Immune Memory and Vaccination

Question 1

The immune response improves over time

Answer 1

• antibodies developed during the primary response provides protective immunity
• new adaptive immune response is not activated
• serum levels decline with time

Question 2

what are the 3 adaptive memory cells

Answer 2

memory B cells
memory plasma cells
memory T cells
     -central (in secondary lymph nodes) 
     -Effector (in the periphery)

Question 3

where can you find memory cells in the body(there are 4)

Answer 3

bone marrow(plasma cells)
secondary lymph nodes(central cells)
peripheral tissues(effector)
circulation

Question 4

where do memory cells develop?

Answer 4

in the secondary lymphoid tissue

Question 5

T/F memory cells mirror pathogen specific effector cells for example: Th17, CD4, memory T cells

Answer 5

True

Question 6

characteristics of primary effector cells

Answer 6

broad antigen response
multiple activation steps 
clonal selection and expansion
under go target refinement
   -Somatic hypermutation
   -class switching
cannot undergo hypermutation again
die after several days

Question 7

characteristics of memory cells

Answer 7

specific, restricted antigen response 
easily activated
clonal expansion
B cell target refinement unnecessary
may undergo somatic hypermutation
persist for months and replicate
   -long term immunity

Question 8

Immune memory can persist for decades

Answer 8

pathogen and exposure-dependent
does not depend upon antigen persistence
steady-state serum antibody levels
persistence is highly variable across diseases

Question 9

The secondary immune response does what to memory cells and what to naive B cells?

Answer 9

activate memory

inhibits naive cells

Question 10

What happens when a naive B cells binds pathogen coated with specific antibody?

Answer 10

inhibits the naive B cell

Question 11

What happens with a Memory B cell binds a pathogen that is coated with a specific antibody?

Answer 11

activates the memory B cell

Question 12

Activated memory B cells replicate into plasma cells and more memory cells, can they form cognate pairs with memory Tfh cels?

Answer 12

yes

Question 13

what happens when a memory B cell and a memory Tfh meet up?

Answer 13

form germinal centers
class switch
SMH
**create a Ab with a  now higher affinity for the antigen
this is what vaccine boosters do

Question 14

Memory T cells types

Answer 14

CD8 and all of the CD4 subtypes

Question 15

do memory T cells require CD28 co-stimulation?

Answer 15

nope

Question 16

what are the two classes of memory T cells

Answer 16

central memory cells (lymphoid organs)
effector memory cells (peripheral)
*the difference are the surface receptors

Question 17

what do highly mutable pathogens do to immune memory?

Answer 17

erode it by mutations that occur in epitopes and the memory Abs will at some point no longer recognize the antigen.

Question 18

primary response differences compared to secondary response

Answer 18

small number of pathogen specific cells at start
delay before pathogen-specific Abs are produced
-non-isotype switched Ab having a mixture of affinities for the pathogen
-high threshold of activation
-delay before effector T cells are generated and enter tissues
-innate immunity works alone until adaptive is started

Question 19

secondary response differences compared to primary response

Answer 19

• large number of pathogen specific cells and response immediately
• pathogen specific Abs already present
• Abs are isotype switched and have high affinity for pathogen
• lower threshold for activation
• effector T cells are present and can enter infected tissues immediately
• close cooperation between innate and adaptive immunity

Question 20

What do vaccines do to the immune cells

Answer 20

train immune memory
highly effective
can have rapid effect
carries some risk
herd immunity is important

Question 21

vaccine targets

Answer 21

viruses 
bacteria
parasites
small molecules
cancer
autoimmune disorders

Question 22

vaccine types

Answer 22

live attenuated
inactivated
subunit
conjugate
toxoid 
DNA
recombinant vector

Question 23

what was the first live attenuated live virus vaccine?

Answer 23

Cowpox

Question 24

what is an attenuated virus?

Answer 24

shared viral components, but have no ability to infect humans
-weakened virus

Question 25

what is an adjuvant?

Answer 25

a compound that incites an adaptive immune response

Question 26

why are adjuvants added to vaccines?

Answer 26

broaden vaccine targets and improve efficacy by:

1. response against typically non-reactive antigens
2. enhances immune response
3. Forces a thymus dependent Ab production

Question 27

Recombinant protein vaccine

Answer 27

neisseria complement deactivation protein Abs

-taking genomes with unknown function and expressing them to develop a vaccine against and unknown target

Question 28

what are some challenges for vaccine production

Answer 28

targets
evasion
mutation and variance
incidence and cost