Slide 8

Question 1

What is the purpose of the immune system?

Answer 1

to protect itself against infectious diseases

Question 2

What are the three components of the immune system?

Answer 2

lymphoid tissues
various immune cell types
chemical signals that coordinate responses

Question 3

What does the immune system protect itself aginast?

Answer 3

bacteria 
viruses
parasites
foreign molecules
dead or damaged cells

Question 4

What are the pathologies of immune repsonses

Answer 4

• incorrect immune response (autoimmune disease type 1 diabetes)
• overactive immune responses (allergies)
• lack of immune response (immunodeficiency disease AIDS)

Question 5

What are the two line of defense?

Answer 5

physical and chemical barriers

immune defenses (innate immunity and acquired immunity)

Question 6

Differenciate the physical and chemical barriers

Answer 6

physical: skin mucous membranes, saliva, epiglottis, lacrimal apparatus (tear drops)

chemical
sebum = low pH inhibits microbial growth
perspiration (flushes out microbes and contains lysozyme)
gastric juice (low pH and presence of enzymes)
urine=flushes out to prevent attachment

Question 7

What is the reaction time difference between innate and adaptive immunity?

Answer 7

innate: a few hours
adaptive: a few days

Question 8

What are the four steps in an immune response?

Answer 8

1. detect and identify the foreign substance
2. communicate with other immune cells
3. recruit other immune cells and coordinate response
4. destruction or suppression of the invader

Question 9

What is the purpose of the lymphatic system?

Answer 9

vascular system that collects tissue fluids (screens) and returns it to the blood

Question 10

What is the lymphatic fluid?

Answer 10

it is called the lymph and is monitored for pathogens by the immune system cells

Question 11

What are the primary lymphoid tissues?

Answer 11

bone marrow produces blood cells and thymus makes t lymphocytes

Question 12

What are the encapsulated lymphoid tissues?

Answer 12

lymph nodes and spleen

Question 13

What are diffuse lymphoid tissues?

Answer 13

less concentrated with lymphoid tissues? also known as lymphoid nodules

Question 14

Describe the thymus gland

size throughout development and produces?

Answer 14

2 lobed organ in the thorax
reaches optimal size during adolescence and then shrinks and replaced by adipose tissue

during development, cells that are self reactive in the thymus are eliminated

produces: T lymphocytes, peptides (thymosin and thymopoietin, thymulin)

Question 15

What are the functions of lymphoid nodules?

Answer 15

they are loose connective tissue densely packed with lymphocytes

not surrounded by fibrous capsule

germinal center contains dividing lymphocytes

size can increase or decrease depending on number of lymphocytes present (when you sick you might have inflamed throat??)

Question 16

Where are lymphoid nodules located?

Answer 16

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

(digestive, respiratory (tonsils) and urinary)

Question 17

How does the lymph filtrate or reabsorb?

Answer 17

filtration into the lymph: if capillary hydrostatic pressure is GREATER than blood osmotic pressure (fluid pushed out)
=> in arteriole

Reabsopriton out of the lymph: if blood osmotic pressure is GREATER than capillary hydrostatic pressure => venule

between arteriole and venule: no net movement of fluid because capillary hydrostatic pressure = blood osmotic pressure

Question 18

How do bacteria and viruses differ? structure, living conditions and vulnerability to drugs

Answer 18

structure:
bacteria- surrounded by cell wall

viruses - NOT CELLS, nucleic acid core+ protein coat

living conditions
bacteria- most can survive and reproduce outside the host

virus - PARASITIC, NEEDS host to reproduce

drugs:
bacteria-can be killed or inhibited by antibiotics

virus: cannot be killed by antiobiotics, need anti viral drugs (some)

Question 19

What is the viral structure and replication?

Answer 19

1. virus invades the host cell
2. synthesized new viral nucleic acids and proteins (uses host machinery)
3. self assembly of new viral macromolecules into new virus particles
4. virus particles released from host cell

Question 20

What are interferons and how do they work?

Answer 20

if a host cell is infected,
1. the viral replication triggers the expression of alpha or beta interferon (depending on host cell type)

2. the IFN is released and attached to uninfected neighboring receptors

and the infected cell dies and releases virus

3. the receptor binding triggers an expression of AVP genes (that is inactive)
4. now if a viral particle enters this cell to replicate, it activates the AVP by contact of the double stranded RNA
5. the active AVP degrade the viral mRNA to stop the viral replication and inhibit the protein synthesis of the virus

Question 21

What is the structure of a lymph node?

