Lecture 8: Compliment and phagocytosis

Question 1

What is a complement?

Answer 1

An essential component of out innate immune system

• A collection of plasma protein zymogens that are rapidly activated on contact with microbial surfaces resulting in opsonisation and phagocytosis

Question 2

What are the possible complement activation pathways?

Answer 2

• Classical pathway (activation is mediated by antibody)
• Lectin pathway (activation is mediated by carbohydrate recognition)
• Alternative pathway (Activated by direct contact with surface)

Question 3

Where do all three compliment activation pathways converge?

Answer 3

All three pathways converge on the action of complement C3.

Question 4

What does complement activation result in?

Answer 4

1. Opsonisation and phagocytosis
2. Direct Killing
3. Leukocyte recruitment
4. Inflammation

Question 5

What are some key features of complement cascades;

Answer 5

• They’re enzymatic (esterases; zymogens, i.e pro enzymes that are activated by cleavage of the proceeding enzyme in the pathway)
• Positive feedback loops (C3)

Question 6

Describe in broad terms the regulation of the complement cascade;

Answer 6

• Extensive control mechanisms that result in the rapid decay of activated compliment proteins
• Cells are protected from lethal effects of compliments by numerous inhibitors and decay accelerators

Question 7

What mediates the three compliment pathways?

Answer 7

1. Classical ; Antibody Fc mediated
2. Alternative ; Pathogen surfaces
3. Lectin ; Pathogen carbohydrates

Question 8

Describe steps 1-3 of the classical pathway;

Answer 8

1. Antibodies (IgG and IgM) bind to surface epitopes of pathogen
2. C1q binds to exposed Fc region
3. C1r and C1s bind via C1q

Question 9

Describe steps 4-6 of the classical pathway;

Answer 9

4. Serine proteases cleaves (C1S) C4 into C4b opsonin (C4a, soluble, diffuses away)
5. C2 binds to bound C4b and is cleaved by activation C1s (C2a and C2b- soluble diffuses away)
6. Formation of the C4b2a, soluble version of C3 convertase

Question 10

Describe the structure of C1q;

Answer 10

C1q has six globular heads attached to the central body by collagen like strands

Question 11

How is C1q activated?

Answer 11

Two C1qs heads must bind AB for activation, so need two IgG.

IgM is a much better compliment activator than igG

Question 12

Describe the first three steps of the mannose binding lectin pathway compliment activation;

Answer 12

1. Bound and stabilised MBL interacts with two serine esterases (MASP-1 and MAPS-2)
2. This activates C4 akin to the classical pathway

i.e

4. Cleaves C4 into C4b opsonin (C4a, soluble, diffuses away)
5. C2 binds to bound C4b and is cleaved by activation C1s (C2a and C2b- soluble diffuses away)
6. Formation of the C4b2a, soluble version of C3 convertase

Question 13

Describe the MBL;

Answer 13

MBL ; six headed protein similar to C1q with mannose binding lectins at the end

Question 14

Can MBL target host cells?

Answer 14

Mannose is not a terminal sugar on eukaryotic cells so host cells are not normally targets

Question 15

How else can MBL exist?

Answer 15

Analogous to C1q, but can also exist as dimers, trimers and tetramers

Question 16

What are MASP analogous to?

Answer 16

MBL associated serine esterases (MASP) is analogous to C1r-C1s

Question 17

Describe the first step in the alternative pathway;

Answer 17

C3 is a major plasma protein that is spontaneously activated by SURFACE CONTACT.

This is called tick over

Question 18

What is c3?

Answer 18

A highly unstable thioester.

Half life in miliseconds

Question 19

What does C3b bind and how?

Answer 19

C3b bindsi covalently to surface opsonin in the absence of inhibitors such as

Cr1
MCP
DAF

Question 20

Describe the steps in the alternative pathway;

Answer 20

1. Tickover (C3 -> C3b)
2. C3b binds Factor B
3. Factor B is split by factor D to form Bb
4. C3bBb generates more C3b

Question 21

How can the compliment pathways be amplified?

Answer 21

1 C3 convertase molecule can generate 1000 C3b opsonin molecules

Some bacteria also bind plasma protein (factor P) that accelerates the alternative pathway by stabilising C3bBb complex.

Question 22

How does opsonisation occur (via the compliment system)?

Answer 22

Covalently

C3b and C4b, are able to form these unique bonds after cleavage, these can react with hydroxyl groups on on the surfaces of bacteria to form thioester linkages.

ms

Question 23

What is the effector end of the complement?

Answer 23

Surface bound C4b2a and C3bBb;

• Cleave more C3
• Cleave soluble C5 -> C5b
• C5b initiates the Membrane Attack Complex (MAC) and C5a

Question 24

What is C5a that C5b has activated?

