The immune response, antibodies and WBC count (Chapter 11)

Question 1

Define immunity

Answer 1

The protection against disease provided by the body’s internal defence/immune system

Question 2

What 3 things constitute the external defence system?

Answer 2

Skin, HCl in stomach, blood clotting

Question 3

What is an antigen?

Answer 3

A substance foreign to the body which stimulates an immune response

Question 4

Which cells recognise antigens?

Answer 4

WBCs

Question 5

What are examples of antigens?

Answer 5

Glycoproteins on the surface of pathogens or their waste material

Question 6

What is an antibody?

Answer 6

A glycoprotein (immunoglobulin) made by plasma cells derived from B-lymphocytes, secreted in response to an antigen

Question 7

What is the immune response?

Answer 7

The complex series of responses of the body to the entry of a foreign antigen, involving the activity of lymphocytes and phagocytes

Question 8

Define self substances

Answer 8

Substances produced by the body that the immune system does not recognise as foreign ∴ they do not stimulate an immune response

Question 9

Define non-self substances

Answer 9

Any substance/cell that is recognised by the immune system as being foreign and will stimulate an immune response

Question 10

Where do the cells of the immune system originate from?

Answer 10

The bone marrow

Question 11

What are the two groups of WBCs?

Answer 11

Phagocytes and lymphocytes

Question 12

What are the two groups of phagocytes?

Answer 12

Neutrophils and macrophages

Question 13

Describe the characteristics of phagocytes

Answer 13

• They are produced throughout life in the bone marrow and are stored there before being distributed around the body in the blood
• They remove any dead cells and invasive microorganisms

Question 14

Describe the characteristics of neutrophils

Answer 14

• Smaller than macrophages

- Short-lived cells

Question 15

Describe the characteristics of macrophages

Answer 15

• Larger than neutrophils
• Found in organs rather than blood e.g. liver/kidney
• After they are made in the bone marrow, they travel in the blood as monocytes, which develop into macrophages in the organs
• They are long-lived cells

Question 16

What is the role of macrophages in the immune response?

Answer 16

They do not destroy pathogens completely but cut them up to display antigens that be recognised by lymphocytes

Question 17

Describe the role of neutrophils in the immune response (5 stages)

Answer 17

1) Neutrophils move towards the pathogens, attracted by chemicals released e.g. histamine by the cells under attack and the pathogens, which may be clustered together and covered in antibodies
2) The ABs further stimulate the neutrophils to attack the pathogens bc the neutrophils have receptor proteins on their surfaces that recognise AB molecules and attach to them
3) When the neutrophil attaches to the pathogen, the neutrophil’s CSM engulfs the pathogen and traps it within a phagocytic vacuole (endocytosis/phagocytosis)
4) Lysosomes and the phagocytic vacuole fuse
5) Digestive enzymes are secreted into the phagocytic vacuole ∴ destroying the pathogen

Question 18

What happens after the neutrophils kill and digest some pathogens?

Answer 18

The neutrophils die and often collect at the site of infection to form pus

Question 19

Describe the characteristics of lymphocytes

Answer 19

• Smaller than phagocytes

- They have a large nucleus that fills most of the cell

Question 20

What are the two types of lymphocytes?

Answer 20

B and T cells

Question 21

Where and when are lymphocytes produced

Answer 21

In the bone marrow before birth

Question 22

What type of lymphocytes can carry out immune responses?

Answer 22

Mature lymphocytes

Question 23

How are B and T cells specialised and what does this mean?

Answer 23

Each type of mature B and T cell is specialised to respond to one antigen ∴ they can overall respond to any type of antigen

Question 24

What happens as B cells mature?

Answer 24

• B cells remain in the bone marrow until they are mature and then spread throughout the body, concentrating in lymph nodes and the spleen
• As each B cell matures, il gains the ability to make just one type of AB molecule - the genes that code for ABs are changed in a variety of ways to code for diff ABs
• Each cell then divides to give a small no. of clones that can all make the same type of AB

Question 25

What happens to ABs before an immune response?

