Slide Set 8 - The Immune System

Question 1

What is immunity?

Answer 1

The body’s ability to protect itself agains infectious disease

Question 2

What are the 3 components of the immune system?

Answer 2

1. Lymphoid tissue
2. Various types of immune cells
3. Chemical signals that coordinate responses

Question 3

What are the 4 functions of the immune system?

Answer 3

1. Protect against pathogens (bacteria, viruses, parasites)
2. Protects against foreign molecules (toxins)
3. Removes dead/damaged cells
4. Attempts to recognize and remove abnormal cells

Question 4

What are 3 immune system disorders?

Answer 4

1. Incorrect immune responses (autoimmune disease - ex. Type 1 Diabetes)
2. Overactive immune responses (allergies)
3. Lack of immune response (immunodeficiency disease - ex. AIDS)

Question 5

What are the 2 lines of defence of our immune system?

Answer 5

1. Physical barriers

2. Immune defences: innate and acquired/adaptive immunity

Question 6

What are examples of physical and chemical barriers that make up the 1st lines of defence of our immune system?

Answer 6

Physical:

• skin
• epithelial linings
• cilia, mucus membranes
• lacrimal apparatus
• saliva
• epiglottis

Chemical:

• sebum (secreted by sebaceous glands, low pH inhibits microbial growth)
• Perspiration (flushes skin microbes, contains lysozymes)
• gastric juice (low pH, presence of enzymes)
• Urine: flushes, preventing attachment

Question 7

What are 2 characteristics of innate immunity?

Answer 7

1. Non-specific (responds to a range of signals)

2. Immediate response

Question 8

Where are 3 characteristics of acquired immunity?

Answer 8

1. Specific - attacks a specific pathogen or antigen
2. Slower but stronger response
3. Memory allows for fast responses upon re-exposure

Question 9

What are the 4 steps in immune response?

Answer 9

1. detection and identification of the foreign substance
2. communication with other immune cells
3. recruitment of other immune cells, and coordination of the response
4. destruction or suppression of the invader

Question 10

What is the lymphatic system? How does the immune system play a role in this system?

Answer 10

a vascular system that collects tissue fluid and returns it to the blood - the lymphatic fluid (called lymph) is monitored for pathogens by immune system cells as it travels

Question 11

What are the two types of primary lymphoid tissues?

Answer 11

1. bone marrow

2. thymus (produces T lymphocytes)

Question 12

What are the two types of encapsulated lymphoid tissues?

Answer 12

1. lymph nodes

2. spleen

Question 13

What is an example of a diffuse lymphoid tissue?

Answer 13

Tonsil

Question 14

What is the structure and location of the thymus gland?

Answer 14

2-lobed organ located in thorax just above the heart

Question 15

When does the thymus reach its peak size? What happens to it afterwards as a person ages?

Answer 15

during adolescence, then shrinks and is replaced by adipose tissue

Question 16

During development, cells that attribute what 2 characteristics are eliminated from the body?

Answer 16

1. cells that are self reactive in the thymus

2. cells that do not react with “self” tissue

Question 17

What does the thymus gland produce?

Answer 17

1. T Lymphocytes

2. Peptides: thymosin, thymopoietin, thymulin

Question 18

What is a lymphoid nodule?

Answer 18

loose connective tissue with densely packed lymphocytes - not surrounded by a fibrous capsule

Question 19

What does the germinal centre of lymphoid nodules contain?

Answer 19

dividing lymphocytes

Question 20

What is the size of a lymphoid nodule dependent on?

Answer 20

number of lymphocytes present

Question 21

What is characteristic about the location of lymphoid nodules in the body? List the 3 locations

Answer 21

Beneath epithelial lining of organs that have direct contact to the outside world

1. respiratory tract (tonsils)
2. digestive tract
3. urinary tract

Question 22

What happens to the fluid that flows out of capillaries via capillary hydrostatic pressure?

Answer 22

Some of it gets reabsorbed by colloid osmotic pressure, excess fluid that is not reabsorbed and left in the tissue gets picked up by the lymphatic system (average of 3.6 L/day)

Question 23

Compare the structure of bacteria and viruses

Answer 23

Bacteria: Cells. Usually surrounded by cell wall

Viruses: Not cells. Nucleic acid core with protein coat

Question 24

Compare the living conditions of bacteria and viruses

Answer 24

Bacteria: most can survive and reproduce outside of a host

Viruses: Parasitic. Must have host cell to reproduce

Question 25

Compare the susceptibility of bacteria and viruses to drugs

Answer 25

Bacteria: most can be killed or inhibited by antibiotics

Viruses: Cannot be killed by antibiotics. Some can be inhibited with an antiviral drug

Question 26

What are the 4 steps of viral structure and replication?

Answer 26

1. Viral invasion of host cell
2. Synthesis of new viral nucleic acids and proteins
3. Self-assembly of new viral macromolecules into new virus particles
4. Virus particles released from host cell

Question 27

What is an interferon?

