3.2.4 immunology

Question 1

what is the first stage of phagocytosis?

Answer 1

the phagocyte is attracted to the pathogen by the toxins and chemoattractants it releases and moves towards it

Question 2

what is the second stage of phagocytosis?

Answer 2

the phagocyte engulfs the pathogen and forms a vacuole around it

Question 3

what is the third stage of phagocytosis?

Answer 3

the phagocyte takes the pathogen into its cell and forms a phagosome

Question 4

what is the fourth stage of phagocytosis?

Answer 4

the lysosome fuses with the phagosome and secretes lysozymes to hydrolyse and destroy it

Question 5

what is phagocytosis?

Answer 5

the non specific response

Question 6

what is the final stage of phagocytosis?

Answer 6

the pathogens antigens are presented to the surface of the phagocyte

Question 7

what are the functions of T cells? (4 points)

Answer 7

produces memory T cells, stimulated phagocytosis, kills infected cells (making holes in their membrane), stimulates B cells to divide

Question 8

how can B cells act as antigen presenting cells?

Answer 8

B cell with an antibody that is complementary to the antigen, takes up the surface antigens of the invading pathogens, the processed antigen is presented on the surface of the B cell

Question 9

how do activated T helper cells work?

Answer 9

they attach to the processed antigens on the B cells thereby activating them, the B cells will then divide by mitosis to produce clones and differentiate into memory cells or plasma cells

Question 10

what are the two types of B cells?

Answer 10

memory cells and plasma cells

Question 11

how do B cells divide?

Answer 11

by mitosis to produce clones

Question 12

what are memory b cells?

Answer 12

circulate in the blood and tissue fluid in readiness to respond to a future infection by the same pathogen

Question 13

what are plasma b cells?

Answer 13

produce antibodies that exactly fit the antigens on the pathogens surface, the antibodies attach to the antigens on the pathogen to destroy them

Question 14

what is the secondary response?

Answer 14

if the same infection occurs again the memory cells divide and develop into plasma cells that produce antibodies, this secondary infection produces antibodies (in plasma cells) in higher concentrations and more quickly

Question 15

what is the role of antibodies (3 points)?

Answer 15

coat the pathogen with antibodies to make it easier for the phagocyte to engulf, coat the pathogen with with antibodies to prevent it from entering the body cells, antibodies bind to and neutralise (inactivate) toxins produces by the pathogen

Question 16

how do B cells and T cells work together?

Answer 16

both b cells and t cells are required to remove a pathogen from the body, the responses interact with each other, t cells activate b cells and antibodies coat pathogens making it easier for phagocytes to engulf them

Question 17

what is the structure of an antibody?

Answer 17

antigen binding sites, light chain, heavy chain, variable region, constant region, receptor binding site

Question 18

what is the variable regions?

Answer 18

since the binding sites differ they are called the variable region, the sequence of amino acids give each variable region its specific 3D shape

Question 19

what is the constant region?

Answer 19

binds to receptors

Question 20

how is an antigen-antibody complex formed?

Answer 20

each binding site is complementary to a specific antigen

Question 21

why will the antibody only detect a specific antigen?

Answer 21

the antigen binding site is complementary to the antigen as the variable region has a specific amino acid sequence to form an antigen-antibody complex

Question 22

what is agglutination?

Answer 22

antibodies clump bacterial cells together so it is easier for phagocytes to locate and engulf as they are less spread out

Question 23

how to antibodies act as markers?

Answer 23

they act as markers that stimulate phagocytosis, phagocytes can engulf the pathogen easier as they are attached

Question 24

what are polyclonal antibodies?

Answer 24

pathogens can have many antigens on their surface that can activate many plasma b cells, each of these b cells will clone to produce different antibodies, these are collectively known as polyclonal antibodies

Question 25

what are monoclonal antibodies?

Answer 25

a single type of antibody that is clones on mass outside of the body, from one type of b cell

Question 26

what is meant by immunity?

Answer 26

the ability of an organism to resist infection

Question 27

what are the two forms of immunity?

Answer 27

active and passive immunity

Question 28

what is passive immunity?

Answer 28

antibodies introduced from an outside source, antibodies are not produces by the individual so they are broken down, no memory cells so short lived

Question 29

what are examples of passive immunity?

Answer 29

anti-venom, immunity acquired by a foetus from the mother

Question 30

what is active immunity?

Answer 30

production of antibodies is stimulated by the individual, direct contact with the pathogen/antigen, immunity takes time to develop, long lasting

Question 31

what are the two types of active immunity?

Answer 31

natural and artificial active immunity

Question 32

what is natural active immunity?

Answer 32

individual infected with a disease, normal immune response

Question 33

what is artificial active immunity?

Answer 33

vaccination, induced immune response, few symptoms

Question 34

what do vaccinations involve?

Answer 34

purring a vaccine into the body that will generate an immune response

Question 35

how are vaccines administered?

