Immuno - Lymphocytes

Question 1

What is the adaptive immune system made of?

Answer 1

Lymphocytes coming form the common lymphoid progenitor

Question 2

Where is the adaptive immune system found?

Answer 2

Only in vertebrates

Question 3

What is the role of the adaptive immune system?

Answer 3

Clear infection and re-infection of a pathogen, improve the efficacy of the innate immune system and reduce the severity of re-infection of a pathogen

Question 4

What is immunological memory?

Answer 4

Long lived memory of lymphocytes so that once they have been exposed to a pathogen, they will develop memory so that upon reinfection, they will recognise the antigen and rapid produce an immune response, which is therefore quicker and much less severe.

Question 5

What responses make up the adaptive immune response?

Answer 5

Cell mediated response

Humoral response

Question 6

What is responsible for the cell mediated response?

Answer 6

T cells - CD4 and CD8

Question 7

What is responsible for the humoral response?

Answer 7

B cells which produce antibodies

Question 8

How is the specificity of T and B cells generated?

Answer 8

Through the T cell receptor or B cell receptor

Question 9

What does the TCR bind to/recognise?

Answer 9

The TCR binds to the linear, primary structure epitope of an antigen which is bound to via the MHC molecule

Question 10

What does the BCR bind to/recognise?

Answer 10

The BCR binds to the structural 3D tertiary structure of the antigens therefore could potentially recognise 2 different parts of the antigen.

Question 11

How many receptors does each lymphocyte have?

Answer 11

T cells only have one TCR specific to one antigen however B cells can have up to a 1000 BCRs which are all identical with respect to their specific antigen.

Question 12

What occurs upon antigen binding to a receptor?

Answer 12

This causes activation of the lymphocyte and thus subsequent clonal expansion of the cells which go on to produce cytokines and recruit other immune cells to attack the pathogen.

Question 13

How does recombination generate adaptive diversity?

Answer 13

The BCR is made up of many different components which are encoded for by multi-gene families. This allows for recombination of the genes to give different BCR combinations. The segments are rearranged via immunoglobulin gene rearrangement, thus generating a massive repertoire and thus adaptive diversity.

Question 14

What is the role of helper T cells?

Answer 14

They are activated via a specific antigen presenting cell, they then undergo clonal expansion and then divide to form a variety of T helper cells which activate other cells such as B cells and help activate cytotoxic T cells.

Question 15

What is the role of cytotoxic T cells?

Answer 15

Once these are activated in the presence of activating cytokines and the specific antigen, the cells go on to become powerful killers that kill not only pathogens and their antigens, but also the cells that have been infected.

Question 16

What is the TCR made out of?

Answer 16

Made up of an alpha chain and a beta chain, each with a variable and a constant region which bind to their specific antigen in the context of the MHC

Question 17

What is the MHC?

Answer 17

Major histocompatibility complex

Question 18

What is the role of the MHC?

Answer 18

Presents antigens to T cells therefore has a central role in defending self cells from the not self.

Question 19

What are the 2 classes of MHC?

Answer 19

MHC 1 and MHC 2

Question 20

What is the difference between MHC1 and MHC2?

Answer 20

MHC 1 is expressed by all nucleated cells and has a single alpha chain with a common beta microglobulin. MHC 2 on the other hand has one alpha chain and one beta chain

Question 21

How is there lots of variability between people’s MHC make up?

Answer 21

Encoded for by HLA genes and is polygenic, determined overall by 6 loci therefore in theory one person can have up to 6 copies of MHC if they were to be completely heterozygous.

Question 22

What MHC do CD8 cells interact with?

Answer 22

Class 1

Question 23

What MHC do CD4 cells interact with

Answer 23

Class 2

Question 24

What is the role of T helper cytokines?

Answer 24

Although they all have diverse outcomes they overall influence the outcome of the immune response

Question 25

What are Tfh cells?

Answer 25

Pro antibody,

releases IL-21

Question 26

What are Th17 cells?

Answer 26

Pro-inflammatory, controls bacterial and fungal infection.

Releases IL-17, IL-6, IL-21

Question 27

What are Th2 cells?

Answer 27

These are pro-allergic cells which boost the immune response via IL-4, IL-5 and IL-13

Question 28

What are Treg cells?

