Immunodeficiencies

Question 1

Immunodeficiency

Classification: - describe

Answer 1

Primary (congenital): defect in immune system

Secondary (acquired): caused by another disease

Question 2

Immunodeficiency

Clinical features: for recurrent/severe infections

Answer 2

recurrent infections (normal: <6-8 URI/year for the 1st 10 years; 6 otitis media and 2 gastroenteritis/year for the 1st 2-3 years)

severe infections, unusual pathogens (Aspergillus, Pneumocystis), unusual sites (liver abscess, osteomyelitis)

Question 3

Warning signs of PID

Answer 3

2 or more of the following:

8 or more new ear infections within 1 year
2 or more serious sinus infections within 1 year
2 or more months on antibiotics with little effect
2 or more pneumonias within 1 year
Failure of an infant to gain weight or grow normally
Recurrent, deep skin or organ abscesses
Persistent thrush (mouth/elsewhere on skin) after age 1
Need for intravenous antibiotics to clear infections
2 or more deep-seated infections
A family history of primary immunodeficiency

Question 4

Primary Immunodeficiencies - cause and prevalence

Answer 4

Usually genetic

Infrequent but can be life-threatening

Question 5

Primary Immunodeficiencies - describe their sub classification

Answer 5

sub-classification: primary component affected
e.g. B cells, T cells, combined (both B & T)
often T cell defects impair antibody production
defects in lymphocyte development or activation

Question 6

Major B lymphocyte disorders: - list

Answer 6

X-linked agammaglobulinaemia (Bruton’s disease)
 Common variable immunodeficiency (CVID)
 Selective IgA deficiency
 IgG2 subclass deficiency
 Specific Ig deficiency with normal Igs

Question 7

X-linked Agammaglobulinaemia - define and describe effects

Answer 7

Bruton’s disease
defect in btk gene (X chromosome)
 encodes Bruton’s tyrosine kinase
 block in B-cell development (stop at pre-B cells) 
 recurrent severe bacterial infections

Question 8

Btk - function

Answer 8

Btk needed for pre-B cell receptor signalling

Question 9

X-linked Agammaglobulinaemia - investigations

Answer 9

• B cells absent / low; plasma cells absent
• all Igs absent / very low
• T cells and T cell-mediated responses normal

Question 10

X-linked Agammaglobulinaemia - treatment

Answer 10

Treatment:

• IVIg: 200-600mg/kg/month at 2-3 wk intervals
• or subcutaneous Ig weekly
• prompt antibiotic therapy (URI /LRI)
• Do not give live vaccines

Question 11

Predominant T cell disorders:

Answer 11

DiGeorge syndrome
Wiskott-Aldrich syndrome
Ataxia-telagiectasia

Question 12

SCID - define

Answer 12

Combined immunodeficiencies:

Severe Combined ImmunoDeficiency (SCID)

• involves both T and B
• 50-60% X-linked; rest - autosomal recessive

Question 13

SCID - Presentation:

Answer 13

well at birth; problems > 1st month
 diarrhoea; weight loss; persistent candidiasis
 severe bacterial/viral infections
 failure to clear vaccines 
 unusual infections (Pneumocystis, CMV)

Question 14

SCID - causes

Answer 14

common cytokine receptor γ-chain defect (signal transducing component of receptors for IL-2, IL-4, IL-7, IL-9, IL-11, IL-15, IL-21); IL-7 needed for survival T cell precursors => defective T cell development => lack in B cell help (low Ab)
RAG-1/RAG-2 defect => no T and B cells
ADA (adenosine deaminase deficiency); => accumulation of deoxyadenosine & deoxy-ATP => toxic for rapidly dividing thymocytes

Question 15

SCID - investigations

Answer 15

Lymphocyte subsets: T, B, NK (% and numbers) => low total lymphocyte count => SCID sign!
Pattern: very low/absent T; normal/absent B, sometimes also absent NK (γ-chain defect affecting IL-15 receptor)
Igs low
T cell function ↓ (proliferation, cytokines)

Question 16

SCID - treatment

Answer 16

isolation => to prevent further infections
Do not give live vaccines !
Blood products from CMV-negative donors
IVIg replacement
Treat infections
Bone marrow/haematopoietic stem cell transplant
Gene therapy (for ADA and γ-chain genes)

Question 17

SCID - outcome

Answer 17

dependent on promptness of diagnosis
Survival >80% (early diagnosis, good donor match, no infections pre-transplant)
Survival <40% (late diagnosis, chronic infections, poorly matched donors)
Regular monitoring post BMT => engraftment

Question 18

DiGeorge syndrome (thymic hypoplasia): - define and describe effects

Answer 18

22q11 deletion => failure development 3+4th pharyngeal pouches

complex array of developmental defects
dysmorphic face: cleft palate, low-set ears, fish-shaped mouth
hypocalcaemia, cardiac abnormalities
variable immunodeficiency (absent/reduced thymus => affects T cell development)

Question 19

Wiskott-Aldrich syndrome (WAS): - define and describe effects

Answer 19

X-linked
defect in WASP (protein involved in actin polymerisation => defect in signalling)
thrombocytopaenia, eczema, infections
progressive immunodeficiency (T cell loss)
progressive ↓ T cells; ↓ T cell proliferation
Ab production (↓ IgM, IgG; high IgE, IgA)

