1-16 The Immune Response

Question 1

Lag/inductive/latent phase

Answer 1

period of time before antibody can be detected after initial exposure

Question 2

Logarithmic/exponential phase

Answer 2

period when antibody production begins resulting in an exponential increase in antibody concentration

Question 3

Steady state phase

Answer 3

peak antibody concentration is reached

Question 4

decay/decline phase

Answer 4

antibody concentration falls followed by period of time where trace amount of antibody can be detected

Question 5

what is the secondary response?

Answer 5

after initial exposure to antigen, resulting immune response remains primed to respond to that antigen

Question 6

secondary response differs from primary response:

Answer 6

shorter lag
higher rates of antibody synthesis
higher peak of antibody titer
longer persistence of antibody
predominance of IgG class molecules
higher affinity of antibody
Requires less antigen to illicit response (more sesnsitive)

Question 7

Toxin

Answer 7

molecule made by anything living

Question 8

toxoid

Answer 8

Toxoid - take that toxin, make it non-toxic but still has same sequence/structure so that injection will cause an immune response and antibodies that will target the toxin.

Question 9

why can’t you become immune to tetanus naturally?

Answer 9

The amount of tetanus toxin needed to form the immune response would kill you. Can’t become immune to tetanus toxin via the toxin itself.

Question 10

descibe the tetanus vaccine

Answer 10

normally the toxin gets into cells, splits apart, and the active enzyme (A) reaches inhibitory neurons and causes extreme muscle contraction

tetanus + formaldehyde - A-B structure unable to break apart. B can no longer deliver A.

Question 11

why do small botox injections work?

Answer 11

small enough to work but not small enough to cause “immunity” like a vaccine. this is why you can get multiple botox shots over time.

Question 12

problem with not immunizing for tetanus?

Answer 12

someone comes into hospital after exposure, giving an immunization then will take 5-7 days to have an effect, too long of a period for the primary response to help them

Question 13

antibodies initially produced will start out with ___ affinity that will be mosty Ig_

Answer 13

low affinity. will be mostly IgM. At some point, class switch to IgG and also higher affinity

Question 14

What dictates the secondary response?

Answer 14

IgG. After second exposue, small IgM response will be the same, but IgG will be magnitudes greater

Question 15

What do b-cells do? How do they work?

Answer 15

they make antibodies of a range of specificities

Question 16

Clonal expansion

Answer 16

when right antigen comes into contact with a b-cell, the b-cell it begins to divide

Question 17

how does affinity increase?

Answer 17

There may be several types of B-Cells that recongize different parts of the antigen moecule, some with high and some with low affinity.

Initially with concentration is high, all the different clones are active. As concentration drops due to immune response pulling the antigen into phagocytes, only the most sensitive b-cells will continue to “See” the antigen and continue to divide/make antibodies.

Question 18

what paths might a b-cell take?

Answer 18

Some turn into plasma cell which can make large amount of antibody. Some stay as small lymphocytes and become memory cells in spleen/lymph nodes so then once secondary immune response occurs, the plasma cells may be gone that were making IgM and IgG for that molecule. Instead of having lots of b-cells that haven’t been selected for in any way. We start with lots of memory cells that make IgG.

Question 19

primary vs secondary is based primary on what cell type?

Answer 19

memory b-cells

Question 20

why do we still get a small IgM response after several exposures?

Answer 20

becuase we make so many b-cells every day that there will always be b-cells seeing the antigen for the “first time” and responding as such.

Question 21

what happens when you remove the thymus neonatally?

Answer 21

B-Cells are fine but there is no immune response or a small IgM.

t-cell must see things for b-cells to do things.

Question 22

how do T-Cell and B-Cells interact?

Answer 22

through multiple levels of secretion and multiple levels of cell contact. signals being sent both ways.

Question 23

describe the control against autoimmune responses

Answer 23

t-cells are able to recongize self vs non-self., B-cells cannot do this

Question 24

Class switch is dependant on? (class switch of what??)

Answer 24

T-Cells

Question 25

Hapten experiment

Answer 25

make a simple chemicall, will get antibody response.

Link that simple chemical to a native protein in the body (carrier protein), antibodies for that native protein will be created as well as antibody response against the hapten.

Change the carrier protein, will not get a secondary response against the hapten (b-cells and t-cells are seeing different things). T-cells would being seeing it at an initial exposure.

Question 26

T-Cell indepent antigens are

Answer 26

rare and only cause B-cells to create IgM, will NOT make any memory cells

Question 27

T-cells and b-cells in regards to hapten molecules…

Answer 27

see different things, and must be on the “same page” to have coordinated primary and secondary response.

Question 28

What do macrophages and dendritic cells do?

Answer 28

Present antigen to T-Cells

Question 29

T-Cells require..

Answer 29

antigen presenting cells

Question 30

descibe how antigen presenting cells work

Answer 30

cells must take up antigen, place segment on MHC portion of surface.

T-cell has t-cell receptor (TCR) on surfance to recognize the antigen+MHC, will not recognize JUST antigen.

presenting cells must express the cell surfance antigen B7 “this might be dangerous”. this B7 binds to the cd28 of t-cells.

T cell requires both the antigen+MHC as well as the chemical signal.

Question 31

the antigen presenting cells are initially..

Answer 31

Dendritic cells

Question 32

how does the composition of antigen presenting cells change as the immune response matures?