Answer 28

Otherwise known as Th0 cells. They are anti-inflammatory cells which limit the immune response via IL-10 and TGF-B

Question 29

What are Th1 cells?

Answer 29

Pro-inflammatory which boost the cellular immune response via IFN-gamma, TNF and IL-12

Question 30

What cells initiate apoptosis?

Answer 30

CD-8 cytotoxic T cells

Question 31

How do cytotoxic lymphocytes initiate apoptosis of infected cells?

Answer 31

CD8 cells when they detect an infected cell, will release the protein perforin which will form a pore in the membrane of the infected cell, and will subsequently exocytose a granule contain granzyme and granulysin which will enter the infected cell via the pore and then initiate apoptosis

Question 32

How do cytotoxic T cells initially recognise virally infected cells?

Answer 32

The MHC 1 of nucleated cells will express self peptides if uninflected however when they become infected, the virus will take over the machinery of the cell and will display viral protein as non-self MHC. The CD8 cells will then recognise this and thus initiate the sequence to give apoptosis

Question 33

What is the role of B cells?

Answer 33

B cells bind to specific antigens via the BCR which they then internalise and then display to T helper cells to lead to their activation, allowing them to proliferate into B cells with the same specificity.

Question 34

What can B cells develop into following activation and proliferation

Answer 34

They can either develop into plasma cells which secrete antibodies or to memory cells which are specific and will retain memory to that specific antigen.

Question 35

What are the 3 core protective roles of antibodies?

Answer 35

Neutralisation
Opsonisation
Complement activation

Question 36

What is neutralisation?

Answer 36

When an antibody binds to an active site on bacteria or virus e.g. the spike protein to stop the pathogen from entering or binding self-cells

Question 37

What is opsonisation?

Answer 37

The process of marking the pathogen therefore making it more attractive and likely to be phagocytosed

Question 38

What is complement activation?

Answer 38

Enhances the opsonisation and can lyse some pathogens e.g. bacteria through the formation of the membrane attack complex.

Question 39

What are the 5 classes of antibody?

Answer 39

IgG
IgM
IgA
IgD
IgE

Question 40

What are IgG antibodies?

Answer 40

Highest opsonisation and neutralisation activates

Question 41

What are IgM antibodies?

Answer 41

Produced first upon antigen invasion and then increase transiently depending on whether there are antigens present or not

Question 42

What are IgA antibodies?

Answer 42

Expressed in mucosal tissues, once they are secreted they will join to form dimers

Question 43

What are IgD antibodies?

Answer 43

These have an unknown function in the body

Question 44

What are IgE antibodies?

Answer 44

These are involved in allergy responses e.g. type I hypersensitivity.

Question 45

How is the class one antibody determined?

Answer 45

Via the variable region of an antibody

Question 46

Describe the structure of the BCR

Answer 46

It is a surface bound antibody therefore has a constant region and a variable region which will undergo antigen binding directly, without the MHC

Question 47

Explain the plasticity of the BCR response

Answer 47

BCR is made before the B cell ever encounters the antigen therefore cannot change upon binding - it is a plastic response not an elastic response

Question 48

How many BCRs are found on each cell?

Answer 48

We can 1000s of BCRs on a cell however they must all be of the same specificity

Question 49

What does the BCR not require but TCRs do require?

Answer 49

MHC

Question 50

Explain the need for an accessory single for activation of naive B cells

Answer 50

This is the need for a secondary signal to allow for the activation of naive B cells, thus preventing autoimmunity through B cells acting against self antigens

Question 51

What are the 2 forms of accessory signal?

Answer 51

Directly from microbial constituents

From a helper T cell (more common)

Question 52

How are B cells activated via microbial constituents?

Answer 52

This is done independent of the thymus as T cells are not involved - the B cell will bind directly to the antigen and then the antigen polysaccharide or large receptive strut of the bacteria will bind and induce activation. Only IgM antibodies are formed via this route

Question 53

How are B cells activated via T helper cells?

Answer 53

This is the thymus dependent route by which al IgG antibodies are formed. The membrane bound BCR binds to an antigen which will the be internalised and broken down to peptides. Peptides are then displayed via the MHC 2 of the B cells which allow it to associate to CD4 helper T cells. These then activate and produce cytokines and co-stimulatory markers which allow activation of the B cell and secretion of antibodies.