Lecture 28: Immune Memory

Question 1

What is the basis of vaccination (and the reason why vaccines work)?

Answer 1

immunological memory

Question 2

How do naive and memory cells differ?

Answer 2

differences in frequency (10^4 - 10^5 in the naive repertoire and 10^2 - 10^3 in the memory repertoire)
differences in their function / phenotype

Question 3

Which antibodies do memory B cells produce?

Answer 3

IgG and IgA

Question 4

What are the fate decisions of B cells?

Answer 4

low affinity IgM secretion
isotype switch, low affinity IgG
IgG secretion, high affinity
memory B cell

Question 5

What are memory B cells generated in response to?

Answer 5

T-dependent antigens

generated during germinal centre reaction

Question 6

What is the role of long lived plasma cells?

Answer 6

direct protection

antibody production is antigen independent

Question 7

Where do long lived plasma cells migrate to?

Answer 7

the bone-marrow

Question 8

Where do memory B cells migrate to?

Answer 8

the spleen / LN

Question 9

What is the role of memory B cells?

Answer 9

required for immune protection when serum antibody not present at high enough concentration

Question 10

Why are memory B cells better than naive B cells?

Answer 10

present in higher numbers than naive B cells
respond to reactivation faster
have undergone affinity maturation -> produce higher quality antibody

Question 11

How do almost all clinically effective vaccines act?

Answer 11

via antibody-mediated immunity

Question 12

How do pathogens such as HIV, influenza and TB escape humoral immunity?

Answer 12

by the rapid variation of antigens and / or intracellular localisation (T cell-mediated immunity required for control)

Question 13

What are the characteristics of memory T cells?

Answer 13

increased precursor frequency (1000x) compared to naive cells
different phenotype
rapid effector function
long-lived

Question 14

What do naive T cells require for survival?

Answer 14

need self-MHC molecules and IL-7

Question 15

What do memory T cells require for survival?

Answer 15

do not need MHC expression

need IL-15 for survival (+IL-7)

Question 16

What are the different types of memory T cells?

Answer 16

effector memory T cells, central memory T cells and resident memory T cells

Question 17

What are the different models by which memory T cells are generated?

Answer 17

separate precursor model, asymmetric fate model, decreasing potential model and signal strength model

Question 18

What does T-bet influence?

Answer 18

the formation of short-lived effector cells (90%)

Question 19

What does eomes influence?

Answer 19

the formation of memory precursor cells (10%)

Question 20

What do long-lived memory cells express?

Answer 20

IL-7R+ KLRG1-

Question 21

What do memory T cells depend on?

Answer 21

IL-15

Question 22

What are CD4 T cells required for?

Answer 22

generation of CD8 T cell memory

Question 23

Why are CD4 T cells required for CD8 T cell memory?

Answer 23

involved in dendritic cell licencing / activation -> co-stimulation, cytokines
provision of IL-2 signals

Question 24

Why is CD4+ T cell memory more complex?

Answer 24

because of the diversity of effector cells formed

numbers decline faster than CD8+ T cells post infection

Question 25

What is the localisation of central memory T cells?

Answer 25

blood and lymphoid tissues e.g. lymph nodes, spleen, bone marrow

Question 26

What are the functional properties of central memory T cells?

Answer 26

increased proliferative potential, increased IL-2, increased recirculation and decreased effector function

Question 27

Where are effector memory T cells localised?

Answer 27

blood and nonlymphoid tissues e.g. gut, liver, skin, lungs

Question 28

What are the functional properties of effector memory T cells?

Answer 28

decreased proliferative potential, decreased IL-2, increased recirculation and increased effector function

Question 29

Which T cells are lost over time?

Answer 29

effector memory T cells

Question 30

What is the localisation of tissue-resident memory T cells?

Answer 30

mainly tissues: gut, skin, lung, glands, brain, thymus, lymph nodes
high frequency at sites of previous infection

Question 31

What are the functional properties of tissue-resident memory T cells?

Answer 31

decreased IL-2, no recirculation and increased effector function

Question 32

What is the evidence of tissue-resident memory T cells being non-recirculating cells?

Answer 32

tissue-transplantation and cell depletion

Question 33

How were tissue-resident memory T cells missed?

Answer 33

studies often limited to human blood

previously thought memory T cells in the tissues and blood were the same

Question 34

What does location of memory T cell dictate?

Answer 34

rapidity of memory T cell protection

Question 35

What do high numbers of T resident memory cells correlate with?

Answer 35

subclinical herpes virus reactivation

patients that control HIV infection

Question 36

What do T resident memory cells provide?

Answer 36

immunity against re-infection

are present at sites of previous infection

Question 37

What do patients with more T resident memory cells have?

Answer 37

better outcomes against cancer

force cancer into a state of dormancy