocytes are B cells

Question 13

What percent of serum proteins are Ig?

What Ig is also found in secretions?

Answer 13

30% of serum proteins

IgA

Question 14

What are the 3 ways that Ab participate in host defense?

Answer 14

1. Neutralization- prevent toxin from acting on a host because a toxin can bind a cell receptor but toxin-Ab complex cannot
2. Opsonization- extracellular bacteria are coated with Ab so they can be recognized by FcR on macrophages and other phagocytic cells
3. Complement activation- Ag:Ab complexes activate the classical pathway of complement activation

Question 15

What Ab crosses the placenta?

After the baby is born, when does it drop to the lowest level?

Answer 15

IgG–> nadir at 3-4 months

Question 16

When do Ab levels reach adult levels?

Answer 16

10 years of age

Question 17

If a baby has a defect in Ab production, when will you see clinical manifestation?

Answer 17

starting at about 3 months because that is when the mothers IgG no longer offers protective function

Question 18

What are the five major disorders linked to faulty Ab production/B cell defect?

Answer 18

1. Transient hypogammaglobulinemia in infancy
2. IgA deficiency
3. Hyper IgM
4. X-linked agammaglobulinemia (XLA)
5. CVID (common variable immunodeficiency)

Question 19

What is the clinical presentation of transient hypogammaglobulinemia?

Answer 19

Prolonged IgG nadir so at about 3 months, the child will have low IgG, but normal IgA, IgM and IgE.
They respond to vaccines

Question 20

What is the clinical presentation of IgA deficiency? (age of onset, deficient Ig)

Answer 20

The patient will have a complete absence of IgA.

The age of onset is variable.

Question 21

What is the most common B-cell defect?

Answer 21

IgA deficiency

Question 22

What is the presentation of CVID?

Answer 22

low IgG, with low IgA and/or IgM IgE
Most commonly associated with GI/respiratory problems.
Inadequate response to vaccines

Question 23

Why would someone develop Hyper IgM?

Answer 23

if the B-cell is unable to class switch from IgM to IgE IgA IgG in the germinal center

Question 24

What is the other name for X-linked agammaglobulinemia? What are the characteristics of this disorder?

Answer 24

Bruton’s agammaglobulinemia–> the patient will have no Ab because there is a defect in BTK (bruton’s tyrosine kinase) so the B cell can’t develop

Question 25

What are the six major ways a person with Ab deficiency usually present?

Answer 25

1. recurrent infections/sepsis (esp with encaspulated bacteria)
2. Bronchiectasis
3. Gastroentiritis
4. Enteroviral meningoencephalitis
5. Arthritis
6. Infections by: encapsulated bacteria, GNR, Ureaplasma, enterovirus, protozoa (Giardia)

Question 26

If you were looking at a histological sample of a patient’s spleen, and you noticed that it lacked germinal centers, what disorder would you hypothesize they had?

Answer 26

Bruton’s agammaglobulinemia (XLA)

Question 27

What molecular defect is linked with XLA?

Answer 27

Defect in BTK

Question 28

What molecular defects are linked with CVID?

Answer 28

CD19, ICOS, TACI, BAFF

Question 29

Which B-cell immunodeficiency diseases are responsive to IgG therapy?

Answer 29

1. XLA

2. CVID

Question 30

What is the major sign that a patient has CVID?

Answer 30

They are unable to make Ab to vaccines

Question 31

In what B-cell immunodeficiency disorder is there a lack of B cells?

Answer 31

XLA

Question 32

What fraction of circulating lymphocytes are T cells?

Answer 32

2/3

Question 33

What signal complex allows B-cells to isotype class switch from IgM to the other Igs?

Answer 33

CD40/CD40L (T-cell dependent)

CD40- B cell
CD40L- T cell

Question 34

What immunodeficiency disorder could be a B-cell defect OR a T-cell defect?