Answer 25

They remain in the CSM - part of each AB forms a glycoprotein receptor, which can combine specifically with one type of antigen

Question 26

Describe the response of a B cell to an antigen

Answer 26

1) Clonal selection - when the antigen enters the body for the first time, the B cells with receptors complementary to the antigen are stimulated to divide by mitosis
2) Clonal expansion - the small clone of cells divide repeatedly by mitosis so that a huge number of identical B cells are produced over a few weeks
3) Some of the activated B cells become plasma cells that produce AB molecules v quickly and secrete them into diff parts of the body e.g. blood and lymph
4) Other B cells become memory cells which remain circulating in the body for a long time

Question 27

How long do plasma cells live?

Answer 27

Not very long (several weeks) but the AB molecules that they have secreted stay in the blood for longer, but eventually decrease in concentration too

Question 28

Why is the primary response to the antigen slow?

Answer 28

• At this start of the response, there are v few B cells that are specific to the antigen and it take time for them to be selected and cloned
• It also takes time for the T helper cells to become activated

Question 29

Why is the secondary response to the antigen much faster?

Answer 29

• There are now many memory cells which divide rapidly and differentiate/develop into plasma cells and more memory cells
• ∴ many more ABs are produced and the pathogens can be destroyed and removed before any symptoms develop
• clonal selection and expansion happens much faster

Question 30

How come some viral infections can infect repeatedly when we have memory cells?

Answer 30

There are many different and new strains of the viruses e.g. cold and flu each with different antigens ∴ there is only and always a primary response, during which time we often become ill

Question 31

What do memory cells form the basis of?

Answer 31

Immunological memory

Question 32

What do memory cells prevent us from doing?

Answer 32

Suffering from the certain diseases twice

Question 33

Where are T cells produced

Answer 33

In the bone marrow

Question 34

Where do T cells mature?

Answer 34

In the thymus

Question 35

What is the thymus?

Answer 35

A gland that lies in the chest just beneath the sternum

Question 36

What do mature T cells have?

Answer 36

T cell receptors - cell surface receptors which are each specific to one antigen and have a similar structure to that of ABs

Question 37

When/how are T cells activated?

Answer 37

When they encounter the antigen on another cell of the host e.g. a macrophage that has engulfed the pathogen and is exposing the pathogen’s surface molecules OR a body cell invaded by a pathogen, displaying the antigen on its CSM as a ‘help’ signal

Question 38

What is antigen presentation?

Answer 38

The display of the pathogen’s antigens on a body cell or phagocyte that is affected by the pathogen

Question 39

What happens when T cells are activated?

Answer 39

Clonal selection and clonal expansion take place - those T cells with receptors complementary to the antigen respond by dividing by mitosis to increase to no. of cells

Question 40

What are the two main types of T cell?

Answer 40

1) helper T cells

2) killer (cytotoxic) T cells

Question 41

What happens when helper T cells are activated?

Answer 41

1) They release hormone-like cytokines that stimulate appropriate B cells to divide and develop into plasma cells (and memory cells) which secrete ABs
2) Some secrete cytokines that stimulate macrophages to carry out phagocytosis more vigorously
3) Some stimulate killer T cells to divide by mitosis and to differentiate by producing vacuoles full of toxins

Question 42

What is the role of killer T cells?

Answer 42

1) They search the body for cells that have become invaded by pathogens and are displaying foreign antigens from the pathogens on their CSM
2) They recognise the antigens, attach themselves to the surface of infected cells and secrete toxic substances e.g. hydrogen peroxide into the infected cell through the CSM, killing the body cells and pathogens inside

Question 43

What also happens during a T cell response?