Answer 27

A protein released by mammalian cells, usually in response to the entry of a virus, that has the property of inhibiting virus replication

Question 28

What are the steps to interferon and antiviral protein formation during a viral infection?

Answer 28

1. Virus infects cell
2. Viral replication in cell triggers gene expression of alpha and beta interferon protein depending on the type of host cell
3. The interferon protein is released from the cell, and diffuse to neighbouring uninfected cells, binding to their receptors.
4. Receptor binding triggers expression of genes for anti-viral proteins (which remain inactive in the cell upon contact with virus)
5. Virus arrives at this neighbouring cell and injects the cell with its double-stranded viral RNA
6. Contact of the virus’s double-stranded RNA with the antiviral protein in the cytosol of this neighbouring cell activates the antiviral protein.
7. The activated antiviral protein degrades the virus’s mRNA, stops viral infection, and inhibits viral protein synthesis

Question 29

Function of efferent and afferent lymph vessels:

Answer 29

Afferent lymph vessels carry lymph into the lymph node.

Efferent lymph vessels carry lymph out of the lymph node (from here lymph may travel to another lymph node, returned to vein)

Question 30

The paracortical area of a lymph node contains mainly what type of cell?

Answer 30

mostly T cells

Question 31

The primary lymphoid follicle contains mainly what type of cell?

Answer 31

mostly B cells

Question 32

In what two ways can leukocytes me classified?

Answer 32

granulocytes

agranulocytes

Question 33

What are the 3 granulocytes?

Answer 33

1. eosinophils
2. basophils and mast cells
3. neutrophils

Question 34

What are the 3 agranulocytes?

Answer 34

1. monocytes and macrophages
2. lymphocytes
3. dendritic cells

Question 35

What is the activated function of macrophage?

Answer 35

Phagocytosis and activation of bactericidal mechanisms

Antigen presentation

Question 36

What is the activated function of dendritic cells?

Answer 36

Antigen uptake in peripheral sites

Antigen presentation

Question 37

What is the activated function of neutrophils?

Answer 37

Phagocytosis and activation of bacterial mechanisms

Question 38

What is the activated function of mast cells?

Answer 38

release of granules containing histamine and active agents

Question 39

What is the activated function of eosinophils?

Answer 39

killing of antibody coated parasites

Question 40

What is the activated function of basophils?

Answer 40

unknown

Question 41

Which is the most and least abundant type of leukocyte in the blood?

Answer 41

Neutrophils

Basophils

Question 42

What is the activated function of natural killer cells?

Answer 42

Release lytic granules that kill some virus-infected cells

Question 43

Do most pathogens enter the body?

Answer 43

No, they are kept out by surface tissues and their secretions

Question 44

What is the difference between the phagocytosis of pathogens with and without capsules?

Answer 44

Pathogens without capsules are detected by the membrane receptors of phagocytes - the membrane receptors bind to the pathogen and the pathogen is engulfed.

Pathogens with capsules: antibodies bind to the capsule of the pathogen, which then enables the antibody receptors on the phagocyte’s membrane to bind to the pathogen and engulf it

Question 45

What are ingested pathogens killed by inside of macrophages?

Answer 45

lysosomal enzymes: lysosome (containing enzymes and oxidants) fuses with the phagosome (containing ingested pathogen), digesting and killing it

Question 46

How do dendrite cells (and other antigen presenting cells) initiate adaptive immunity?

Answer 46

Immature dendritic cells migrate from peripheral tissues to regional lymph nodes via the lymphatic vessels. Once in the lymph node, the mature dendritic cells activate T cells

Question 47

What is an antigen?

Answer 47

a toxin or other foreign response that induces an immune response in the body

Question 48

How do macrophages develop memory?

Answer 48

After they have digested an antigen in lysosome, they then display antigen fragments on their surface receptors so they can react faster upon subsequent exposure

Question 49

What do Natural Killer cells kill and how?

Answer 49

They kill infected cells by inducing apoptosis (death of cells that occurs as a normal and controlled part of their development) and some tutor cells

Question 50

What 3 things do NK cells secrete?

Answer 50

Chemical signals called interferons.

1. Interferon-alpha: prevent viral replication
2. interferon-beta: prevent vial replication
3. Interferon-gamma: activates macrophages and other immune cells

Question 51

What stimulates inflammation?

Answer 51

infection or tissue damage

Question 52

What are 3 beneficial roles of inflammation?

Answer 52

1. Attract immune cells and chemical mediators to sites of infection
2. Create physical barriers to prevent infections from spreading
3. promote tissue repair

Question 53

What are the 4 steps in the inflammatory response?