Answer 21

at the lymph node:
there is an artery and vein

efferent and afferent lymph vessel

Question 22

Describe the lymphatic system part of the kidney.

Answer 22

membrane: afferent lymphatic vessel
cortex: primary lymphoid follicle (mostly B cells)

paracortical area:then T cells (mostly)

medullary cords: macrophages and plasma cells

medullary sinus (inner most part): … efferent lymphatic vessel

Question 23

Describe the regions of the spleen

Answer 23

red pulp: extensive blood vessels and open venous sinuses (darker like RBCs)

white pulp: resemble interior of lymph nodes and composed mainly of lymphocytes

have vein, artery and capillaries

Question 24

What is the composition of whole blood?

Answer 24

plasma vs. formed elements

plasma: H20, plasma proteins (albumin regulatory proteins fibrinogen globulins), other solutes

formed elements: RBCs, WBCs (granulocytes vs. agranulocytes)*, platelets

• granulocytes: neutrophils, basophils, eosinophils
  agranulocytes: monocytes and lymphocytes

Question 25

What are the granulocytes and agranulocytes?

Answer 25

granulocytes:
eosinophils, destroy esp. antibody coated parasites
basophils & mast cells,release chemicals that mediate inflammation and allergic response
neutrophils, ingest and destroy invaders

agranulocytes: monocytes & macrophages, ingests and destroy invaders = antigen presenting MHC2
lymphocytes (T and B) & plasma cells, specific response to invaders and produce antibodies
dendritic cells, aka Langerhans cells = recognize pathogens and activate other immune cells by antigen presentation

Question 26

What are some types of macrophages and where do we have them?

Answer 26

microglial = brain
alveolar = lungs
kupffer cells = liver
endothelial
spleen
kidneys
dendritic
joints

Question 27

What do macrophages do?

Answer 27

phagocytose and activate bactericidal mechanism

antigen presenting

Question 28

What are dendritic cells?

Answer 28

antigen uptake in peripheral sites

antigen presenting

Question 29

What do neutrophils do?

Answer 29

phagocytose and activate bactericidal mechanism

Question 30

What do mast cells do?

Answer 30

release granules containing histamine and active agents (make hole in the cells)

Question 31

What do eosinophils do?

Answer 31

kill antibody coated parasties

Question 32

What basophils do?

Answer 32

unknown

Question 33

What is the purpose of the first line of defense?

Answer 33

most pathogens do not enter the body (kept out of surface tissues )

they secrete:
on physical barrier = mucous and skin

chemical barriers = stomach acid ad lysozyme

Question 34

What types of phagocytosis are there and how do they differ?

Answer 34

without capsules: engulf and phagocytose pathogen

with capsule: antibody molecules attach to the capsule and attached antibodies bind to the membrane receptor of phagocytes and then gets engulfed within cell

Question 35

What happens after pathogens are phagocytosed? (within cell)

Answer 35

they are ingested and killed by lysosomal enzymes

phagosomes (after phagocytosing something)
- lysozomes that contain enzymes and oxidants

fuse with

• ingested pathogen

become digested into pieces

Question 36

What is the difference between immature dendritic cells and mature dendritic cells?

Answer 36

immature: reside in peripheral tissues
mature: after migration via lymphatic vessel to lymph nodes

they activate naïve T cells in lymphoid organs

Question 37

What is the special feature of antigen presenting cells?

Answer 37

they ingest the pathogen and then digest in lysosome and then display the antigen fragements on the receptors

Question 38

What do NK cells do? How do they do it?

Answer 38

kill infected and tumor cells
by:
-inducing apoptosis in infected cells
-attack tumor cells
-secrete chemical signals = interferons (alpha+beta = prevent viral replication & gamma=activate macrophages and other immune cells)

Question 39

What is the purpose of inflammation?

Answer 39

attract immune cells and chemical mediators in infection sites

create physical barrier to prevent infection to spread

promote tissue repair

Question 40

What are the steps in inflammatory response? list chemical releases

Answer 40

1. damage/infection: cytokines and acute-phase proteins are released
2. acute phase proteins: help prevent tissue damage
3. cytokines: stimulate histamine release from mast cells
4. histamine: causes local vascular changes
   - vasodilation -> leads to heat and redness
   - nearby capillaries become more permeable -> WBCs and plasma proteins move into tissue + edema or swelling results from osmotic effect of plasma protein

Other chemicals:

interleukins: subset of cytokines that cause fever and blood vessels become more permeable to WBCs and proteins and acute phase proteins

Bradykinin: pain and swelling

complement proteins: inactive as plasma proteins but the cascade produces MAC membrane attack complex and inserts into foreign cell membranes to result in lysis

Question 41

What are cytokines and acute phase proteins?