Answer 32

once b-cells mature and have seen antigen they becoming stimulated to express both MHC and b7 on surface. Some antigen is taken up and portion placed on MHC.

this means that later in the response, b-cells can become antigen presenting cells

Question 33

implications of b-cells becoming antigen presenting cells?

Answer 33

in secondary response, thousands of b-memory cells have MHC, have b7, and have high affinity for the antigen that can be presented to T-CElls.

Dendritic cells no longer need to do this alone. - big reason why secondary immune response is much faster.

Question 34

helper t-cells are distinguished by

Answer 34

surface antigen cd4

Question 35

b-cells and t-cells tend to do what differently?

Answer 35

see antigens differently and tend to reconize different parts of the antigen

t-cell: recognizes protein carrier molecule/ reacts mainly to antigens that are proteins degraded into peptides

b-cells react to the hapten molecule but may also see the carrier

Question 36

T-cells react with the _________ and in response to….

These t-cells then______

Answer 36

antigen on the surface of the presenting cell and in response to antigen with MHC and stimulatory molecules.

proliferate and produce factors that stimulate b-cells

Question 37

many of the daughter b-cells will respond to

Answer 37

t-cell derived factors and differentiate into plasma cells. Some daughter cells will not differentiate into plasma cells but will become memory cells

Question 38

_____ are responsible for the switch from IgM to IgG

Answer 38

other t-cell factors

Question 39

describe t-independant antigen structure and response

Answer 39

structure - polymeric molecules with large numbers of repeating subunits that can cause cross-linking of the immunoglobulin on the b-cell.

Question 40

lymphocytes respond to antigen that is

Answer 40

presented with self-MHC (MHC restriction).

Question 41

a professional antigen presenting cell must be able to

Answer 41

take up and process antigen
have MHC class II antigen on surface
present the antigen with the MHC II antigen
provide a co stim signal

Question 42

what activates a b-cell? what happens next?

Answer 42

binding of antigen and stimulation by helper t-cell (Th)

B-cell starts cloning self and turn into effector cells or memory cells (Which stick around)

Question 43

what do effector b-cells do?

Answer 43

starts producing antibodies

Question 44

what do effector b-cells do? what are the effector b-cells called?

Answer 44

starts producing antibodies, plasma cells.

Question 45

what are plasma cells?

Answer 45

plasma cells (differentiated B cells) that make antibodies

Question 46

what do antibodies do?

Answer 46

tags materials for macrophages and also neutralizes them

Question 47

what is a common feature of all t-cells?

Answer 47

all have t cells receptors

in addition,

• some have CD4 proteins on surface
• some have CD8

Question 48

what cells have CD4 proteins? What do they do?

Answer 48

located on helper t-cells (Th), bind to MHCII complexes

attracted to antigen presenting cells that have MHCII complexes

Question 49

what cells have cd8 proteins? what do they do?

Answer 49

cytotoxic t-cells (Tc), bind to MHCI + antigen complexes

MHC1 marks the infected cell for death (cancer, viruses, etc.)

Question 50

what happens when a t-cell is activated?

Answer 50

differentiate into effector or memory cells

helper t = in effector mode activates b-cells, releases cytokines (alarm signals)
cyctotoxic t = in effector mode kills cells

Question 51

what are leukocytes?

Answer 51

white blood cells

Question 52

Leukocyte Types?

Answer 52

white blood cell types - neutrophils, basophils, eosinophils, lymphocytes (NK, B, T), monocytes, macrophages

Question 53

two main types of leukocytes

Answer 53

Granulocytes - contains enzyme granules that damage/digest pathogens or release inflammatory mediators into blood (neutrophils, basophils, eosinophils, mast cells) = ones with pH names (neutraol, basic, acidic)

mononuclear leukocytes - involved in both innate/adaptive immune system function (lymphocytes NK B T, monocytes, macrophages)

Question 54

types of lymphocytes

Answer 54

T-cells (bone marrow then mature in thymus), B-Cells (from bursa, in bone marrow), Natural killer Cells

Question 55

humoral response vs cell mediated

Answer 55

humoral response - immune response regarding pathogens still floating in the blood (humor)

cell-mediated response - once cells are infected with pathogen

Question 56

MHC stands for

Answer 56

major histocompatibility complexes

macrophages/dendritic cells after consuming a molecule present on MHC2. (nonspecific)

with b-cells, one specific tpye of membrane bound antibody is formed

Question 57

when a b cell becomes activated

Answer 57

it will begin to duplicate itself. those duplicates can either become memory cells or plasma cells. the plasma cells will start spitting out non-membrane bound antibodies to either tag the viruses/bacteria or surround them/neutralize.

B-cell may also take in the particle which bound on the end of its antibody, break it up, and attatch it to MHCII to present the antigen

Question 58

MHCII in specific and non-specific immune response. What recognizes them?

Answer 58

non-specific. phagocyte will consume particle, chew up and place some on its MHCII complex.

specific - whatever binds to the membrane bound antibody will be taken in, and partially displayed on the MHCII complex

Both are recognized by helper t-cells

Question 59

B-cells do what?

monoclonal B-cells do what?

Answer 59

B-Cells – Express surface immunoglobulin. Each set of monoclonal B-cells is limited to one kind of variable region (idiotype), so the total population of B-cells makes up the repertoire of antibody specificities.

Question 60

idiotype?

Answer 60

one type of variable region