Answer 43

Memory helper and killer T cells are produced, which remain in the body and become active v quickly during the secondary response to the antigen

Question 44

Summarise the structure of antibodies

Answer 44

• Globular proteins with a quaternary structure

- They form the group of plasma proteins called immunoglobulins

Question 45

Describe in detail the structure of antibodies

Answer 45

• Consists of 4 polypeptide chains: 2 long/heavy chains and 2 short/light chains
• Disulfide bonds hold the chains together
• Each molecule has 2 identical antigen-binding sites, which are formed by both the light and heavy chains
• The antigen-binding sites form the variable region, which is different on each type of AB molecule
• The region which is universal to all AB molecules is the constant region
• The hinge region gives the flexibility for the AB molecule to bind around the antigen

Question 46

What is the antibody-antigen complex similar to?

Answer 46

The enzyme-substrate complex

Question 47

What are 6 ways that ABs work to protect the body?

Answer 47

1) ABs combine with viruses and bacterial toxins, preventing them from entering or damaging cells
2) ABs attach to flagella of bacteria, making them less active and easier for phagocytes to engulf
3) ABs with multiple antigen-binding sites cause agglutination of bacteria, reducing the chances of spread throughout the body
4) Some ABs ‘punch’ holes in the cell walls of bacteria, causing them to burst (lysis) when they absorb water by osmosis
5) ABs coat bacteria, making it easier for phagocytes to ingest them
6) ABs (antitoxins) combine with toxins, neutralising them and making them harmless

Question 48

How are phagocytes able to use ABs as labels to identify antigens and destroy them?

Answer 48

Phagocytes have receptors proteins for the heavy polypeptide chains of ABs

Question 49

What are the 4 key characteristics of the immune system?

Answer 49

1) It can distinguish self from non-self
2) It can be specific
3) It is diverse - can recognise millions of different antigens
4) It has immunological memory

Question 50

Why might plasma cells have extensive ER and ribosomes?

Answer 50

To make and secrete many proteins as antibodies

Question 51

What do the results of blood tests normally include?

Answer 51

The no. of RBCs, WBCs and platelets

Question 52

What are platelets?

Answer 52

Small cell fragments which release substances that stimulate blood clotting

Question 53

How are the results for specific WBCs e.g. neutrophils/lymphocytes given?

Answer 53

As absolute numbers or as a % of WBC count

Question 54

When does the number of neutrophils in the blood increase?

Answer 54

During bacterial infections and whenever tissues become inflamed and die

Question 55

When does the number of lymphocytes in the blood increase?

Answer 55

During viral infections and TB

Question 56

When does the number of (helper) T cells decrease and why?

Answer 56

HIV invades helper T cells and causes their destruction, ∴ if the number of T cells is low, the disease has progressed more and treatment is less successful

Question 57

What do all WBCs in the blood originate from?

Answer 57

Stem cells in the bone marrow

Question 58

What are the two groups of bone marrow stem cells and what do each of them give rise to?

Answer 58

1) myeloid stem cells give rise to phagocytes

2) lymphoid stem cells give rise to lymphocytes

Question 59

What are leukaemias?

Answer 59

Cancers of the stem cells

Question 60

What happens in a person with leukaemia?

Answer 60

• The cells divide uncontrollably to give many cells which do not differentiate properly (are immature) and disrupt the production of normal blood cells incl RBCs and platelets, ∴ the body does not have enough of these
• These malignant cells fill up the body, disrupting the normal balance of components in the blood
• This causes anaemia and increases the risk of excessive bleeding
• Also, the no. of mature neutrophils and lymphocytes decrease, ∴ the people affected become immunosuppressed (more susceptible to infections)

Question 61

What are the two types of leukaemia?

Answer 61

Acute and chronic

Question 62

What happens in acute leukaemias?

Answer 62

• Develop very quickly
• Have severe effects
• Need to be treated immediately after they are diagnosed

Question 63

What happens in chronic leukaemias?

Answer 63

• May take years to develop
• Changes in blood cell count are usually monitored over time so that treatment is given when it is most likely to cure the disease

Question 64

How are blood tests used with leukaemias?

Answer 64

1) To help diagnose them
2) Monitor their progress
3) Assess the effectiveness of treatments