Exam III and IV

Question 1

Pro B cell stages

Answer 1

Heavy Chain rearrangement

Question 2

Pre B cell

Answer 2

First checkpoint –> light chain rearrangement –> Second checkpoint

Question 3

Immature B cell

Answer 3

Makes functional IgM

Question 4

Survival of pro-B cell depends first on the productive rearrangement of the

Answer 4

heavy chain

Question 5

Immature B cell can either be

Answer 5

u:k or u:l

Question 6

how many successive attempts can be made of the kappa chain

Answer 6

5 successive attempts can be made of the kappa chain.

Question 7

Immature B cell first undergoes

Answer 7

negative selection in the BM

Question 8

receptor editing allows

Answer 8

the immature B cell more chances to make a nonreactive BCR (only editing in light chain)

Question 9

B cell undergoes receptor editing

Answer 9

to make IgM with different specificities and not till the receptor is NOT self reactive, the B cell leaves the BM.

Question 10

Maturation of B cells

Answer 10

immature B cells leave BM and enter circulation and secondary lymphoid organs.

Question 11

Interaction with _ provides the required maturation and survival signals _

Answer 11

FDC; Positive selection

(competition with other B cell is the limiting factor for space in folice

Question 12

enigmatic follicular dendritic cell

Answer 12

storage vessel for antigens ready for B cell stimulation.

CR1 and CR2 bind to intact virus particles and retain them at the cell surface

Question 13

capture and display of intact antigens by CR2 expressed on

Answer 13

FDC and macrophages

Question 14

How do B cells become activated?

Answer 14

When their receptors are cross linked by antigens

Question 15

Much like T cell activation, B cell activation requires

Answer 15

Cross linking (clustering) and association with signaling adapters

Question 16

B cell signaling cascade initiated from

Answer 16

ITAM domains in IgA and IgB

Question 17

BCR triggering is greatly ENHANCED by

Answer 17

B cell coreceptor:
CD19/CR2/CD81

increase BCR signal intensity by 10,000 fold.

Work best with complement labeled antigens

Question 18

CR2

Answer 18

binds to the antigen/microbe and initiates B cell activation

Question 19

Binding of CR1 to C3b

Answer 19

bound to a pathogen facilitates its cleavage by Factor I to iC3b and C3d.

Question 20

The CR2 component binds to

Answer 20

C3d

Question 21

Two types of antigens activate B cells

Answer 21

T dependent: Require T cell help for production of antibodies (protein antigens)

T independent:

Question 22

T dependent B cell activation

Answer 22

CD40/CD40Ligand interaction with T cells

Essential for T cell help

Required for isotype switching, affinity maturation

Question 23

CD40:CD40L

Answer 23

B cells need two signals for activation by T cell dependent antigens.

To obtains T cell help, B cell must take up antigen through BCR, process and present peptide via MHC class II

Question 24

T independent antigens

Answer 24

T1 and T2

Question 25

TI1 (T independent antigens)

Answer 25

combination of BCR and TLR signals activate B cell

Require contribution from TLR signaling.

Question 26

TI2

Answer 26

repetitive carbohydrate antigens present at high density on a pathogen surface, leads to extensive BCR cross linking

Question 27

TI1

Answer 27

TLR

Question 28

TI2

Answer 28

crosslinking

Question 29

plasma cells

Answer 29

migrate to medullary cords or BM

• have no cell surface immunoglobulin or MHC class II, no further division, specialized for antibody secretion

Question 30

primary expansion of antigen activated B cells

Answer 30

medullary cords –> primary follicle –> creates the germinal center

Question 31

cell entire devoted to antibody production

Answer 31

plasma cell

Question 32

germinal centers

Answer 32

sites where somatic hyper mutation, affinity maturation and isotype switching occurs

Question 33

memory B cells

Answer 33

maintained and circulate through body ready to rapidly respond upon pre-exposure to pathogen.

Question 34

somatic hypermutation

Answer 34

Changes affinity for antibody

Question 35

Resting B cell

Answer 35

Surface Ig: Yes
MHC class II: yes
High rate Ig Secretion: no
Growth : yes
Somatic hyper M.: yes
Isotype switch: yes

Question 36

plasma cell properties

Answer 36

Surface Ig: no
MHC class II; no
High rate Ig Secretion ; yes
Growth ; no
Somatic hyper M.; no
Isotype switch: ; no