Answer 41

acute phase proteins: help prevent tissue damage

cytokines: proteins that stimulate or inhibit many normal cell functions like growth and differentiation

released by macrophages to stimulate inflammation and attract other immune cells to increase tissue permeability and cause fever

Question 42

How does the MAC complex work?

Answer 42

the complement proteins insert themselves into the membrane of the pathogen

the proteins create pores in the membrane

now the membrane cannot keep homeostasis, ion balance etc.

cell dies

Question 43

What are acute phase proteins?

Answer 43

liver proteins act as opsonins that enhance inflammatory response

Question 44

What are opsonins?

Answer 44

proteins that coat pathogesn so phagoytes can recognize and ingest easily

Question 45

What are chemotaxins?

Answer 45

attract phagocytes to a site of infection

Question 46

What are cytokines?

Answer 46

proteins released by one cell to affect growth or activity of another

Question 47

What are pyrogens?

Answer 47

fever inducing substances

Question 48

What are antibodies?

Answer 48

immunoglobulins secreted by b cells to fight specific invaders

Question 49

What do C reactive proteins do?

Answer 49

activate complement cascade

Question 50

How T cell receptors work?

Answer 50

recognize and bind antigen presented by MHC receptors

Question 51

What are TNF?

Answer 51

tumor necrosis factors that promote inflammation and cause cells to self destruct via apoptosis

Question 52

Describe the acquired immunity. What helps regulate innate and acquired immune responses?

Answer 52

reacts and targets specific foreign molecules => antigen

presence of antigen activates:
active (lymphocytes exposed to foreign antigen) and passive (when we receive antibodies elsewhere) immunity

cytokines regulate both innate and acquired immune responses

memory cells are produced in case of future re-exposure

Question 53

What is the course of adaptive response?

Answer 53

1. extracellular antigen fragments presented to Th (helper cell) on B cell receptor [once B cell finds the antigen to the antibody] or antigen presenting cell (ie macrophage)
2. Th gives permission to B cell to differenciate into a plasma cell (that can have anitbodies to shoot out)

Th also activated macrophages so they are really efficient in phagocytosing

Th also activates naïve cytotoxic T cell

3. activated cytotoxic T cell kill target cells
4. B cells and cytotoxic T cells also makes memory cells so there is a more rapid response on secondary encounter

Question 54

What are the subdivision of lymphocytes?

Answer 54

1. T cells (cytotoxic directly attack infect cells and helper secrete cytokines)
2. B cells (differenciate into plasma cells and then secrete antibodies)
3. NK cells (natural killer cells)

Question 55

What are the 4 main types of T cells? they are most abundant in the circulating lymphocytes 80%

Answer 55

cytotoxic T cells

Helper T cells

suppressor T cells

memory T cells

Question 56

What is the role of B cells?

Answer 56

make 10-15%
differenciate into plasma cells once activated by Th cells

plasma cells: produce and secrete antibodies [immunoglobulin proteins]

antibody mediated immunity: destroys and target compounds or organism

Question 57

What are the natural killer cells?

Answer 57

they are large and granular lymphocytes

responsible for immunological surveillance
attack foreign cells, virus infected and cancer cells

Question 58

Which lymphocytes are part of specific and non specific immunity?

Answer 58

specific: B cells and T cells

non-specific: NK cells

Question 59

How are T cells produced?

Answer 59

From the red bone marrow, hemocytoblasts become lymphoid stem cells

migrate to thymus
and thymic hormones will have the production and differentiation of Tcells into mature T cells

they are then transported in the bloodstream to the peripheral tissues and red bone marrow

Question 60

How are B cells and natural killer cells produced?

Answer 60

In the red bone marrow, differenciating in the lymphoid stem cells to B cells and Natural killer cells

B cells: travel to peripheral tissues to antibody mediated immunity

Natural Killer cells: travel to peripheral tissues for immunological surveillance

Question 61

What are lymphocyte clones?

Answer 61

lymphocytes have proteins on their cell surface that can bind a specific antigen

lymphocytes that can bind the same particular antigen are called clones

Question 62

What are the steps in an immune response?

