Immune systems

Question 1

What is the immune system?

Answer 1

A highly regulated and complex network of tissues, cells and molecules that protects an organism from pathogens

Question 2

What are the 2 main arms of the immune system in vertebrates?

Answer 2

Innate and adaptive

Question 3

Describe the innate immunity arm

Answer 3

Intracellular leads to NK cells and extracellular leads to phagocytes and both lead to pathogen destruction

Question 4

Describe the adaptive immunity arm

Answer 4

Intracellular leads to Tc cells which leads to pathogen destruction
Both intracellular and extracellular lead to the production of Th hells which leads to either the production of B cells and antibodies or phagocytes and both of those lead to pathogen destruction

Question 5

What are the 4 types of infection?

Answer 5

Virus
Bacteria
Protozoa
Helminth

Question 6

What type of stem cells are cells of the immune system developed from?

Answer 6

Pluripotent stem cells

Question 7

What arm of the immune system are lymphoid cells involved in?

Answer 7

Adaptive

Question 8

What arm of the immune system are myeloid cells involved in?

Answer 8

Innate

Question 9

Where are t cells produced?

Answer 9

In the thymus

Question 10

Where do T cells migrate to?

Answer 10

The lymph nodes

Question 11

What are the 2 types of T cell?

Answer 11

CD4+ and CD8+

Question 12

What are and what do CD4+ T cells do?

Answer 12

They are Th cells and secrete cytokines and interact with B cells

Question 13

What are and what do CD8+ T cells do?

Answer 13

They are Tc cells and directly kill infected self cells and interact with macrophages

Question 14

What type of T cells are targeted by HIV?

Answer 14

CD4+

Question 15

Where are B cells formed?

Answer 15

In the bone marrow

Question 16

Where do B cells mature?

Answer 16

In germinal centres (secondary lymphoid tissues)

Question 17

What do B cells do?

Answer 17

Produce and secrete antibodies which recognise foreign antigens

Question 18

What are the 3 types of phagocytes?

Answer 18

Neutrophils
Monocytes
Macrophages

Question 19

What do phagocytes do?

Answer 19

Patrol the body looking for invaders to perform phagocytosis on

Question 20

What arm of the immune system are phagocytes part of?

Answer 20

Innate arm

Question 21

What are macrophages involved in?

Answer 21

Phagocytosis
Bactericidal mechanisms
Antigen presentation

Question 22

What are macrophages derived from?

Answer 22

The monocyte

Question 23

Where do macrophages reside?

Answer 23

In tissues

Question 24

What are macrophages called in the liver?

Answer 24

Kupffer cells

Question 25

What are macrophages called in the brain?

Answer 25

Microglia

Question 26

What are macrophages called in the kidneys?

Answer 26

Mesangial cells

Question 27

What are macrophages called in bones?

Answer 27

Osteoclasts

Question 28

Why are eosinophils called so?

Answer 28

They stain with eosin

Question 29

What do eosinophils do?

Answer 29

Kill antibody-coated parasites that cannot be digested by binding to them and degranulating and dissolving their cell surface

Question 30

What do eosinophil granules contain?

Answer 30

Peroxide and histaminase (anti-inflammatory)

Question 31

What are natural killer (NK) cells?

Answer 31

Large granular lymphocytes

Question 32

What arm of the immune system are NK cells part of?

Answer 32

Innate

Question 33

What do NK cells do?

Answer 33

Release lytic granules that kill some virus infected cells

Question 34

How do NK cells detect virus infected cells?

Answer 34

Changes in the cell surface molecules

Question 35

How do NK cells kill?

Answer 35

Induce lysis and apoptosis

Question 36

What does the bone marrow consist of?

Answer 36

Fat cells
Bony tissue (trabeculae)
Fibroblasts
Collagen
Dendritic cells

Question 37

Where do lymphocytes start their lives?

Answer 37

In the bone marrow

Question 38

What organs does the bone marrow take over from after the body has progressed past the late fetus?

Answer 38

The liver and the spleen

Question 39

Where does the initial phases of B cell selection take place?

Answer 39

In the bone marrow

Question 40

Where are mature B cells (plasma cells) returned to and for what reason?