Question 37

T cells, development and selection

Answer 37

Thymus

Question 38

B cell location and development

Answer 38

BM

Question 39

Function of T cell

Answer 39

kill or make cytokines

Question 40

Function of B cell

Answer 40

make antibodies

Question 41

Like B cells, T cells generate receptors through

Answer 41

somatic recombination

Question 42

T cells are more _ than B cells

Answer 42

diverse

Question 43

two classes of T cell receptors

Answer 43

alpha/beta and gamma/delta

Question 44

majority of conventional T cells

Answer 44

alpha beta

Question 45

T cell receptor class with high degree of receptor diversity

Answer 45

alpha beta

Question 46

alpha/beta recognize

Answer 46

MHC/peptides

Question 47

where are alpha/beta abundant

Answer 47

all secondary lymphoid tissues

Question 48

gamma/delta abundant in

Answer 48

gut mucosa

Question 49

types of alpha/beta T cells

Answer 49

CD4 and CD8

Question 50

CD4+ T helper cells

Answer 50

Produce cytokines to help clear infections

recognize MHC II

Antigens tend to be from extracellular sources

Question 51

CD8 + Cytolytic T cells

Answer 51

Killer cell

MHC I though CD8

Cytoplasmic sources

Question 52

CD4 consists of

Answer 52

D1-4

Question 53

CD8 consists of

Answer 53

alpha and beta chain

Question 54

TCR complex needs help from

Answer 54

CD3 to transmit signals.

Also required for Cell surface expression

Question 55

preTCR

Answer 55

Beta + pTalpha

Question 56

steps in T cell receptor formation

Answer 56

1. beta, gamma and delta chains attempt to rearranged simultaneously

• if beta is successful, then it’s tested with preTCR
  If gamma and delta are both successful, then rearrangement is complete and cell becomes a gamma/delta

2. alpha, gamma and delta attempt rearrangement.

Question 57

double positive

Answer 57

when CD4 and CD8 are both expressed. after cell has rearranged beta chain successfully

Question 58

Pre TCR purpose

Answer 58

tests the ability of a rearranged beta chain to form complex with the preTalpha.

Stops rearrangement at the other beta locus - allelic exclusion

Question 59

which chain in T cell receptors have more attempts at functional rearrangement?

Answer 59

alpha

Question 60

implication for AB vs. GD TCR rearrangement

Answer 60

Delta gene is situated within alpha gene locus. Rearrangement of the alpha chain results in the deletion of delta loci, so no chance to make a gamma/delta.

Question 61

timing of rearrangement of the beta and alpha chains

Answer 61

RAG expression

Question 62

when T cells begin rearrangement, they are

Answer 62

double negative.

Neither CD4 or CD8 expressed

Question 63

when PreTCR is tested and proven to be successful,

Answer 63

CD4 and CD8 will be unregulated (double positive)

Question 64

after selection is complete,

Answer 64

T cells enter the periphery, only CD4 or CD8 will be expressed.

Question 65

thymic involution

Answer 65

as we get older, our thymus produces less and less T cells

Question 66

Cortex contains

Answer 66

cortical epithelial cells

thymocytes

medullary epithelial cells

Question 67

Medulla contains

Answer 67

dendritic cell

macrophage

Question 68

Positive selection of T cells occur in

Answer 68

cortex of thymus

Question 69

Positive selection of T cells occur

Answer 69

first, then negative

gets rid off poor binders

Question 70

what cells do positive selection in T cells

Answer 70

thymic epithelial cells

Question 71

negative selection of T cells occur in

Answer 71

Cortico-meduallry region

Question 72

Negative selection cells

Answer 72

dendritic cells.

Overly strong binders eliminated

Question 73

Positive selection determines whether a T cell will

Answer 73

commit to the CD4 or CD8 phenotype.

Question 74

Positive selection determines whether a T cell will

Answer 74

commit to the CD4 or CD8 phenotype.

Question 75

Lack of CD8 Case study

Answer 75

Patient had a deficiency in TAP which is needed for MHC class I, and with our CD8, there is no + selection for CD8 T cells in the thymus

Question 76

Pneumocytosis carinii

Answer 76

lacking CD4 T cells

Question 77

MHC class II deficiency seems from

Answer 77

B cells not expressing HLA-DQ or HLA-DR

Question 78

CD3 chains

Answer 78

EY
ED

Question 79

What cells activate T cells?

Answer 79

Dendritic cells, in the sites of infection, take up pathogen derived antigens. When triggered by PAMPs and inflammation at sites of infection, DC migrate to draining lymph nodes. They undergo maturation, enhancing their ability to present antigen and activate T cells.

Question 80

Naive T cells

Answer 80

Prior to recognition of antigen and activation.

Need several signals (MHC and co-stimulation) to become activated.

Question 81

Effector T cell

Answer 81

Activated cell, antigen experienced.

Need ONE signal, short lived

Question 82

Memory T cell

Answer 82

antigen experienced, easily activated state indefinitely.

REQUIRE ONE signal

Question 83

Two signals needed for naive T cells

Answer 83

MHC peptide

Costimulaiton through B7-1 or B7-2.

Question 84

B7-1 and B7-2 are

Answer 84

co-stimulatory molecules that are uniquely expressed by DC, Macrophages, B cells.

Question 85

B7 binds to CD28 on

Answer 85

naive T cell

Question 86

What happens when T cells recognize their cognate antigen?