Answer 24

C5a is a potent anaphylotoxin with multiple activities

C3a and C4a are both anaphylotixins too

Question 25

What is the membrane attack complex MAC?

Answer 25

• C5b binds C6, then joined by C7
• Conformation change
• Hydrophobic domain of C7 exposed , inserts to target membrane.
• Followed by C8, causes the polymerisation of many C9 molecules

Question 26

What does the polymerisation of C9 molecules in MAC lead to?

Answer 26

C9 polymers forms a membrane pore, ions out, water in, osmotic lysis

Question 27

Whats the important role of opsonisation?

Answer 27

The activation of myeloid cells to take up and kill the opsonized pathogen

• Neutrophils and macrophages regularly do this

Question 28

Describe the process of phagocytosis of an opsonised pathogen;

Answer 28

• Rapidly taken up into the phagosome
• Phagosome fuses with lysozome to form pahgolysozome
• Lytic enzymes and oxidation bi-products and other highly toxic compounds produced, cause terminal damage to the organism

Question 29

Describe the anaphylotoxins receptors and roles;

Answer 29

• 7 TM gprotein coupled receptor
• C5a is most important receptor
• Regulates inflammation and anaphylaxis
• C4a and C3a can kill bacteria directly

Question 30

List three examples of C5a function;

3/8

Answer 30

1. Binds to C5a receptor on mast cell and endothelial cells
2. Induces smooth muscle contraction
3. Increases adhesion molecules such as E-selectin to capture neutrophils

Question 31

List three examples of C5a function;

4-6/8

Answer 31

4. Act on neutrophils to increase adherence to endothelium
5. Increases vasodilation, blood flow and vascular permeability- fluid accumulation increases lymphatic drainage
6. Cause Mast cells to release histamine and TNFa

Question 32

List three examples of C5a function;

7-8/8

Answer 32

• Local pain, swelling and tenderness

- Activate phagocytes and essential trigger for phagocytosis

Question 33

What are the function of compliment receptors?

Answer 33

Mostly for C3b and its inactivated products. Stimulates phagocyotsis

Removing immune complexes from circulation

Examples of receptors;
- CR1 and CR2

Question 34

What is the function of CR1?

Answer 34

CR1, probably most important, on RBC hence numerous

Question 35

What is the function of CR2?

Answer 35

On B cells, 100x increases in sensitivity of B cells to stimulation by specific Antigen

Main receptor for Epstien barr virus to get into b cells

Question 36

Why does the compliment system attack normal cells?

Answer 36

There are multiple regulators of complement acitvity and each has a different role to play. Deficiencies in several of these lead to susceptibility to infections

Question 37

What are some examples of complement regulators?

Answer 37

DAF
Compliment Receptor
C1 inhibitor
C4BP
Factor H
Factor 1
Properdin

Question 38

What is the function of DAF?

Answer 38

DAF = Decay Accelerating Factor

• Widely expressed on cells
• Binds any C4b, prevents C2 binding.
• Promotes cleavage of C4b by factor 1 protease thus accelerating its decay. Destabilizes the C4b2a complex.
• Stops opsonisation of host cells by preventing formation of C3 convertase

Question 39

What is the function of complement receptors in regulation?

Answer 39

Cr1 also inhibits C2 binding - same effects as DAF

Question 40

What is the function of C1 inhibitor (serpin) in regulation?

Answer 40

Serine protease inhibitor (serpin) which inhibits C1s activity. Regulates classical pathway activation of C3 convertase

Question 41

What is the function of C4BP in regulation?

Answer 41

Binds C4b and displaces C2

Question 42

What is the function of factor H in regulation?

Answer 42

Binds C3b and displaces Bb. Cofactor for protease Factor 1 which cleaves C3b

Question 43

What is the function of factor 1 in regulation?

Answer 43

Cleaves C3b to inactive form (still bound by C1R) and is activated by bound Factor H

Question 44

What is the function of Properdin in regulation?

Answer 44

Binds to certain bacterial surfaces and stabilizes C3 convertase.

Now believed to be a cofactor for C3 convertase

Question 45

What are the regulators of C3 convertase?

Answer 45

• Presence of DAF or CR1 dramatically inhibit stability of C4b on surfaces
• C4C2b or C4bBb not formed but degraded by factor 1

Question 46

What does Protectin or CD59 do?

Answer 46

Widely expressed on cells

Prevents formation of MAC inside cells

Question 47

What are the two last regulatory factors?

Answer 47

• Natural decay (unstable split products rapidly deactivated by water unless bind solid surface)
• Need for co-localisation of crucial components