Lec 2: Arms of the Immune System

Question 1

Innate Immunity

Answer 1

Recognition of molecular motifs with invariant non-rearranging receptors

similar or same response each time

fast (within minutes or hours)

all cells mount innate responses to varying degrees, epigenetic changes to increase the robustness of the initial respose can act as a “memory” sort of

Question 2

Adaptive immunity

Answer 2

recognition of antigens with receptors that rearrange for enhanced specificity

improved response to repeat exposure

SLow (5-6 days)

has memory and is mediated by B and T cells

Question 3

Adaptive immunity may be divided into what two catagories

Answer 3

Humoral immunity = B cells, and the production of antibodies

Cellular Immunity = T cells, these kill cells and direct the adaptive immune response

Question 4

Why does the magnitude and speed of the immune respose increase with repeated exposure

Answer 4

Adoption and increase of specificity of an antibody to a specific antigen

Question 5

Tolerance

Answer 5

The B and T cells which are selected for are non-responsive// weakly respoinsive to the cells// antigens of the host

Question 6

Plasma proteins are also known as

Answer 6

reactive proteins

Question 7

serum is

Answer 7

the non clotting and a cellular component of the blood

Question 8

Intrinsic immunity

Answer 8

Sub-catagory of the innate immune system

innate immunity can be activated, but intrinsic immunity is always present

consituitvely passive immunity in most cells of the body, but expression is enhanced by innate immunit signalling

basal expression is independent of IRF3, STAT1 and IFN signalling

Question 9

restriction factors

Answer 9

cellular proteiins that directy restrict pathogen replication and assembly

clotting factors and bacteria for example

intrinsic immunity

Question 10

Antimicrobial peptides

Answer 10

part of intrinsic immunity

these are built into mast cells and exhibit antimicrobial activity towards bacteria, viruses and fungi

Question 11

What does it mean when you say that the innate immunity is non-specific

Answer 11

It means that innate immunity only recognizes components of a given pathogen

ex// the cell wall of S. aureus, not the microbe it’self

Question 12

What PRRs are the innate immune system mediated by

Answer 12

Toll like receptors (TLRs)
RIG like receptors (RLRs)
Nod like recep[tors (NLRs)
C-type lectin receptors (CLRs)
Orphan receptors

Question 13

Which cell is the important link between the innate immune system and the adaptive immune system

Answer 13

Dendridic cell

Question 14

Which transcription factors activate the innate immune system

Answer 14

Interferon response factors (IRFs)

Nuclear factor kappa B (NF-kB)

Question 15

PAMPs

Answer 15

Pathogen associated molecular patterns

Bacterial or viral proteins
Bacterial or viral DNA
Viral RNA
Foreign glycans
Toxins

Question 16

DAMPs

Answer 16

Damage associated molecular patterns

Location is super important, not just the signal

Damaged cells
Intracellualr host proteins
Host RNA, DNA and purine metabolites in the wrong compartment

Question 17

Which TLR does peptidoglycan bind to

Answer 17

TLR2

Gram positives

Question 18

Which TLR does Lipoteichoic acid bind to

Answer 18

TLR2
TLR6

Gram Postives

Question 19

Which TLR does Lipopolysaccharide bind to

Answer 19

TLR4

Gram negatives

Question 20

Why might TLRs be on cell surfaces

Answer 20

TLRs might be on a cell surface because it allows recognition before a cell is infected, or allows for the identification of microorganisms that only infect or colonize surfaces of cells

Question 21

How do TLRs detect cololonization on the outside of the cell

Answer 21

leusine rich repeats

Question 22

TIR Domain

Answer 22

Dimer formed by TLR and PAMP on the initial protein adapter on the cytoplasmic domain

Question 23

WHy might TLRs be in endosomes

Answer 23

For engulfment of bacteria or when infected with a virus

Question 24

What is triggered by PRR activation

Answer 24

IFNs
ISGs
Proinflammatory cytokines

Question 25

IFNs

Answer 25

Interferons
(IFNa, IFNb, IFNg)

antiviral cytokines that elicit the activation of hundred of downstream genes for cellular protection against pathogens

Question 26

ISGs

Answer 26

Interferon-stimulated genes

Hundreds of host genes for cellular protection against pathogens

THis includes restriction factors

Question 27

Pro-inflammatory cytokines

Answer 27

promotes an inflammatory response and recruits immune cells

NFkB

Question 28

What is convergent signalling

Answer 28

the combination of both a DAMP and a PAMP, this leades to a stronger response

Question 29

What is the “clean up crew”

Answer 29

neutrophils and macrophages

Question 30

What is the “army”`

Answer 30

T and B cells

Question 31

Primary lymphiod organs

Answer 31

where immune cells develop (such as T and B cells)

Bone marrow and the Thymus

Question 32

Secondary lymphoid organs

Answer 32

where the adaptive immune responses are initiated

Question 33

What type of immunity do T cells play a role in, and where do they mature

Answer 33

They play a role in cell-mediated immunity and they mature in the thymus

Question 34

Helper T cells

Answer 34

CD4+
secrete immunoregulatory protiens called cytokines

Help to activate other effector cell types

Question 35

Cytotoxic T cells

Answer 35

CD8+
Kill virus-infected cells
Kill tumour cells

Question 36

What type of immunity do B cells play a role in, and where do they mature

Answer 36

B cells are involved in humoral immunity and they mature in the bone marrow

Question 37

Can T and B cells become long-lived memory cells?