Answer 86

• TCR initiates signaling through CD3 and CD4/CD8
• immune synapse forms at site of T cell-APC interaction
• T cell and APC remind in sustained interaction for up to 24hrs
• T cell disengages divides and emigrates from lymph node to seek out infected cell in periphery

Question 87

ITAM

Answer 87

immunoreceptor tyrosine based activation motifs

these are not phosphorylated in resting T cell.

Binding of MHC ligand to T cell receptor leads to phosphorylation of ITAMs

Question 88

PLC-y –>

Answer 88

CA2+, NFkB, AP1, NFAT

change the pattern of gene expression, cell division, proliferation and differentiation to effector T cells.

Question 89

Immunological synapse

Answer 89

structure that forms along the interface of T cell and APC during sustained interaction of T cell activation

Question 90

P-SMAC

Answer 90

peripheral,

adhesion molecules

Question 91

C-SMAC

Answer 91

TCR, co-stimulatory molecules and lots of signaling molecules

Question 92

MOST important cytokine for T cell proliferation

Answer 92

IL2!!!!!!!!!!

Question 93

T cell gets signal 1 and 2

Answer 93

activated T cell

Question 94

T cells get signal 1, not 2

Answer 94

T cell becomes anergic

Question 95

T cell gets signal 2, not signal 1

Answer 95

no effect on T cell

Question 96

cytotoxins

Answer 96

perforin
granzymes
granulysin

Question 97

cytokines

Answer 97

IFNy
LT

Question 98

Th2 cell

Answer 98

IL4, IL13, IL 5

Question 99

Th2 effect

Answer 99

barrier immunity on

eosinophils
basophils
mast cells
macrophages

Question 100

Treg cells

Answer 100

IL10, TGF-beta

Question 101

Treg effect

Answer 101

inhibition of other T cell types

Dendritic cells

Question 102

Th17 cells

Answer 102

IL17

Neutrophils

Question 103

Th17 effect

Answer 103

acute inflammation - neutrophils

Question 104

Th1 cells secrete

Answer 104

IFN-y

Question 105

Th1 effect

Answer 105

systemic immunity

macrophages
NK cells
CD8 T cells

Question 106

3 signal hypothesis

Answer 106

MHC/peptide
Costimualtion CD80/86
Cytokines IL12

Question 107

Signal 3 (cytokines, IL12)

Answer 107

instructs T cell differentiation

Question 108

Th1 driven responses

Answer 108

intracellular pathogens and tumors

Question 109

Th1 product

Answer 109

IFN-y

Question 110

IFNy effect

Answer 110

increased MHC class I and II
Th1 cells development
Isotype switching
Macrophage activation

Question 111

activated macrophage results in

Answer 111

Increased expression of costimulators - B7 molecules

Killing of phagocytosed microbes

Secretion of cytokines (TNF, IL1, IL12)

Increased expression of MHC molecules

Question 112

Th2 responses provide protection against

Answer 112

multicellular parasites and mediate hypersensitivity responses

Question 113

Th2 provide proliferative signals to

Answer 113

B cells, and drive isotype switching between IgG1 and E

Often associated with allergy

Question 114

Th2, signature cytokine product

Answer 114

IL4

Question 115

Th2 –> IL4/13

Answer 115

activation of eptithelial cells and smooth muscle cells

Question 116

Th2 –> IL5

Answer 116

eosinophil and B cells

Question 117

Th2 –> IL3/IL9

Answer 117

basophils and mast cells

Question 118

Actions of IL4

Answer 118

Iso-type switching to IgE

Inhibition of macrophage activation

Development and expansion of Th2 cells

Question 119

Th17 protects against

Answer 119

extracellular bacteria, by recruiting neutrophils.

Question 120

Th17 often associated with

Answer 120

immune disorders

Question 121

Major product of Th17

Answer 121

IL 17 (IL23 is important for maintenance of Th17 phenotype)

Th17, appear early in infection - before Th1 and Th2

Question 122

how does CD4 become a Th17 cell?

Answer 122

must be exposed to TGF beta and IL6

Question 123

Th17 –> IL17 –>

Answer 123

activate endothelial cells which recruit neutrophils via IL6

Question 124

IL22

Answer 124

induces keratinocytes and epithelial cells to express antimicrobial peptides

Question 125

Treg cells main function

Answer 125

suppress immune responses

Question 126

TF for Tregs

Answer 126

FoxP3

Question 127

Tregs suppress T cells expressing

Answer 127

CD4 and CD25

Question 128

Tregs secrete

Answer 128

IL10 and TGF-beta

Question 129

IL 10 function

Answer 129

Reduces IL12 and TNFalpha, reduces expression of MHC costimulatory molecules

Question 130

TGF-beta function

Answer 130

blocks cytokine production, proliferation of T and B cells and cytolytic activity

Question 131

How Tregs can have a negative effect

Answer 131

tumors secrete TGF-beta, which induces Tregs at the tumor site to suppress anti tumor responses

Question 132

Tfh Cells secrete

Answer 132

IL21

Provide B cells with help to class switch and high affinity antibody production