Answer 40

Return to the bone marrow to secrete antibody to repeated antigen exposure

Question 41

Where are partly mature B cells exported from?

Answer 41

The bone marrow

Question 42

What is the thymus?

Answer 42

A primary lymphoid organ

Question 43

What does the thymus produce?

Answer 43

Mature T cells

Question 44

Where is the thymus located?

Answer 44

Above the heart

Question 45

When is the thymus the most active?

Answer 45

During foetal development

Question 46

When does the thymus atrophy?

Answer 46

Throughout adulthood

Question 47

What are the 2 secondary lymphoid organs?

Answer 47

The spleen and the lymph nodes

Question 48

Where is the spleen located?

Answer 48

Below the diaphram

Question 49

What is the spleen composed of?

Answer 49

Red pulp (red blood cells)
White pulp (lymphoid tissues)

Question 50

What does the spleen do?

Answer 50

A maturation organ for B cells
A blood filter to remove dead blood cells and bacteria in the red pulp
Main site for response against blood-borne antigens in the white pulp
Source of B cells that respond to bacterial cell wall antigens in the absence of T cells

Question 51

What percentage of lymphocytes are lodged in the spleen?

Answer 51

25%

Question 52

Where are lymph nodes located?

Answer 52

Scattered along the lymphatic vessels

Question 53

What do lymph nodes contain?

Answer 53

T cells
B cells
Accessory cells

Question 54

What are the 3 main parts of the lymph nodes?

Answer 54

Cortex
Medulla
Capsule

Question 55

When does adaptive immunity occur?

Answer 55

After the initial innate response which can be days or weeks later

Question 56

What is the purpose of adaptive immunity?

Answer 56

It is the basis of an organism becoming immune to a pathogen

Question 57

What is the major component of adaptive immunity?

Answer 57

The production of antibodies by B-cells

Question 58

What do T-cells do during adaptive immunity?

Answer 58

Either help B-cells mature or they can become killer cells

Question 59

What are pathogens made up of?

Answer 59

Proteins and carbohydrates

Question 60

What are the proteins on a pathogen called when the evoke an immune response?

Answer 60

Antigens

Question 61

Describe how antigens are displayed on the surface of antigen presenting cells

Answer 61

Macrophages and other antigen presenting cells break up bacteria and viruses and present their antigens on the surface
These antigen proteins are then combined with a self protein called major histocompatibility complex (MHC) and this allows T-cells and B-cells to recognise them through their own cell surface receptors (TCR) and (BCR)

Question 62

What are the 2 main functions of a T-cell?

Answer 62

Help B-cells and secrete cytokines

Kill virally infected cells

Question 63

What class of MHC does CD4+ cells recognise?

Answer 63

MHC class II

Question 64

What class of MHC does CD8+ cells recognise?

Answer 64

MHC class I

Question 65

How are T-cells selected in the thymus?

Answer 65

T-cell precursors enter the thymus and TCR gene rearrangement is initiated
The thymocytes at this stage are double positive as they have both CD4+ and CD8+
T-cells expressing a TCR that binds strongly to MHC are negatively selected and die and vice versa

Question 66

Where does T-cell selection take place?

Answer 66

In the thymic medulla

Question 67

Why are some T-cells eliminated?

Answer 67

The have high avidity as they bind too closely across multiple binding sites

Question 68

How are T-cells eliminated?

Answer 68

They undergo apoptosis

Question 69

Describe how T-cells are mobilised?

Answer 69

They encounter a cell such as a dendritic cell that has digested an antigen and is displaying the antigen fragments bound to its MHC molecules
Cytokines then help the T-cell mature
The MHC-antigen complex activates the T-cell receptor and the T-cell secretes cytokines

Question 70

What do the cytokines that T-cells secrete do?

Answer 70

Some spur the growth and proliferation of more T-cells

Question 71

What are the 2 things that T-cells do when they have been mobilised?

Answer 71

Some become cytotoxic and track down virally infected cells
Some become helper cells and secrete some cytokines that attract fresh macrophages, neutrophils, other lymphocytes and other cytokines to direct recruits once they arrive on the scene

Question 72

What is the main function of B-cells?