Question 20

Ataxia-Telangiectasia (AT): - define

Answer 20

autosomal recessive

defect in cell cycle checkpoint gene (ATM) => sensor of DNA damage => activates p53 => apoptosis of cells with damaged DNA

ATM gene stabilises DNA double strand break complexes during V(D)J recombination => defect in generation of lymphocyte antigen receptors & lymphocyte development

Question 21

Ataxia-Telangiectasia (AT): - describe effects

Answer 21

progressive cerebellar ataxia (abnormal gait)
typical telangiectasia (ear lobes, conjunctivae)
immunodeficiency
increased incidence of tumours later in life
defects in production of switched Abs (IgA/G2)
T cell defects (less pronounced) <= thymic hypoplasia
upper & lower respiratory tract infections
autoimmune phenomena, cancer

Question 22

Phagocyte defects: - describe types and list examples

Answer 22

quantitative (↓ number)
 qualitative
 Chronic granulomatous disease 
 Chediak-Higashi syndrome
 Leucocyte adhesion defects (LADs)

Question 23

Chronic granulomatous disease - define

Answer 23

Defective oxidative killing of phagocytosed microbes; mutation in phagocyte oxidase (NADPH) components

as assembly of NADPH oxidase = superoxide anion in the activated phagocyte

Question 24

CGD - define

Answer 24

Phagocyte defects - CGD

formation of granulomas (wall off microbes)

Question 25

CGD - diagnosis

Answer 25

Diagnosis:

Tests that measure oxidative burst: 
NBT test (nitroblue tetrazolium reduction)
Flow cytometry assay dihydrorhodamine

Question 26

Chediak-Higashi syndrome - define

Answer 26

rare genetic disease
defect in LYST gene (regulates lysosome traffic)
neutrophils have defective phagocytosis
repetitive, severe infections

Question 27

Chediak-Higashi syndrome - explain the cause of recurrent infections

Answer 27

Defect phagosome-lysosome fusion => defective killing of phagocytosed microbes => recurrent infections

Question 28

Chediak-Higashi syndrome - diagnosis

Answer 28

decreased number neutrophils

neutrophils have giant granules

Question 29

LAD (leucocyte adhesion deficiency) - define

Answer 29

defect in β2-chain integrins (LFA-1, Mac-1)
defect in sialyl-Lewis X (selectin ligand)

delayed umbilical cord separation => diagnosis defect in β2-chain integrins (LFA-1, Mac-1)

Question 30

LAD (leucocyte adhesion deficiency) - presentation

Answer 30

Presentation:

=> skin infections, intestinal + perianal ulcers

Question 31

LAD (leucocyte adhesion deficiency) - investigations

Answer 31

↓ neutrophil chemotaxis

↓ integrins on phagocytes (flow cytometry)

Question 32

Complement deficiencies - effect and symptoms

Answer 32

can affect different complement factors severe/fatal pyogenic infections (C3 deficiency)
predisposition to infection with different pathogens
symptoms differ depending on C factor affected

Question 33

Complement deficiencies - describe examples

Answer 33

recurrent infections (Neisseria) - deficiency terminal complex (MAC): C5, C6, C7, C8 & C9
 severe/fatal pyogenic infections (C3 deficiency)
 SLE-like syndrome (C1q, C2, C4 deficiency)
 hereditary angioneurotic oedema: failure to inactivate complement (deficiency in C1 inhibitor); intermittent acute oedema skin/mucosa => vomiting, diarrhoea, airway obstruction

Question 34

Complement deficiencies - investigations

Answer 34

complement function: CH50 (haemolysis)

measure individual components

Question 35

PID: treatment principles - aims

Answer 35

Aims:

• replace defective/absent component of IS
• minimise/control infection
  prompt treatment of infection
  prevention of infection: isolation, antibiotic prophylaxis, vaccination (not live vaccines!)
  good nutrition

Question 36

PID: treatment principles - examples

Answer 36

Immunoglobulin replacement therapy
Bone marrow transplantation
Gene therapy

Question 37

Secondary Immunodeficiency - causes

Answer 37

Infections: viral, bacterial
Malignancy 
Extremes of age
Nutrition (anorexia, iron deficiencies)
Chronic renal disease
Splenectomy
Trauma/surgery, burns, smoking, alcohol
Immunosuppressive drugs

Question 38

Secondary Immunodeficiency - list types of infections with examples for each

Answer 38

viral: HIV, CMV, EBV, measles, influenza
chronic bacterial: TB, leprosy
chronic parasitic: malaria, leishmaniasis
acute bacterial: septicaemia

Question 39

Secondary Immunodeficiency - list examples of malignancies

Answer 39

Myeloma
Lymphoma (Hodgkin’s, non-Hodgkin’s)
Leukaemia (acute or chronic)

Question 40

Secondary Immunodeficiency - explain the effect of extremes of age

Answer 40

Prematurity

• infants < 6 months => maternal IgG
• premature delivery: interrupts placental transfer of IgG => infant Ig deficient

Old age

• decline in normal immune function