Answer 34

1. Hyper IgM (because to class switch you need CD40/CD40L interaction between B and T cells)
2. some strains of SCID

Question 35

What are the 5 features of a T-cell deficiency?

Answer 35

1. recurrent severe or unusual viral infections
2. Infections after live vaccines
3. Failure to thrive
4. GVHD from mother’s T-cells or blood transfusions
5. Infections with mycobacteria, fungi, viruses

Question 36

How many different molecular defects can cause SCID?

Answer 36

over 14

Question 37

What is the only treatment for SCID?

Answer 37

SCT

Question 38

All forms of SCID have no ______, however some forms many or may not have _____ or _____ cells.

Answer 38

SCID is associated with no T-cells

Some forms also lack B and/or NK cells

Question 39

Different forms of SCID occur based on what condition?

Answer 39

Where the defect lies in the lymphocyte development and the lymphocyte phenotype

Question 40

_________________ is the most common form of SCID and is due to mutations in ____________________.

Answer 40

X-linked SCID is the most common form and it is due to mutations in the common gamma chain which is a receptor for IL2, IL4. IL7, IL9, IL15 and IL21.

Question 41

What cytokines rely on the presence of the common gamma chain as their receptor?

Answer 41

2,4,7,9,15,21

Question 42

Patients with X-linked SCID lack what cells?

Answer 42

They still have B-cells (although not very effective ones)

But no NK cells or T cells

Question 43

Autosomal recessive SCID is caused by a mutation in what?

What is their lymphocyte profile like?

Answer 43

JAK3 mutation which causes the person to have no T or NK cells, but still make B cells

Question 44

T-B-NK+ SCID is caused by a mutation in what?

Answer 44

RAG 1/2.

This mutation will not have the BCR or TCR rearrange their genes causing the phenotype to lack B and T cells

Question 45

Patients with what SCID disorder can also have Omenn’s syndrome?
What cells are elevated in Omenn’s syndrome?

Answer 45

T-B-NK+ with mutations in RAG1/2.

Eosinophils are elevated in Omenn’s

Question 46

T-B-NK- SCID is characterized by a deficit in what?

What accumulates?

Answer 46

Adenosine Demainase (ADA) which is an enzyme in the purine salvage pathway. This patient accumulates dATP

Question 47

T-B+NK+ SCID patients have a deficit in what?

Answer 47

Genes responsible for normal T cell development like IL7R, CD3 (gamma, delta,epsilon or zeta), CD45

Question 48

What are the five major presentations of SCID?

What deficit is associated with each?

Answer 48

1. X-linked = T-B+NK- = common gamma chain
2. AR= T-B+NK- = JAK3
3. T-B-NK+ = RAG1/2
4. T-B-NK- = ADA
5. T-B+NK+ = T-receptor gene

Question 49

What age will SCID present?

Answer 49

usually before one year of life (frequently after 3 months when the protection of maternal IgG wears off)

Question 50

Why is the thymus absent on a CXR for SCID?

Answer 50

Because there are no thymocytes in the thymus, but it is still present so if you do a SCT the thymus will repopulate and it will show up on the scan?

Question 51

Why was SCID screening added to the Texas screening panel?

Answer 51

Because babies with SCID look normal and don’t show the defect until 3 months or so, so if it caught early, they can have SCT before they show symptoms

Question 52

What is the screening test for SCID?

What other disorder can be screened with the same test?

Answer 52

Looking for TRECs (T-cell receptor excision circles) that are a byproduct of development as TCR rearranges. It can also screen DiGeorge.

Question 53

What is the mutation in DiGeorge syndrome?

Answer 53

a missing segment on chromosome 22 (22q11.2)

Question 54

What triad of symptoms is seen in DiGeorge syndrome?

Answer 54

1. low or absent T cells because thymic aplasia
2. hypoparathyroidism causing low Ca
3. Congenital heart disease

Question 55

Where do all the symptoms of DiGeorge syndrome manifest?

Answer 55

Along the midline

Question 56

In addition to physical and facial abnormalities, what other symptoms are associated with DiGeorge?