Answer 37

yessir

Question 38

What does an activated B cell transform into

Answer 38

a plasma cell

Question 39

Plasma cells

Answer 39

secrete antibodies that bind to specific pathogens

antibodies can be used by other cell types to detect pathogens

antibodies can coat and neutralize pathogens

Question 40

BcR

Answer 40

immunoglobulin
Igg
B cell receptor

recognizes macromolecules (proteins, lipids, polysaccharides and other large chemicals) in linnear or conformational motifs

Question 41

TcR

Answer 41

T cell receptor

recognizes MHC-peptide complexes

They do NOT recognize free peptides, and weakly recognize free MHC

Antigen binding site contains hypercariable regions such that ther is one antigen recognition site/ TcR

Question 42

MHC

Answer 42

Major histocompatibility complex
aka (HLA)

found on APCs and recognize peptides

Question 43

MHC 1

Answer 43

present on all cells of the body

present peptides from inside the cell normally 8-10 aa in length

Question 44

MHC 2

Answer 44

present on antigen presenting cells and is presented to T-cells

peptides can come from inside the cell but they normally recognize extracelluar peptides 13-17 aa in length

note these peptides unlike the MHC 1 class of recptors allow the peptide to stick outside of the peptide cleft

Question 45

Why are dentridic cells so important

Answer 45

They express almsot all PRRs!

they can also travel from the skin and mucosal surfaces to the lymph nodes!

This means they are excellent for sampling tissues and activating t cells

Dendridic cells detect incoming pathogens, digest and present peptide antigens to T cells in lymph nodes (ACTIVATION)

Question 46

what are the best antigen presenting cells in the body

Answer 46

dentridic cells

Question 47

where are dendritic cells usually found

Answer 47

skin and mucosal surfaces

Question 48

Why are dendritic cells considered a part of the innate immune system

Answer 48

dendritic cells express many PRRs for detection of pathogens

Question 49

Why are dendritic cells considered part of the adaptive immune system

Answer 49

Activated dendritic cells will active T cells

Question 50

How do dendritic cells activate T cells

Answer 50

presentation of antigens from microbes on MHC molecules

Co-stimulation of T cells

Secretion of immunomodulatory proteins called cytokines

Question 51

what happens when a T cell effectors activates a T-cell

Answer 51

once activated, T-cells expand (clonal expansion) and divide to modulate an immune response

army recruitment

Question 52

CD4+ T cells activate other types of immune effector cells

Answer 52

Helper CD4+ T cells direct immune responses via cytokine and chemokine production

Question 53

cytokine

Answer 53

immune modulatory soluble protein

Question 54

Chemokine

Answer 54

chemotaxis-inducing cytokine

Question 55

B cell receptors vs antibodies

Answer 55

BcR= surface
antibodies = soluble

the antigen binding site of BcR is hypervariable, thus is contains two antigen recognition sites

antibodies are secreted are secreted and do not contain transmembrane regions and cytoplasmic tail

Question 56

How do B cells Present antigens on MHC 2 molecules?

Answer 56

B cells recognize intact (not processed) antigen trapped on the surface of follicular dendritic cells

this is the first stage of B cell activation via BcR stimulation

once activated, B cells become antigen presenting cells (on an MHC ) and clonally expand via T cell stimulation

Question 57

Cognate B cell activation via a CD4+ Helper T cell

Answer 57

B cell is activated and clonally expands

This leads to the production fo antibody-producing plasma cells, germinal center B cells and memory B cells

Question 58

How is exquisite specificity to an antigen achieved

Answer 58

Via the myriad of BcR and TcR of variable regions

each recognize a single peptide

and binding of antigen stimulated a conformational change and receptor clustering that activates downstream signalling via the cytoplasmic tails

Question 59

What is the difference in the way that Tand B cells recognize antigens

Answer 59

T-cells recognize antigens via MHC II receptor - pepdite complex binding to TcR whereas B cells recognize free antigen via BcR ??

Question 60

Genetic determinants of host susceptibility to infection

Answer 60

Immune systems wotk on similar processes but are different (reason = SNPs)

Gene products often alter host suseptibility

• mutations/ SNPs in cellular cell surface receptors
• Mutations/ SNPs in innate and adaptive immune pathways
• Mutations/ SNPs in tissue remodeling and repair

Question 61

Can you give an example of a mutation that alters immune capacity

Answer 61

Mutations in signal transduction cascades involved in damage and repair