Immuno 2: Primary Immuno Defficiency

Question 1

Which Primary immunodeficiency disease is autosomal recessive and prevents stem cells from differentiating along myeloid or lymphoid cell Lines ?

Answer 1

Reticular dysgenesis

• causes recessive severe SCID (Severe combined immunodeficiency)

Question 2

Which primary immunodeficiency disease is characterised by failure of development of neutrophils ?

Answer 2

Kostmann syndrome

-Causes autosomal recessive congenital neutropenia

Question 3

Which primary immunodeficiency disease is characterised by cycles of reduced neutrophils (e.g every month) ?

Answer 3

Cyclical neutropenia

Question 4

Which two Cluster of differentiation (CD) markers make up LFA-1 (lymphocyte function-associated antigen)?

Answer 4

CD11a

CD18

Question 5

What is the endothelial cell receptor for LFA-1 that regulates Neutrophil adhesion/transmigration ?

Answer 5

ICAM-1 (Intercellular Adhesion Molecule 1)

Question 6

In which primary immunodeficiency disease do you get a defect in Neutrophil adhesion/transmigration across endothelial cells ?

Abnormal finding on blood count?

Answer 6

Leukocyte adhesion deficiency (LAD)

-CD18 deficiency causes LFA-1 defect which stops it binding to ICAM-1

Blood count =
V high neutrophil count (cant exit bloodstream) and no pus formation

Question 7

In which Primary immunodeficiency disease do you have a failure of oxidative killing mechanisms causing excessive inflammation and granulomas ?

Answer 7

Chronic Granulomatous disease

Also get lymphadenopathy and hepatosplenomegaly

Question 8

Which 2 tests can be used to diagnose Chronic Granulomatous disease ?

What are the results?

What are they testing?

Answer 8

Nitroblue tetrazolium test (NBT)
-ve = yellow, +ve = blue

DIhydrorhodamine flow cytometry test
+ve = fluorescent green

In both tests (-ve) ie no colour change = chronic granulomatous disease, +ve = presence of oxidative killing

NOTE: both of these tests are looking at the ability of neutrophils to produce hydrogen peroxide and oxidative stress

Question 9

Which 2 cytokines are important in activation signalling between macrophages and T cells ?

Answer 9

IL12

IFN gamma

Question 10

Deficiency of either IL12 or IFN gamma causes an increase of infections with …….

Answer 10

Atypical mycobacterium infections (eg. mycobacterium marinum)

Question 11

What is the treatment for Chronic Granulomatous disease ?

Answer 11

Interferon Gamma therapy

Question 12

What is the definitive treatment of primary immunodeficiency diseases ?

Answer 12

Haematopoietic stem cell transplant

Question 13

Which infections are people with Natural killer cell deficiency particularly at risk of ?

Answer 13

All viral infections but specifically Herpes Virus and Varicella Zoster Virus infections

Question 14

Where are complement proteins produced ?

Answer 14

The liver

Question 15

What type of infection are people with complement deficiency prone to

Answer 15

Encapsulated Bacteria

Question 16

Give 3 examples of encapsulated bacteria ?

Answer 16

NHS:

Neisseria Meningitides
Haemophilus Influenza
Streptococcus Pneumoniae

Question 17

How can complement deficiency lead to increased Immune complex deposition ?

Answer 17

Without complement phagocytes aren’t activated so necrotic cells aren’t cleared.

This causes a lot of self antigens such as dsDNA to float around. This can trigger an auto-immune response. The antibodies bind to the antigens causing complex formation which deposits in skin and joints etc.

Normaly complement stimulates clearance of immune complexes by phagocytes which does happen in the case of Complement deficiency.

Question 18

Which disease is really common in patients with C2 deficiency ?

Answer 18

SLE

• with severe skin disease + increased risk of infections

Question 19

What are nephritic factors ?

Answer 19

Auto-antibodies against C3

Autoantibodies that are directed against components of the complement pathway

They stabilise C3 convertases (break down C3) resulting in C3 activation and consumption

Question 20

Which complement molecule becomes deficient when there are nephritic factors present ?

Answer 20

C3

Question 21

List 2 diseases that are associated with acquired C3 deficiency (e.g due to nephritic factors)?

Answer 21

Glomerulonephritis (membranoproliferative)
Partial lipodystrophy (abnormal fat distribution)

Question 22

Name two functional complement assays and describe what they are testing

Answer 22

CH50 (Antibody-antigen complex = C1, C2 and C4, C3, C5-9) - test of classical pathway

AP50 (Involves bacterial cell wall = B, D, Properidin, C3, C5-9) - test of alternative pathway

Question 23

Examples of secondary immunodeficiency

Answer 23

Infection:
HIV
Measles
Mycobacterial infection

Biochem disorders:
Malnutrition
Zn/Fe deficiency
Renal impairment

Drugs:
Corticosteroids
Cytotoxic

Question 24

3 diseases of neutrophil deficiency?

