Recognition and Response

Question 1

Signal

Answer 1

Any event that changes the state of a cell (usually through altered gene expression of cell)

Question 2

How signals are generated

Answer 2

Binding of ligand to complementary membrane receptor

Question 3

How cells regulate signals

Answer 3

Change level/expression of ligands
Change level/expression of receptors
Alter intracellular machinery that transmits signal from cell surface to nucleus
Change activity or location of transcription factors

Question 4

Molecular changes to receptor caused by ligand binding

Answer 4

Alteration in receptor conformation
Receptor dimerization or clustering
Change in receptor location within cell membrane

Question 5

Are ligand-receptor interactions covalent?

Answer 5

No- strong (high affinity), but need to be able to engage and disengage

Question 6

Affinity

Answer 6

Measure of strength of interaction

Question 7

Avidity

Answer 7

Overall strength of collective interactions

Question 8

How many identical binding sites to antibodies have?

Answer 8

2

Question 9

Most common intracellular protein modification in signalling

Answer 9

Phosphorylation

Usually occurs on tyrosine, serine, or threonine residues

Question 10

Kinase

Answer 10

Enzyme that transfers a phosphate group (usually from ATP)

Question 11

Phosphatase

Answer 11

Removes phosphate group

Reverses actions of kinase

Question 12

Only isotype that is a true B cell receptor

Answer 12

IgM: only isotype that can send signals

Question 13

B cell receptor parts

Answer 13

2 heavy chains, 2 light chains

Variable region at top, constant region at bottom

Question 14

Molecules that are considered to be B cell receptors

Answer 14

Antibodies

Question 15

Co-receptors required by B cell receptors to transmit signal

Answer 15

Ig alpha and Ig beta

Contain immunoreceptor tyrosine-based activation motifs (ITAMs) that become phosphorylated to start signal transduction

Question 16

How B cell receptor activation works

Answer 16

Antigen-mediated clustering -> phosphorylation of Ig alpha and Ig beta -> activation of transcription factors

Question 17

How T cell receptor activation works

Answer 17

Engagement of MHC + antigen -> conformational change -> phosphorylation of adapter proteins (collectively called CD3)

Question 18

CD3

Answer 18

T cell receptor co-receptor (signal transmission)

Contains immunoreceptor tyrosine-based activation motifs (ITAMs)

Question 19

CD 4 or CD 8

Answer 19

CD 4 : T-helper cells
CD 8 : T-cytotoxic cells
Co-receptors
Participate in interaction with antigen-presenting cell via interaction with MHC molecule

Question 20

Receptor sharing of cytokines

Answer 20

Ability for increased signaling

Question 21

Endocrine action

Answer 21

Cytokines acting on distant cell, usually of another type

Question 22

Paracrine action

Answer 22

Cytokines acting on a neighboring cell of same or different type

Question 23

Autocrine action

Answer 23

Cytokines act on cell that secretes them

Question 24

What cytokines are used for

Answer 24

Cell communication

Question 25

Pleiotropy of cytokines

Answer 25

One cytokine can act on many different cells

Question 26

Redundancy of cytokines

Answer 26

Several cytokine types can have the same activity

Question 27

Interleukin 1 family

Answer 27

Cytokines: inflammatory response

Produced by activated macrophages and epithelial cells

Question 28

Class 1 cytokine family (hematopoietins)

Answer 28

Cytokines: immunocyte differentiation

Question 29

Interferons (class II cytokines)

Answer 29

Cytokines: anti-viral responses

Question 30

Tumor necrosis factor family

Answer 30

Cytokines: immune system development, effector functions
TNF alpha: cell killing, fever, cytokine cascades, vascular endothelial cell adhesion for neutrophils
TNF alpha is produced by macrophages and NK cells

Question 31

Interleukin 17 family

Answer 31

Cytokines: neutrophil accumulation

Question 32

Chemokines

Answer 32

Cytokines: chemoattractants (migration of immune cells into inflammed regions, does so through chemical gradient)

Question 33

Colony-stimulating factors

Answer 33

Promote terminal differentiation of progenitor cells

Question 34

Stromal cells

Answer 34

Present in bone marrow

Support lymphopoiesis and myelopoiesis

Question 35

Interferon gamma

Answer 35

Most potent activator of macrophage immune function

Question 36

Interleukin 2

Answer 36

Primary growth factor for T cell proliferation

Question 37

Cachectin

Answer 37

Another name for TNF alpha

Too much activity leads to malnutrition

Question 38

Elevated levels of TNF can lead to what?

Answer 38

Septic shock

Question 39

Major source of anti-inflammatory cytokines

Answer 39

T helper 2 cells