Answer 35

orally or subcutaneously (injection)

Question 36

what do vaccines contain?

Answer 36

antigens to lead to the production of memory cells

Question 37

how are vaccination programmes successful?

Answer 37

must be cheap enough to immunise all vulnerable populations, few side affects so people aren’t discouraged, ability to produce/store/transport vaccine (hi-tech equipment), must be administered correctly at the appropriate time; trained staff are required, vaccinate the majority of population; best at one time so that for a period no individual carries the disease (transmission interrupted/ herd immunity)

Question 38

what is herd immunity?

Answer 38

large enough proportion vaccinated makes it difficult for the disease to spread, vaccination population provide a measure of protection for individuals who have not developed immunity, the greater proportion vaccinated means smaller probability that unvaccinated people com into contact with the pathogen

Question 39

when is herd immunity best achieved?

Answer 39

when vaccinations are carried out at one time, for a short period there are few infected individuals, interrupting transmission

Question 40

why do vaccinations not eliminate a disease?

Answer 40

don’t induce immunity in some individuals, disease can develop before immunity achieved, pathogens mutate frequently, pathogen varieties, pathogens hide from the immune system, individuals object to vaccination

Question 41

why do vaccinations not induce immunity in some individuals?

Answer 41

immune system defects

Question 42

why does pathogen mutation mean that vaccination doesn’t eliminate a disease?

Answer 42

mutation changes antigens, vaccine ineffective as new antigens are not recognised, antibodies are not produced, antigenic variation happens regularly in the influenza virus, immunity is short lives and repeat infections are common

Question 43

why do pathogen varieties mean vaccination does not eliminate disease?

Answer 43

difficult to create vaccines for all, 100 varieties of common cold

Question 44

how do pathogens hide from the immune system?

Answer 44

hide in cells or live in the gut where they are difficult to kill e.g. cholera

Question 45

why do some individuals object to vaccinations?

Answer 45

Religious, ethical, medical, safety concerns

Question 46

What are the ethical issues of vaccinations?

Answer 46

Animals use in development, side-effects can cause long-term harm, who should vaccines be tested on, is it fair to test on population where target disease is common based on the idea they will gain the most benefit if it’s successful, is it right to make vaccinations compulsory, should expensive vaccination programs continue when the disease is almost eradicated

Question 47

how are tumour cells produced for monoclonal antibodies?

Answer 47

irradiate mouse to induce formation of tumours, tumours form inside the mouse and the cells are removed

Question 48

how are the B cells produced for monoclonal antibodies?

Answer 48

inject a different mouse with non-self antigens, B cells which produce antibodies against the antigens are removed from the spleen

Question 49

how are hybridomas formed?

Answer 49

mix tumour cells with B cells and add detergent, detergent caused cells to fuse

Question 50

what are the features of the fused cells (monoclonal antibodies)?

Answer 50

have features of tumour and B cells- ‘immortal’ and produce antibodies

Question 51

how are monoclonal antibodies made ready for use?

Answer 51

fused cells are separated and cultured to form clones, each clone is tested to identify which one is producing the required antibody, culture the selected cells on a large scale and humanise them

Question 52

what is meant by humanisation?

Answer 52

the cells have to be modified to make them mor like human cells before they can be used as they come from a mouse

Question 53

what are the uses of monoclonal antibodies?

Answer 53

separating chemicals form mixtures, immunoassay (detecting concentrations of macromolecules in solutions), cancer treatment, transplant surgery

Question 54

what does HIV stand for?

Answer 54

human immunodeficiency virus

Question 55

what does HIV cause?

Answer 55

causes AIDS (acquired immunodeficiency syndrome)

Question 56

how does HIV affect the immune system?

Answer 56

gradually destroys the sufferers immune response

Question 57

when did the HIV epidemic start?

Answer 57

in the 1980s

Question 58

where did HIV come from?

Answer 58

western central africa, possibly in the 1930s, this virus jumped the species barrier, transferred from pronates to humans, possibly due to eating or slaughtering chimpanzees

Question 59

how is someone infected by HIV?

Answer 59

enters the body via infected body fluids; during sexual intercourse, drug taking using infected needles, blood infection, blood transfusions and blood products, mother to child across the placenta during pregnancy and via breast milk

Question 60

what are the symptoms of HIV?

Answer 60

fever (raised temperature), sore throat, body rash, tiredness, joint pain, muscle pain, swollen glands (nodes)

Question 61

what are the symptoms of AIDS?

Answer 61

weight loss, chronic diarrhoea, night sweats, skin problems, recurrent infections, serious life threatening illnesses

Question 62

what is the structure of the HIV virus? (7 points)

Answer 62

trans membrane glycoproteins, docking/attachment glycoproteins, lipid envelope, reverse transcriptase, matrix, caspid, genetic material (RNA)

Question 63

what is the significance of reverse transcriptase enzyme?