Answer 56

Cleft palate, delayed speech, schizophrenia, difficulty feeding, behavioral problems

Question 57

What is the most common cause of hyper IgM?

Answer 57

mutations in CD40L on activated T-cells that cannot bind CD40 on B cells

Question 58

When a mycobacteria infects the body, what cells become activated? By what receptor?
What cytokine is produced?
What cells do the cytokine activate?

Answer 58

The mycobacterium activates macrophages or DC by the TOL receptor.
The DC/macro produce IL-12.
IL-12 acts on CD4 T cells and NK to produce IFN-gamma

Question 59

When IL-12 acts on CD4 and NK cells, what do they produce?

What are the 2 roles of their product?

Answer 59

They make IFN-gamma which:

1. stimulates macro/DC activation to increase anti-microbial function
2. Stimulate T and NK cells to release cytokines to kill targets

Question 60

If someone has a mutation in their IFN-gamma/IL-12 axis, what microbes are they especially susceptible to?

Answer 60

Intracellular bacteria like:
Mycobacteria
Listeria
Histoplasma
Nocardia

Question 61

What is the major component of the phagocytic system?

Answer 61

Neutrophils that are filled with granules that kill microbes

Question 62

What are neutrophils a major source of?

Answer 62

inflammatory mediators

Question 63

What molecules allow neutrophils to roll along vascular endothelial cells?
What molecules bind them tightly?

Answer 63

selectins allow rolling and integrin allows adhesion

Question 64

What is the major chemokine that directs neutrophils toward the infection site?

Answer 64

IL-8

Question 65

What are three forms of disease associated with quantitative levels of neutrophils?
What are quantitative defects called?

Answer 65

1. Congenital
2. Autoimmune
3. Cyclic
   Quantitative defects in neutrophils are called neutropenia

Question 66

What are the two diseases associated with functional defects in neutrophils?

Answer 66

1. Chronic granulomatous Disease

2. Leukocyte Adhesion Defect

Question 67

If neutrophils are lacking, what will the patient present with?

Answer 67

1. soft absesses
2. gingivitis
3. mucousal ulcerations
4. poor wound healing
5. Delayed separation of the umbilical cord
6. Infection by catalase + organisms

Question 68

What 6 organisms are catalase +?

Answer 68

staph aureus
serratia
burkholderia
nocardia
mycobacteria
fungal (asperigillus)

Question 69

What is the consequence of infections with bacteria that were ineffective at being killed by neutrophils?

Answer 69

hypergammaglobulinemia

Question 70

What are the two forms of chronic granulamatous disease?

Answer 70

X-linked and AR

Question 71

What is the fundamental defect in chronic granulamatous disease?

Answer 71

inability of phagocytes to generate superoxide anions (ROS).

Mostly due to a defect in the NADPH oxidase pathway

Question 72

What do aerobic pathogens produce when they are ingested by phagocytes?

Answer 72

Catalase to break down the H2O2 made by microbes

Question 73

Why do catalase + microbes persist in CGD?

Answer 73

Neutrophils in CGD arent able to produce ROS because of a defect in the NAPDH oxidase system. As a result, they rely on the H2O2 made by the bacteria

Question 74

What 2 lab tests are used to test for CGD?

Answer 74

1. Nitroblue tetrazolium test (NBT)–> ROS will reduce the tetrazolium from yellow to blue. If the neutrophil is CGD, it will not change color
2. Dihydrorhodamine Test (DHR) by flow cytometry–> if the neutrophil can oxidize, it will produce green fluorescence. It can differentiate between X-linked and AR

Question 75

Which test can differentiate between X-linked and AR CGD?

Answer 75

DHR flow cytometry:
X-linked has no increase in fluorescence
AR has a small increase in fluorescence

Question 76

What will carriers of CGD show on DHR flow cytometry?

Answer 76

a mosaic pattern of fluorescence

Question 77

What is the major defect with Leukocyte Adhesion Deficiency?