Answer 62

Naïve lymphocytes: not stimulated BUT

1. once antigen stimulates a specific lymphocyte clone that have the receptors for this antigen
2. there is clonal expansion = cells multiply rapidly in response to antigenic stimulation
3. new cells differentiate into three effector cells: plasma cells, Th cells, cytotoxic T cell)
4. others become memory cells for net time (memory T helper, cytotoxic and B cells for each effector cell)

Question 63

What is the primary and secondary immune response?

Answer 63

Primary immune response: antigen first exposed to naïve lymphocyte = activates B cell and reproduces via clonal expansion

• effectors are short lived and carry immediate response
• memory cells are long lived and continue to reproduce

secondary immune response:
once antigen is introduced again, the clone expands more rapidly this time creating even more effector and memory cells

Question 64

What is humoral immunity?

Answer 64

B lymphocytes/ B cells (response) are responsible for this
clonal expansion gives rise to production of plasma cells

each clone of plasma produces specific antigen binding protein called antibody

and memory cells are also produces for rapid and stronger secondary antibody response if antigen is encountered again

Question 65

What is the memory effect in a humoral response?

Answer 65

primary: chi square/normal distribution = takes many week, and peaks at 2 wekks
secondary: greater response and much faster = exponential growth

Question 66

What is the antibody structure? Which are the five types?

Answer 66

Y shaped, Fc region varies
2 binding sites

known as gamma globulins 
(5 types) 
- IgG most common, secondary response
- IgA secretory form like saliva, tears, breast milk
- IgE allergic rx
- IgM antibodies in primary response
- IgD found on B cell surface

Question 67

What are the functions of antibodies?

Answer 67

1. activate B cells to plasma cells and memory cells
2. acts as opsonins: coat antigens for phagocytosis
3. cause antigen to clump and inactive bacterial toxins by binding to them
4. activates antibody dependent cellular activity (NK cells or eosinophils)
5. triggers mast cells to degranulate = create pores in cells
6. active complement = MAC complex to makepores in membranes

Question 68

What is the specialization of T cells?

Answer 68

defend against intracellular pathogens

contact dependent signaling

recognize foreign antigents via MHC (major histocompatibility complex)

Question 69

How are T cells activated?

Answer 69

MHC antigen complex presents foreign antigen fragments and binds to T cell

signal transduction activates T cell

Question 70

How do T cells develop into an effector cell?

Answer 70

T cell precursor migrates to thymus to become Cytotoxic or helper t cell

NK formed from precursors and kill antibody coated cells or MHC 1 target

Cytotoxic T cells: kill MHC1 (on all cells so recognize foreign things in self cells = meaning they are infected)

Helper T cells bind to MHC2 and secrete cytokines

Question 71

What are the two division of MHC?

Answer 71

antigen presenting marker of self = tissue rejection issues

MHC1: found on all cells in body
regonized by NK cells and cytotozic T cells via CD8

MHC2: found on antigen presenting cells only (dendritic, macrophages and B cells)recognized by Helper T cell via CD4

Question 72

Describe the process of antigen presentation with B and T cells involved.

Answer 72

B cells recognize the antigen and bind to it in the lymph, interstitial fluid or blood plasma

T cells only recognize the fragments proteins of the antigen when they are displayed on MHC

The MHC then inserts itself on cell membrane of the cell

Question 73

How to cytotoxic T cells and Helper T cells differ in their roles?

Answer 73

Cytotoxic T cell: 
display CD8 for MHC1
attack and destroy infected cell:
- release perforin to create holes in the infected cells
-stimulate apoptosis in the cell

Helper T cell:
secrete cytokines that influence other immune cells
bind to B cells to promote differentiation into plasma cells
display CD4 (for MHC2)

Question 74

What is the general pattern in an immune response pathway?

Answer 74

1. innate response acts quick (general)
2. acquired response takes longer but stronger
3. cytokines from both innate and acquired coordinate reinforcement of the two responses

Question 75

Describe the immune response to extracellular bacteria

Answer 75

1. activate complement system by bacterial cell wall components
   - act as opsonins, activate MAC, mast cells and chemotaxins.. refer to diagram
2. phagocytes are activated: uncapsulated - immediate ingestion, if capsulate: discuise until antibody comes and binds to it so it can bind to macrophage receptor
3. role of acquire immune response (lymphocyte action)
4. initiation of repair, recruitment of platelets and protein coagulation cascade
   when bacteria removed, growth factors and cytokines come

Question 76

What is the immune response to viruses?