Answer 72

To secrete antibodies after capturing the antigen on their cell bound receptor molecules and interaction with T-cells

Question 73

Describe how B-cells are matured

Answer 73

The B-cell precursor rearranges its immunoglobulin genes
Negative selection occurs in the bone marrow
The B-cells migrate to peripheral lymphoid organs and secrete antibodies and memory cells in the bone marrow and lymphoid tissue

Question 74

Why must B-cells and CD4+ T-cells interact?

Answer 74

B-cells must get ‘second signals’ from a T-cell or it will lead to anergy

Question 75

What is anergy?

Answer 75

B-cells turn off

Question 76

Describe how T-cells and B-cells interact in order to trigger the B-cell into producing antibodies

Answer 76

The B-cell is triggered when it encounters its matching antigen
The B-cell engulfs and digests and displays the antigen fragments bound to its MHC molecules
This attracts a matching T-cell
Cytokines secreted by the T-cell help the B-cell to multiply and mature into antibody producing plasma cells
Antibodies are then released into the blood and lock onto matching antigens
Antibody-antigen complexes are then cleared by the complement cascade or by the liver and spleen

Question 77

What are the 2 chain types in an antibody?

Answer 77

Light and heavy chains

Question 78

What are the 2 regions in an antibody?

Answer 78

Variable and constant regions

Question 79

What 4 components is the heavy chain composed of?

Answer 79

3 constant domains CH1,CH2,CH3

1 variable domain VH

Question 80

What 2 components is the light chain composed of?

Answer 80

1 constant domain CL1

1 variable domain VL

Question 81

What part of the antibody do the variable domains make up?

Answer 81

The antigen binding site

Question 82

What is each variable and constant domain made up of?

Answer 82

An immunoglobulin fold

Question 83

Why is antibody diversity so important?

Answer 83

To ensure that all organisms can mount a specific immune response to specific pathogens

Question 84

What are the 3 types of antibodies?

Answer 84

Isotypes
Allotypes
Idiotypes

Question 85

Describe isotypes

Answer 85

They are present in all healthy individuals

Question 86

Describe allotypes

Answer 86

They are genetically restricted and have variation within the CH region

Question 87

Describe idiotypes

Answer 87

The individual antigenic characteristics of a given antibody molecule based on its variable region

Question 88

How many antibodies are present in humans?

Answer 88

10^11

Question 89

What are the 5 classes of antibodies?

Answer 89

IgG
IgD
IgE
IgA
IgM

Question 90

Describe IgM antibodies

Answer 90

The first antibody produced in an infection
Resides on the B-cell as an antigen receptor
Secreted as a pentamer held together by a J chain
Has 10 binding sites thus is effective at agglutinating bacteria and activating complement

Question 91

Describe IgG antibodies

Answer 91

Four subclasses (IgG1, IgG2, IgG3, IgG4) which have slightly different properties
Most prevalent antibodies in serum
Only antibodies that can cross the placenta

Question 92

Describe IgA antibodies

Answer 92

A dimer held together by a J chain
Contain a secretory component
Protects the mucosa
Secreted locally by plasma cells in saliva, milk and tears

Question 93

Describe IgD antibodies

Answer 93

Low levels in serum (0.3 mg/L)

Main function is as a B-cell antigen receptor

Question 94

Describe IgE antibodies

Answer 94

Major antibody class involved in inflammation and protection from parasitic worms
Serum levels are very low
Binds to IgE receptors on a mast cell via its Fc region
Re-exposure to antigen results in mast cell triggering
Associated with antibody-mediated allergy

Question 95

How can antibodies neutralise virus or bacteria?

Answer 95

Antibody binding to a virus or a bacteria can neutralise it directly by interfering with a cell surface receptor

Question 96

How can antibodies induce lysis or phagocytosis?

Answer 96

IgG/IgM can activate the classical arm of complement resulting in lysis of an antigen bearing cell of phagocytosis

Question 97

How can Tc cells be activated by antibodies?

Answer 97

Binding of the antibody-antigen complex to antigen receptors on certain cell types results in the effector cell being activated

Question 98

How is immunological memory created?

Answer 98

Stimulated B-cells proliferate and mature
Some become memory plasma cells
Re-exposure of antigens to these primed B-cells causes them to respond rapidly