Answer 53

1. Chemical signals called cytokines are released upon tissue damage or infection
2. Acute phase proteins help prevent tissue damage
3. Cytokines stimulate histamine release from mast cells
4. Histamine causes two local vascular changes: vasodilation which leads to heat and redness & permeability of nearby capillaries causing WBCs and plasma to move into tissue which causes deem from osmotic effects of the plasma proteins

Question 54

What are cytokines?

Answer 54

small proteins that stimulate or inhibit many normal cell functions such as cell growth and differentiation

Question 55

What releases cytokines and why?

Answer 55

Tissue macrophages release cytokines to stimulate inflammation

Question 56

What are 3 effects of inflammation ?

Answer 56

1. other immune cells are attracted to the site of tissue damage
2. Permeability of tissue is increased
3. fever

Question 57

What are 3 other chemicals that cause in inflammatory response and what is their function?

Answer 57

1. interleukins (a subset of cytokines): secreted by leukocytes to act on other leukocytes - IL-1 mediates inflammatory response and induces fever, blood vessels become more permeable to WBCs and proteins, acute phase proteins
2. Bradykinin: cause pain and swelling by stimulating pain receptors; vasodilator
3. complement proteins (inactive as plasma proteins): complement protein cascade produces a membrane attack complex (MAC) that inserts into forming cell membranes and results in cell lysis

Question 58

How do Membrane Attack Complexes (MAC) react with pathogens?

Answer 58

Complement protein part of MAC insert themselves into the membrane of a pathogen creating pores. These pores allow water and ions to flow into the cell and cause the cell to swell and rupture

Question 59

What are acute phase proteins?

Answer 59

liver proteins that act as opsonins and that enhance the inflammatory response

Question 60

What are chemotaxins?

Answer 60

molecules that attract phagocytes to a site of infection

Question 61

what are cytokines?

Answer 61

Proteins released by one cell that affect growth or activity of another cell

Question 62

what are opsonins?

Answer 62

proteins that coat pathogens so phagocytes recognize and ingest them

Question 63

What are pyrogens?

Answer 63

fever producing substances

Question 64

Slide 38

Answer 64

17 definitions of Chemicals of the Immune System

Question 65

What does an acquired immune response do?

Answer 65

reacts to and targets a specific foreign molecule - the presence of a foreign antigen activates several types of lymphocytes to combat an infection

Question 66

What is the difference between active and passive immunity?

Answer 66

Active immunity: occurs when lymphocytes are exposed foreign antigens to combat an infection

Passive immunity: occurs when we receive antibodies made elsewhere

Question 67

______ regulate both innate and acquired immune system responses, and also help coordinate these responses

Answer 67

Cytokines

Question 68

What does the acquired immunity response produce upon encountering an antigen?

Answer 68

memory cells

Question 69

Course of the adaptive HUMORAL RESPONSE: What happens after an antigen presenting phagocyte (B-cell) presents itself to a T-helper cell?

Answer 69

1. The helper T cell gives the B cell permission to differentiate into a plasma cell
2. The antigen presenting B cell is now a plasma cell and produces an antibody against against the antigen that was presented
3. Some T and B cells differentiate into memory cells that respond rapidly to any secondary encounter with antigen

CELLULAR REACTION SIDE:

1. T cells identify infected cells through MHC (Major Histocompatibility Complex) antigen complexes on their surface and become activated
2. The he

Question 70

Course of the adaptative CELLULAR RESPONSE: What happens after an antigen presenting phagocyte (B-cell) presents itself to a T-helper cell?

Answer 70

1. T cells identify infected cells through MHC antigen complexes (Major Histocompatibility Complex) on their surface and become activated.
2. The helper T cell produces cytokines that cause the activated T cell to differentiate into cytotoxic T cell which then kills the target cell
3. some B cells and cytotoxic T cells become memory cells

Question 71

What are the 3 types of lymphocytes?

Answer 71

1. B lymphocytes
2. T lymphocytes
3. Natural Killer (NK) cells

Question 72

What type of cells are B lymphocytes and what do they secrete?

Answer 72

Plasma cells –> secrete antibodies

Question 73

What are the 4 main types of T lymphocyte cells and what do they secrete?

Answer 73

1. Helper T cells –> secrete cytokines
2. Cytotoxic T cells –> directly attack infected cell
3. suppressor T cells
4. Memory T cells

Question 74

Are T cells part of specific or acquired immunity?

Answer 74

specific

Question 75

T cells make up what % of circulating lymphocytes? B cells? Natural Killer cells?

Answer 75

80%

10-15%

5-10%

Question 76

Are B cells part of specific or acquired immunity?

Answer 76

specific

Question 77

What to B cells differentiate/change into?

Answer 77

plasma cells which produce and secrete antibodies

Question 78

Natural Killer cells are part of specific or acquired immunity?

Answer 78

acquired

Question 79

What are natural killer cells responsible for?

What do they attack?

Answer 79

Immunological surveillance

Attack foreign cells, virus-infected cells, and cancer cells