Answer 76

1. antibodies act as opsonins to coat viral particles and make them better targets for antigen presenting cells like macrophages
2. macrophages ingest viruses insert fragments of viral antigen into MHC 2 molecules on membrane
   macrophages secrete cytokins and interferons
3. Th cells bind to viral antigents on MHC2 and become activated, secrete cytokines to stimulate B cells and cytotoxic T cells
4. last exposure to virus can make memory B cells with viral antibody on their surface = more memory cells are activated and promotes palsma cells differenciation
   perforing molecules insert pores into host cell membrane to allow granzyme to enter cell for apoptosis

Question 77

What is hypersensitivities and what are the types?

Answer 77

any immune response against a foreign antigen exaggerated beyond the norm

Type 1 immediate
Type 2 cytotoxic
Type 3 immune complex mediated
Type 4 delayed or cell mediated

Question 78

What is a type 1 hypersensitivity?

Answer 78

can be localised or systemic resulting from release of inflammatory molecules in response to antigen

seconds or minutes to exposure to antigen

called allergies

antigens called allergens

Question 79

What is the reaction that occurs? 2 step process

Answer 79

sensitization upon exposure:
allergen ingested by APC, present on MHC2 and activates Th cell which self activates and activates B cell to become plasma cells that secrete antibodies and make memory B and T cells

degranulation of sensitized cells: (reexposure)
when allergen is introduced again,
binds to IgG = activates complement proteins and inflammation,

binds to IgE = activates mast cell and degranulation and release of cytokines, histamines for vasodilation, bronchoconstriction and increased vascular permeability = inflammation

activates T cell to release cytokines

Question 80

What is the role of mast cells for type 1 hypersensitivity?

Answer 80

degranulation
distributed throughout CT
have granules that contain inflammatory chemicals (degranulation relseases histamine, kinins, proteases, leukotrienes and prostaglandins (mostly smooth muscle contraction and inflammation)

Question 81

What is the role of basophils and eosinophils during Type 1 hypersensitivity?

Answer 81

basophils: least numebrous
have granules that have inflammatory chemicals
degranulate like mast cells when allergens are there

eosinophils: accumulate in the blood
mast cell degranulation trigger release of eosinophils from bone marrow
releases lots of leukotriens and hypersensitive response

Question 82

What are some clinical signs of type 1 immediate hypersensitivity?

Answer 82

mild or localised
site of reaction is at portal entry
inhaled = hay fever
small inhaled amount= asthma
inflammation of skin = hives or urticarial
acute anaphylaziz or anaphylactic shock must be treated with epinephrine to relax the smooth muscles?

Question 83

What is diagnosis if type 1 hypersensitivity?

Answer 83

high IgE (immunoglobulin E)
skin tests

Question 84

What are some treatments of type 1 hypersensitivity and some prevention technique?

Answer 84

prevent: identify and void allergens, use eliminiatino diet and allergy shots [not effective for asthma]
treatment: antihistamine neutralize histamine, asthma= glucoritcoid and bronchodilator, epinephrine neutralized anaphylazis by relaxing smooth muscle

Question 85

What is an example of type 2 hypersensitivity? (cytotozic)

Answer 85

Rh system and hemolytic diseas of the newborn

Rh antigen common to RBCs
85% Rh+

this disease is is mom: Rh- and fetus Rh+ then first exposure = Rh antibodies to created in mom so no effect on fetus

second exposure: antibodies can harm fetus (because placenta shares blood and does not block out Rh antibodies = destroy fetus blood

treatment: anti Rh immunoglobulin (RhoGAM)

Question 86

What is a type 3 hypersensitivity?

Answer 86

caused by immune complexes = triggers inflammatory chemicals

causes localized reactions

causes systemic reactions (rheumatoid arthritis

basically:
antigens coming with antibodies IgG = complex formed

phagocytes remove the complex by ingesting but some stay in blood vessel walls

they stay there and activate the MAC

attract neutrophils and complements to release enzymes

enzymes and inflammatory chemicals damage tissues surrounding it

Question 87

What is an exmaples of type 3 hypersensitivity?

Answer 87

rheumatoid arhtirtis

when immune complexes in the joints so breakdown of joints and becomes more and more severe

treated with anti inflammatory drugs