What do the patients have trouble doing?

Answer 77

The phagocyte cannot stop, anchor and move to the site of infection from the bloodstream.
The patients cannot form pus, but develop infected tissue masses

Question 78

What genetic defect causes LAD?

Answer 78

AR disorder due to defects in selectins or integrins leading to impaired chemotaxis and phagocytosis

Question 79

Which complement cascade defect is autosomal dominant?

Answer 79

Deficiency in C1-INH (C1 estarse inhibitor) that stops complement activation.

Question 80

What complement cascade defect is x-linked recessive?

Answer 80

Properdin deficiency

Question 81

What are the four major clinical presentations of patients with complement deficiency?

Answer 81

1. Blood-borne or systemic pyogenic infection with Neisseria
2. Sepsis, bacteremia and memingitis
3. rheumatologic disorders (C2, C4–> lupus)
4. Hemolytic uremic syndrome and glomeronephritis because of Factor H defect

Question 82

What does deficiency in C1-INH cause?

Answer 82

Hereditary angioedema (HAE) because Factor XXII becomes activated and activates kallikrein which catalyzes the formation of bradykinin and plasmin to activate C1 which cleaves C2 and C4 which increase vascular permeability and cause edema

Question 83

How do you differentiate between edema caused by C1-INH deficiency and IgE reaction?

Answer 83

IgE has histamine and is itchy

Question 84

What is the receptor for LPS?

Answer 84

TLR4

Question 85

What do TOL receptors on endosomal membranes sense?

Answer 85

viral nucleic acids

Question 86

What cytokines and chemokines are released when TLRs are activated?

Answer 86

IL-1, IL-6, IL-8, and TNFa that inflame tissue, produce fever and recruit neutrophils/monocytes

Question 87

What are the major TLR defects in humans?

Answer 87

MyD88, IRAK, NEMO, and TLR4 TLR3

Question 88

What kind of mutation is associated with Wiskott-Aldrich syndrome?
What is the triad of symptoms?

Answer 88

X-linked recessive mutation in the WASP gene

1. eczema
2. microthrombocytopenia
3. immunodeficiency

Question 89

What cells are affected by Wiskott-Aldrich syndrome?

What is the treatment?

Answer 89

T-cells, B-cells, and platelets

Treatment by SCT

Question 90

What are the mutations in Hyper IgE syndrome (Job syndrome)?

Answer 90

STAT-3 and Tyk2

Question 91

What is the clinical presentation of Hyper IgE?

Answer 91

pulmonary and skin infections, eczema, eosinophilia, facial abnormalities (horse faces)

Question 92

What is the gene defect in X-linked lymphoproliferative disorder?

Answer 92

defect in SLAM (signaling lymphocyte activation molecule) assicated protein (SAP)

Question 93

What virus are people with X-linked lymphoproliferative disorder prone to?
What is the only form of treatment?

Answer 93

EBV infections where dysgammaglobulinemia develops and lymphomas form.
Treated with SCT

Question 94

What five things are on the screening test for immunodeficiencies?

Answer 94

1. Blood cell count
   * neutrophils
   * leukocytes
   * lymphocytes
   * platelets
2. serum IgG, IgA, IgM
3. Antibody level to vaccines (dipther,tetanus, HIB, pneumococcus)
4. Lymphocyte subpopulations
   a. T cells- CD2, CD3, CD4, CD8
   b. B cells - CD19, CD20, CD21
   c. NK- CD16/56
5. Total hemolytic complement

Question 95

What disorders can be currently screened?

Answer 95

1. Ab- disorder
2. Cellular defects
3. Wiskott-Aldrich syndrome
4. Neutropenia
5. Classic Complement Defects

Question 96

What disorders cannot be screened with current testing?

Answer 96

1. Phagocytic defects - CGD, IL-12/IFN-g
2. Toll Receptors
3. NEMO
4. Hyper IgE
5. ALPS
6. Alternative complement