Answer 63

enzyme that catalysed the production of DNA from RNA this ability means that HIV belongs to group called retroviruses

Question 64

How does HIV infect host cells?

Answer 64

as HIV is a virus, it is unable to replicate on its own, it used its genetic material to instruct the host cells biochemical mechanisms to produce the parts needed to make HIV

Question 65

what is the first stage of HIV infection?

Answer 65

p120 molecules (attachment glycoproteins) on the HIV bind to CD4 receptor proteins on the T helper lymphocytes and macrophages

Question 66

what is the second stage of HIV infection?

Answer 66

the protein caspid fuses with the cell membrane

Question 67

what is the third stage of HIV infection?

Answer 67

HIV RNA and enzymes enter the T cell

Question 68

what is the fourth stage of HIV infection?

Answer 68

HIV reverse transcriptase converts the virus’s RNA to DNA

Question 69

what is the fifth stage of HIV infection?

Answer 69

the new DNA is moved into the helper T cell’s nucleus where it is inserted into the cells DNA

Question 70

what is the sixth stage of HIV infection?

Answer 70

the HIV DNA in the nucleus created mRNA containing instructions for making new viral proteins and the RNA for new HIV

Question 71

what is the seventh stage of HIV infection?

Answer 71

the mRNA leaves the nucleus of the host cell through nuclear pores and uses the cells protein synthesis mechanisms to move HIV particles

Question 72

what is the eighth stage of HIV infection?

Answer 72

the HIV particles bud away from the helper T cell with a piece of its cell surface membrane surrounding them which forms their lipid envelope

Question 73

how does HIV lead to aids?

Answer 73

HIV specifically targets helper T cells, leads to AIDS by destroying/interfering with T cells normal functioning, since there are no longer enough helper T cells B cells are not stimulated to produce antibodies, cytotoxic T cells not stimulated, memory cells are also sometimes infected and destroyed

Question 74

what does AIDS result in?

Answer 74

inadequate immune response, vulnerable to infections and cancer e.g. lungs, intestine, brain and eyes, diarrhoea and weight loss are common, secondary illness not HIV that causes death

Question 75

where do T cells mature?

Answer 75

in the thymus gland

Question 76

what is the cell mediated response?

Answer 76

immunity involving body cells, T lymphocytes responds to foreign material inside body cells/responds to own cells altered by viruses/cancer or transplanted tissue

Question 77

which cells are targeted by T lymphocytes?

Answer 77

Antigen presenting cells; pathogens that have been engulfed and hydrolysed, phagocytes present some antigens on their surface. Body cells invaded by a virus present viral antigens. Cancer cells are different from normal cells and present antigens. Transplanted cells have different antigens

Question 78

describe the process of the cell mediated response:

Answer 78

pathogens invade body cells or are taken in by pathogens, the phagocyte places antigens from the pathogen on its own surface membrane, receptors on certain helper T cells fit exactly onto these antigens, this activates other T cells to rapidly divide by mitosis and produce a clone

Question 79

what happens to the cloned T clls in the cell mediated response

Answer 79

develop into memory cells for a faster future response, stimulate phagocytosis, stimulates B cells to divide into plasma cells and secrete antibodies, activate cytotoxic T cells

Question 80

how do cytotoxic T cells work?

Answer 80

cytotoxic T cells kill abnormal body cells, produce a protein called perforin that makes holes in the cell surface membrane, makes the cell freely permeable, killing it by osmotic lysis, affective against viruses as they replicate inside cells

Question 81

what is the ELISA test?

Answer 81

enzyme linked immunosorbant assay, uses antibodies to detect the presence and amount of protein in a sample, highly sensitive

Question 82

what is the method for the ELISA test?

Answer 82

apply sample to surface, the antigens in the sample will attach to this surface, wash the surface to remove any antigens that arent attached, add the antibody that is specific to the antigen we are trying to detect, leave to allow binding, rinse to remove excess antibody, add a second antibody that will bind to the first antibody, the second antibody has an enzyme attached to it, add the substrrate to enzyme (colourless), the enzyme acts on the substrate, the substrate is converted into coloured products

Question 83

describe the differences between immunity obtained from breastfeeding vs vaccines

Answer 83

immunity from breastfeeding is immediate but immunity from vaccines takes time to develop, a vaccine involves exposing a baby to an antigen whereas breastfeeding provides immunity without needing to expose the baby to an antigen, immunity from breastfeeding does not produce memory cells but vaccines do, immunity from breastfeeding short time but longer immunity from a vaccine

Question 84

Where do B cells grow?

Answer 84

Bone marrow

Question 85

Where do B cells mature?

Answer 85

The bone marrow

Question 86

Where do T cells grow?

Answer 86

Bone marrow

Question 87

Where do T cells mature?

Answer 87

Thymus gland