3. Innate Immune Response

Question 1

What are the 4 main components of the innate immune response?

Answer 1

1- Complement, phagocytosis and cytokine/chemokine production

2. Vasodilation/vascular permeability… neutrophils and monocytes
3. Fever (via hypothalamus) and acute phase response (via liver)
4. Local inflammation (rubor, calor, dolor and tumor)

Question 2

What is the function of monocytes?

Answer 2

Present in blood, recruited at infection site and differentiate into macrophages

Question 3

What is the function of macrophages?

Answer 3

Present in all organs.

1. phagocytosis (ingest and destroy pathogens)
2. antigen-presenting cells (to T cells) - activate adaptive immunity
3. produce cytokines/chemokines - activate inflammation

Question 4

What is the function of neutrophils?

Answer 4

Present in blood (increased during infection), phagocytose pyogenic bacteria (eg S. aureus and Strep. pyogenes)

Question 5

How are neutrophils recruited? What happens to them after phagocytosis?

Answer 5

• Recruited by chemokines to infection site.

- Die after phagocytosis, forming pus.

Question 6

What is the function of basophils/mast cells?

Answer 6

Early regulators of inflammation via vasomodulation.

Important in allergic responses.

Question 7

What is the function of eosinophils?

Answer 7

Defence against multi-cellular parasites (worms)

Question 8

What is the function of natural killer cells?

Answer 8

Kills abnormal host cells (virus-infected or malignant)

Question 9

What is the function of dendritic cells?

Answer 9

Present microbial antigens to T cells - activate adaptive immune system

Question 10

How are pathogens recognised by the innate immune system?

Answer 10

1. Recognition of microbial PAMPs (pathogen-associated molecular patterns) by phagocytic PRRs (pathogen recognition receptor)
2. Pathogen opsonisation - enhances recognition and attachment of phagocytes

Question 11

Give examples of PAMPs and their associated PRR.

Answer 11

Gram-negative bacteria:

• lipopolysaccharide (TLR4)
• lipoproteins and lipopeptides (TLR2)

Gram-positive bacteria:

• peptidoglycan (TLR)
• lipoteichoic acids (TLR4)

All mycobacteria:

• lipoarabinomannan (TLR2)
• mannose-rich glycans (TLR2)

Bacterial flagella:
- flagellin (TLR5)

Question 12

What are the 2 main types of PRR?

Answer 12

• Toll-like receptors - on phagocyte surface (bacterial recognition)
• Nod-like receptors - intracellular (viral recognition)

Question 13

Name examples of opsonins.

Answer 13

1. Complement proteins (C3b, C4b)
2. Antibodies (IgG, IgM)
3. Acute phase proteins (CRP, MBL)

Question 14

Which type of bacteria particularly require opsonisation to be cleared?

Answer 14

Encapsulated bacteria such as N. meningitidis, Strep. pneumoniae and H. influenza B.

(capsule prevents easy recognition by phagocytes)

Question 15

Describe the steps involved in phagocytosis.

Answer 15

1. chemotaxis and adherence of MO to phagocyte.
2. phagocytosis and phagosome formatiion
3. phagolysosome formation by fusion with lysosome
4. enzymatic degradation of MO
5. formation of residual body containing indigestible material
6. exocytosis of waste materials

Question 16

Describe the 2 phagocyte intacellular killing mechanisms.

Answer 16

1. Oxygen-dependent pathway (respiratory burst)
   - production of toxic ROS, inc. hydrogen peroxide, hydroxyl radical and nitric oxide
2. Oxygen-independent pathways
   - lysozyme
   - lactoferrin/transferrin
   - cationic proteins (cathepsin)
   - proteolytic and hydrolytic enzymes

Question 17

How is the complement system activated?

Answer 17

1. LECTIN pathway: recognition of microbial surface carbohdyrates by PRRs - mannose-binding lectins (MBLs) (or L-, M- and H-ficolins).
2. CLASSICAL pathway: binding of C1 complex directly with pathogen or to Fc component of antigen-antibody complex.
3. ALTERNATIVE pathway: C3b binds directly to pathogen surface.

Question 18

Describe the antimicrobial actions of the complement system.

Answer 18

1. C3a and C5a = chemoattractants - recruit phagocytes
2. C3b = opsonin
3. C5b-C9 = membrane-attack complex - form pores

Question 19

What are the 3 main actions of cytokines/chemokines?

Answer 19

1. chemoattraction
2. phagocyte activation
3. inflammation

Question 20

Describe the effect of cytokines released by macrophages.

Answer 20

Activated macrophages release TNFa, IL-1 and IL-6.

1) Stimulate hypothalamus to produce prostaglandin… increase body temperature… fever.
2) Inflammatory actions: increase vasodilation, vascular permeability and expression of BV adhesion molecules… neutrophil recruitment and migration into tissues.
3) Stimulate neutrophil production/mobilisation in the BM via increased G-CSF (granulocyte-colony stimulating factor) production.
4) Stimulate production of proteins by the liver.

Question 21

Which liver proteins do TNFa, IL-1 and IL-6 stimulate the production of?

Answer 21

• Opsonising proteins: C3, C4 (enhances complement activation) and CRP
• Damage-limiting proteins: a1-antitrypsin, haptoglobin
• Clotting factors: fibrinogen

Question 22

What are the functions of CRP?

Answer 22

1. Opsonisation: binds surface-phospholipids of some bacteria (eg pneumococcus)
2. Activates complement system through lectin pathway.

Question 23

How is the acute-phase response triggered and what does it involve?

Answer 23

• Triggered by TNFa, IL-1 and IL-6 released by activated macrophages.
• Effects:
  1. Fever by hypothalamus stimulation
  2. Liver production of: complement proteins, CRP, a1-antitrypsin and haptoglobin (damage-limiting proteins), and fibrinogen
  3. Increased neutrophil production by BM stimulated by G-CSF
  4. General activation of adaptive immune response… increase in immunoglobulins

Question 24

What is ESR? Why is it measured clinically?

Answer 24

• ESR = erythrocyte sedimentation rate.
• Is increased during inflammation due to increased plasma viscosity caused by increased synthesis of acute phase proteins.
• But takes longer than CRP to become abnormal during an inflammatory response.

Question 25

How does aspirin reduce fever?

Answer 25

Blocks prostaglandin production by the hypothalamus.