Innate Immunity II

Question 1

What are the soluble innate immune molecules?

Answer 1

• Enzymes e.g lysozyme
• Antimicrobial peptides
• Collectins and pentraxins
• Complement components

Question 2

What do lysozymes do?

Answer 2

• Secreted by phagocytes and paneth cells
• Effective against Gram-positive bacteria
• Cleaves bond between alternating sugars

Question 3

How do collectins, ficolins and pentraxins work?

Answer 3

• Soluble PRRs
• Act as opsonins
• Activate complement through classical/lectin pathway

Question 4

What is the complement system?

Answer 4

• Acts in sequence of one protein activating another - complement cascade
• Helps antibodies/phagocytic cells clear pathogens

Question 5

• What happens when complement system activated?
• Where are complement proteins synthesised?

Answer 5

• Cooperates with defence systems to generate inflammation and remove pathogen
• Mostly in liver by also by monocytes, macrophages

Question 6

Describe complement system components and what they do.

Answer 6

• Proteins C1-C9, factors B,D, H etc. - in order of discovery
• Enhances inflammation, pathogen lysis and phagocytosis (by opsonising antigens)

Question 7

How does the complement system enhance innate/adaptive immunity?

Answer 7

• Neutralising viruses
• Attracts macrophages and neutrophils by chemotaxis
• Promote antibody formation

Question 8

Briefly outline the pathways of complement activation.

Answer 8

• CLASSICAL - Antigen-antibody complex or C1q binding to pathogen surface
• LECTIN - MBL or ficolins bind carbohydrates on pathogen surfaces
• ALTERNATIVE - Direct activation when C3 binds antigens

Question 9

Describe converging within the complement pathways.

Answer 9

• Involves protein activation in orderly sequence
• Each step catalyses the next
• Each pathway converges on C3 - cleaves into C3a and C3b
• Initiates common terminal pathway - enhances lytic pathway

Question 10

What does the classical pathway involve?

Answer 10

• Involves complement components C1, C2 and C4
• Triggered by binding of antigen-antibody complexes to C1 complex
• C1 made up of C1q, C1r and C1s

Question 11

How is the classical pathway activated?

Answer 11

• Triggered when C1 binds to Fc region of antibody-antigen complex
• C1 - must bind at least 2 Fc domains of Ig - causes conformational change
• IgM - most efficient at activation - 5 domains

Question 12

Does serum IgM bind C1?

Answer 12

NO (not in original state)
- Has planar conformation
- C1q binding sites only revealed upon antigen binding

Question 13

Describe amplification in the classical pathway. PART 1

Answer 13

• Binding C1q to Fc domain of Ig causes conformational change in C1r
• C1s is cleaved and activates C2 and C4 splitting into large and small fragments and bind to form C3 convertase
• Spils C3 into C3a and C3b

Question 14

Describe amplification in the classical pathway. PART 2

Answer 14

• C3b binds to C3 convertase form C5 convertase
• This cleaves C5 into C5a and C5b
• C5b forms complex with C6-C9 and becomes membrane attack complex
• C5a - anaphylatoxin proinflammatory mediator

Question 15

Describe alternative pathway. PART 1

Answer 15

• C3 activated by pathogenic antigens - hydrolyses into C3a and C3b
• C3b binds to cell membrane and factor B - susceptible to cleavage by factor D
• Factor D cleaves C3b so C3 convertase forms

Question 16

Describe alternative pathway. PART 2

Answer 16

• Convertase has short hal-life unless binds to serum protein properdin - extends half life
• Convertase hydrolyse C3 to C3a and C3b - amplifies signal
• C3b forms C5 convertase - cleaves C5 to C5a and C5b
• C5b, C6-C9 form MAC

Question 17

Describe lectin pathway. PART 1

Answer 17

• Activated by MBL binding to mannose residues or ficolins
• MBL binds mannose residues on carbohydrates/glycoproteins
• Activates MBL-associated serine proteases cleave C4 and C2 to form convertase

Question 18

Describe lectin pathway. PART 2

Answer 18

• C5b, C6-C9 forms MAC

Question 19

What does the membrane attack complex do?

Answer 19

• Forms pore in membrane
• Allows diffusion of ions and cause water influx cell - causing cell lysis
• Human cells have proteins to prevent unwanted MAC formation

Question 20

What do the following complement components do?
- C3b
- C3a
- C5a

Answer 20

• C3b - promotes opsonisation
• C3a - anaphylatoxin - stimulates infammation by attracting neutrophils
• C5a - activates mast cells

Question 21

Describe viral neutralisation

Answer 21

• Activates classical pathway
• Causes viral aggregation - cannot infect host cells
• Enveloped viruses can be lysed

Question 22

What is the role of C1 inhibitors and what can happen when they are deficient?

Answer 22

• Prevents C1 activating C4 and C2
• Prevents C3 activation and MAC formation
• DEFICIENCY - causes hereditary angioedema

Question 23

What are some consequences of complement deficiency?

Answer 23

• Patients deficient of complement pathway experience recurrent infections
• MBL deficiency causes pyogenic infections in neonates