Answer 24

Recticular dysgenesis

Kostmann syndrome

Cyclic neutropaenia

Question 25

With which innate immunity deficiency is meningococcal septicaemia associated?

Answer 25

Deficiency of complement (C1q)

Question 26

What does classical complement pathway deficiency increase susceptibility to?

Answer 26

SLE

Question 27

How does SLE affect complement?

Answer 27

Persistent production of immune complexes –> activation of classical pathway –> low levels of C3 and C4 (functional complement deficiency)

Question 28

What does abnormal CH50 and AP50 mean?

Answer 28

Issue with common pathway (C3, C5-9)

Question 29

Which complement deficiency is most associated with meningococcal disease?

Answer 29

C7 deficiency

Question 30

Broadly speaking, what are mechanisms of phagocyte deficiency?

Answer 30

Failure to produce neutrophils

Defect of phagocyte migration

Failure of oxidative killing

Cytokine deficiency

Question 31

Pathophysiology of chronic granulomatous disease?

Answer 31

Absent respiratory burst (deficiency of components of NADPH oxidase leads to inability to generate oxygen free radicals)

Excessive inflammation (persistent neutrophils and macrophage accumulation with failure to degrade antigens)

Granuloma formation

Lymphadenopathy and hepatosplenomegaly

Question 32

For each of the following diseases, state the expected neutrophil count, leucocyte adhesion markers, NBT/DHR test and presence of pus:

A) Kostmann syndrome
B) Leukocyte adhesion deficiency
C) Chronic granulomatous disease
D) IL12/IFN-gamma deficiency

Answer 32

A) Kostmann syndrome

• Absent neutrophil count
• Normal leucocyte adhesion markers
• No neutrophils for NBT/DHR
• No pus

B) Leukocyte adhesion deficiency

• High neutrophil count
• Absent CD18
• Normal NBT/DHR
• No pus

C) Chronic granulomatous disease

• Normal neutrophil count
• Normal leucocyte adhesion markers
• Abnormal NBT/DHR
• Pus present

D) IL12/IFN-gamma deficiency

• Normal neutrophil count
• Normal leucocyte adhesion markers
• Normal NBT/DHR
• Pus present

Question 33

For each of the following conditions, state the stereotypical presentation:

A) Kostmann syndrome
B) Leukocyte adhesion deficiency
C) Chronic granulomatous disease
D) IL12/IFN-gamma deficiency
E) Classical NK cell deficiency

Answer 33

A) Kostmann syndrome:
Recurrent infections with NO neutrophils on FBC

B) Leucocyte adhesion deficiency:
Recurrent infections with HIGH neutrophils on FBC and no pus formation

C) Chronic granulomatous disease:
Recurrent infections with hepatosplenomegaly and abnormal DHR

D) IFN-gamma receptor deficiency:
Infection with atypical mycobacteria
Normal FBC

E) Classical NK cell deficiency:
Severe viral infections (e.g. chickenpox, disseminated CMV)

Question 34

List some different complement deficiencies and state which is most common.

Answer 34

C1q
C1r
C1s
C2 – MOST COMMON 
C4

Question 35

Describe the stereotypical presentation of the following diseases:

A) C1q deficiency
B) C3 deficiency + nephritic factors
C) C7 Deficiency
D) MBL Deficiency

Answer 35

A) C1q deficiency
Severe childhood-onset SLE with normal levels of C3 and C4

B) C3 deficiency + nephritic factors
Membranoproliferative nephritis with abnormal fat distribution (partial lipodystrophy)

C) C7 Deficiency
Meningococcus meningitis with a family history of a sibling dying aged 6

D) MBL Deficiency
Recurrent infections when neutropaenic following chemotherapy, but previously well

Question 36

Mx of phagocyte deficiencies?

Answer 36

Aggressive management of infection (infection prophylaxis and oral/IV antibiotics when needed)

Haematopoietic stem cell transplantation

Specific treatment for chronic granulomatous disease (e.g. IFN-gamma therapy)

Question 37

Mx of NK cell deficiencies?

Answer 37

Prophylactic antiviral drugs (e.g. aciclovir)

Cytokines (e.g. IFN-alpha to stimulate NK cytotoxic function)

Haematopoietic stem cell transplantation

Question 38

Mx of complement deficiencies?

Answer 38

Vaccination (especially against encapsulated organisms)

Prophylactic antibiotics

Treat infection aggressively

Screen family members

Question 39

Investigating C3,C4, CH50 and AP50 in the following diseases:

A) C1q deficiency
B) Properidin deficiency
C) C9 deficiency
D) SLE

Answer 39

A) C1q deficiency

• Normal C3, C4 and AP50
• Patients with C1q deficiency, they’re unable to activate their classical pathway → low CH50

B) Properidin deficiency

• Normal C3, C4 and CH50
• Low AP50

C) C9 deficiency

• Normal C3, C4
• Low AP50 and CH50 - problem is in common pathway

D) Accquired SLE

• Low C4, possibly low C3 (if v active)
• May have low CH50 and normal AP50