immune evasion

Question 1

• What 2 groups can the diseases caused by S. aureus* be divided into?

Answer 1

Localised pyogenic (pus-producing) diseases characterised by tissue destruction meditated by hydrolytic enzymes and cytotoxins

Diseases mediated by toxins that function as superantigens producing systemic diseases.

Question 2

• What is antibody opsonisation?

Answer 2

Antibodies bind bacterial antigens allowing:

Deposition of complement in classical complement pathway

Neutrophils and other phagocytes to have the ability to detect invading microbes

Question 3

• What are 5 of the general strategies against antibody opsonisation that S. aureus carries out?

Answer 3

Hide antigens

Disrupt functions

Prevent detection

Degrade antibodies

Modify antigenicity

Question 4

• How does S aureus hide its antigens?

Answer 4

expression of S. aureus capsule

Helps to hide antigenic structures that can be detected by innate and adaptive immune components

Question 5

• How does S. aureus disrupt the function of antibodies to evade opsonisation?

Answer 5

S. aureus expresses protein A (SpA)

SpA surface protein binds microbe receptors via their Fc region

SpA prevents normal opsonisation as antibodies cannot bind to microbes, and therefore neutrophils cannot detect S. aureus

Question 6

• How does S. aureus prevent detection by neutrophils to aid evasion of antibody opsonisation?

Answer 6

SSL10 is a secreted protein that binds to Fc region of IgG

SSL10 prevents Fc receptors on neutrophils from detecting IgG on the surface of *S. aureus*

Question 7

• What is complement opsonisation?

Answer 7

Complement system is comprised of a large number of proteins that react with one-another to opsonise pathogens (attract phagocytosis) or to directly kill them by membrane attack complex (Mac) formation

Question 8

• What are the 4 general strategies that bacteria use to prevent C3b or MAC deposition?

Answer 8

Inhibit C3/C5 convertases (prevent C3b, C3a and C5a formation)

Bind complement factors and prevent their processing (bind to C3- C3b can't be formed)

Cleave complement factors

Acquire host-derived complement regulators - C3b is inactivated by fH on bacterial surface

Question 9

• How does SCIN allow evasion by S. aureus of complement opsonisation?

Answer 9

S. aureus SCIN protein binds C3bBb

Preventing:

C3b deposition

C3a formation

C5a formation

Formation of Membrane Attack Complex

Question 10

• How does SCIN allow evasion by S. aureus of complement opsonisation?

Answer 10

S. aureus SCIN protein binds C3bBb

Preventing:

C3b deposition

C3a formation

C5a formation

Formation of Membrane Attack Complex

Question 11

• How does Efb allow evasion by S. aureus of complement opsonisation?

Answer 11

S. aureus Efb protein binds C3d in C3b, which induces conformation change

Preventing:

Binding of factor B to C3b- no C3 convertase so no C5 convertase so complement cascade shuts down

C3dg binding CR2-lowers phagocyte detection

Question 12

• How does SSL7 prevent complement opsonisation?

Answer 12

Inhibits MAC formation by binding to C5, preventing break down into C5a & C5b

Question 13

• What is the function of the immune receptors on neutrophils?

Answer 13

Allow neutrophils to sense and respond to their environment

Detect microbes, microbial products or self-proteins

Question 14

• What are Pathogen Recognition Receptors?

Answer 14

Directly detect microbes or microbial products

Neutrophils are primed or activated

Question 15

• What are three examples of PRRs and what do they detect?

Answer 15

TLR receptors - Conserved microbial structures

CLEC receptors - Microbial Carbohydrates

FPR receptors - Formylated peptides

Question 16

• What do Fc receptors often signal through activating?

Answer 16

activating Motifs called ITAMS in their cytoplasmic tails

Question 17

• What do activatory receptors do?

- Give 2 of the types of activatory receptors

Answer 17

Enhance cell immune response

Cytokine receptors

Chemoattractant receptors

Question 18

• Give 2 of the types of inhibitory receptors

Answer 18

LAIR receptors

SIGLEC receptors

Question 19

• What are the 5 general strategies of S. aureus that dysregulate neutrophil functions?

Answer 19

Inhibit chemotaxis

Inhibit detection of bacteria

Kill neutrophils

Stimulate inhibitory receptors

Disrupt intracellular signalling

Question 20

• How does S. aureus CHIPs inhibit chemotaxis?

Answer 20

CHIPs binds to C5aR and FPR1 and prevents binding of their agonists (C5a & formylated peptides)

Neutrophil do not migrate at sites of infection and do not become activated by C5aR and FPR1

Question 21

• How does S. aureus FLIPr & SSL5 prevent Fc receptor mediated phagocytosis?

Answer 21

FLIPr binds to Fc-gamma receptors preventing detection of IgG-opsonised bacteria

SSL5 inhibits Fc alpha receptors, preventing detection of IgA

Reduces antibody mediated phagocytosis and killing of S. aureus

Question 22

• How can S. aureus kill and inhibit neutrophils?

Answer 22

They can kill neutrophils with toxins

They can express molecules that are receptors on neutrophils antagonists

Question 23

• What is the function of Factor H?

- The Membrane Attack Complex (MAC) is formed of which components?

Answer 23

Inhibits C3 convertases

C5b, C6, C7, C8, C9