Immunity

Question 1

Immunity

Answer 1

Resistance to disease

Question 2

Pathogen

Answer 2

A bacterium, virus, or other microorganism that can cause disease.

Question 3

Cell-mediated immune response

Answer 3

The branch of acquired immunity that involves the activation of cytotoxic T cells, which defend against infected cells.

Question 4

Phagocytosis

Answer 4

A type of endocytosis in which a cell engulfs large particles or whole cells

Question 5

Lymphocytes

Answer 5

The two types of white blood cells that are part of the body’s immune system: B lymphocytes form in the bone marrow and release antibodies that fight bacterial infections; T lymphocytes form in the thymus and other lymphatic tissue and attack cancer cells, viruses, and foreign substances.

Question 6

Humoral immunity

Answer 6

Specific immunity produced by B cells that produce antibodies that circulate in body fluids

Question 7

T lymphocytes (T cells)

Answer 7

Lymphocyte that matures in the thymus and acts directly against antigens in cell-mediated immune responses.

Question 8

B lymphocytes (B cells)

Answer 8

Lymphocytes which mature in the bone marrow and that are involved in the production of antibodies

Question 9

Antigens

Answer 9

Foreign substances that trigger the attack of antibodies in the immune response.

Question 10

Non-specific immunity

Answer 10

Defenses that stop the invasion of pathogens; requires no previous encounter with a pathogen

Question 11

Non-self

Answer 11

A molecule that is not recognised by the immune system as being part of the organism itself

Question 12

Tertiary structure

Answer 12

Irregular contortions of a protein molecule due to interactions of side chains involved in hydrophobic interactions, ionic bonds, hydrogen bonds, and disulfide bridges.

Question 13

Macrophages

Answer 13

Found within the lymph nodes, they are phagocytes that destroy bacteria, cancer cells, and other foreign matter in the lymphatic stream.

Question 14

Vaccination

Answer 14

injection of a weakened or mild form of a pathogen to produce immunity

Question 15

Bone marrow

Answer 15

A soft tissue inside the bone that produces blood cells

Question 16

Secondary response

Answer 16

Production of antibodies after a second or subsequent exposure to an antigen; faster response

Question 17

Plasma cells

Answer 17

Cells that develop from B cells and produce antibodies.

Question 18

Agglutination

Answer 18

Clumping of microorganisms or blood cells, typically due to an antigen-antibody interaction.

Question 19

Specific

Answer 19

The response other immune system when antigens have penetrated the bodies’ natural barriers

Question 20

What is the structure of HIV?

Answer 20

1. Core - contains genetic material (RNA) and some proteins (including enzyme reverse transcriptase)
2. Capsid
3. Envelope - made from the membrane stolen from the previous host cell
4. Attachment proteins - allow the HIV to attach to the host helper T-cell

Question 21

How does HIV replicate in helper T cells?

Answer 21

1. Attachment proteins attach to a receptor molecule (CD4) on the membrane of helper T-cell
2. Capsid is released into the cell, where it uncoats and releases the genetic material into cells cytoplasm
3. Reverse transcriptase is then used to make a complementary strand of DNA from the viral RNA template
4. From this, double-stranded DNA is made and inserted into human DNA
5. Host cell enzymes are used to make viral proteins from viral DNA found within the human DNA
6. Viral proteins are assembled into new viruses
7. They bud from the cell and go on to infect other cells

Question 22

How does HIV cause the symptoms of AIDS?

Answer 22

1. HIV reduces number of T-helper cells in blood
2. T-cells cannot stimulate B-cells to produce antibodies or the T-cells that kill infected cells.
   => body is unable to produce an adequate immune response and becomes susceptible to other infections and cancers.
   - secondary diseases ultimately kill the patient; infections of many organs, weight loss and diarrhoea develop.

Question 23

Why are antibiotics ineffective against viruses?

Answer 23

1. They kill bacteria by interfering with their metabolic reactions (targeting bacterial enzymes and ribosomes)
2. Antibiotics are only designed to target bacterial enzymes and ribosomes
3. Viruses don’t have their own enzymes and ribosomes (use human)
4. therefore antibiotics can’t inhibit them

Question 24

What are the uses of monoclonal antibodies?

Answer 24

1. Targeted drugs to a specific cell type - e.g cancer, monoclonal antibodies that will bind to tumour markers or cancer cells, only accumulate in areas with these present
2. Medical diagnosis - e.g pregnancy testing using coloured beads etc.

Question 25

What are the ethical issues with vaccines and monoclonal antibodies?

Answer 25

- Production and testing of vaccines may be done on animals ( animal rights) - The risks of the vaccine need to be balanced with the benefits - The vaccine must be tested on humans first to determine toxicity - Vaccinations are very expensive

Question 26

What occurs in the ELISA test?

Answer 26

indirect ELISA test - detecting HIV 1. HIV antigen bound to bottom of well in a well plate 2. Patients blood plasma is added to the well 3. Any HIV specific antibodies will bind to the HIV antigens 4. The plate is washed - any unbound antibodies will be removed (no false positives) 5. A secondary antibody with an enzyme attached to it is added 6. This secondary antibody binds to the HIV specific antibody - antigen complex 7. The plate is washed - any unbound antibodies will be removed 8. A solution is added to the well containing a substrate which reacts with the enzyme and produces a colour change COLOUR CHANGE - positive

Question 27

How does AIDS differ from HIV?

Answer 27

HIV is the virus, AIDS is the condition that develops as a result of the virus

Question 28

Why may a person who has AIDS not die directly of AIDS?

Answer 28

Immune system is so weak it cannot fight of other infections (e.g. Pneumonia)

Question 29

What is the latency period?

Answer 29

Period between initial invasion and replication of virus, virus is dormant, patient doesn't show any symptoms

Question 30

Why is a HIV virus so hard to treat?

Answer 30

HIV virus uses human body cells to replicate and their enzymes and ribosomes, antibiotics cannot inhibit these as they don't target human processes. HIV has a high mutation rate, difficult to create treatment that'll work as become resistant so quickly (can't use vaccine)

Question 31

What treatments could be used for HIV (antiviral drugs)?

Answer 31

Drugs that target viral enzymes eg reverse transcriptase which the HIV makes (human cells do not make this enyzme), so no side effects on the body