Signaling Mechanisms Regulating Cell to Cell Communication

Question 1

Cells can both sense their environment and also influence the behavior/function of other cells by producing secreted

Answer 1

Signaling Proteins

Question 2

This form of communication underlies organ/
tissue physiology and homeostasis in adults,
and is fundamental to

Answer 2

Embryonic Development

Question 3

Include all of the proteins and components that transduce the signal to mediate its effect on the cell

Answer 3

The Signaling Pathway

Question 4

What are the reversible ways that cells respond to signals?

Answer 4

Become motile or change shape

Question 5

What are the irreversible was that cells respond to signals?

Answer 5

Divide, differentiate or remain undifferentiated, and die

Question 6

Allow cells to sense their environment by detecting light, stress or pressure, and chemical signals in the environment

Answer 6

Receptor proteins

Question 7

Which receptor proteins detect light?

Answer 7

Photoreceptors

Question 8

Which receptor proteins detect stress or pressure?

Answer 8

Death receptors (TNFR) and mechanoreceptors

Question 9

A molecule or protein that triggers a signal by binding to a receptor-like protein

Answer 9

Ligand

Question 10

Typically in an inactive state until they receive a signal from the environment

Answer 10

Receptors

Question 11

Once stimulated by ligand binding, receptors do not remain active forever. Some receptors are inactivated by specific mechanisms, while others are inactivated by

Answer 11

Self-inactivation

Question 12

Governed by tertiary (3D) structure and non-covalent bonds between amino acid groups

Answer 12

Specificity of receptor/ligand interaction

Question 13

Any molecule, protein or drug that occupies ligand binding sites and stimulates receptor activity (either
partially or fully)

Answer 13

Agonists

Question 14

Any molecule, protein or drug that occupies ligand binding sites and exclude agonists but does not
stimulate receptor activity

Answer 14

Antagonists

Question 15

Induce receptor activation

Answer 15

Agonists

Question 16

Block receptor activation

Answer 16

Antagonists

Question 17

Underlies cancer, neurological disorders, and metabolic disorders

Answer 17

Abnormal cell-cell signaling

Question 18

About 50% of drugs act on

Answer 18

Receptors

Question 19

The remaining 50% of drugs act primarily on

Answer 19

Enzymes

Question 20

What are the four major classes of receptors?

Answer 20

1. ) Ion channels
2. ) Steroid hormone receptors
3. ) Protein kinase receptors
4. ) 7-alpha-helix receptors

Question 21

Pore-forming proteins that allow the flow of ions across

membranes down an electrochemical gradient

Answer 21

Ion channels

Question 22

Ion channels are present only on

Answer 22

Cell surface and intracellular organelles

Question 23

Classified by the nature of their gating, the species of ions passing through, and the number of gates (pores)

Answer 23

Ion channels

Question 24

What are five types of gating seen in ion channels?

Answer 24

1. ) ligand
2. ) voltage
3. ) mechanical or thermal
4. ) phospholipid
5. ) lipid

Question 25

Binding of ligand opens a channel to allow flow of a

specific ion across the membrane, or closes a channel to stop the flow

Answer 25

Ligand-gated channel

Question 26

Ligand gated channels are the basis for

-i.e. where ligands are neurotransmitters

Answer 26

Nerve transmission & muscle contraction

Question 27

GABA, glycine, serotonin, and nicotinic acetylcholine are examples of

Answer 27

Ligand neurotransmitters

Question 28

Mutations in ion channel genes may cause either a loss or a gain of

Answer 28

Channel function

Question 29

Cystic fibrosis is a recessive disease caused by
loss-of-function mutations in the cystic fibrosis
transmembrane conductance regulator (CFTR)
gene which is a

Answer 29

Chloride channel

Question 30

Mutation in the CFTR gene leads to abnormal salt transport across epithelial cell membranes, resulting in thick mucus build-up in

Answer 30

Respiratory epithelial cells

Question 31

The ligand for CFTR is

Answer 31

ATP

Question 32

Typically associated with dominant inheritance of the disease

Answer 32

Gain-of-function mutations

Question 33

Mutations in voltage-dependent sodium channels can result in defective inactivation and late Na+ currents in

Answer 33

Paramyotonia, cardiac arrhythmia, and epilepsy

Question 34

A sodium channel blocker that blocks action potentials in nerves

-Found in pufferfish or Fugu

Answer 34

Tetrodoxin

Question 35

Proteins that function by controlling gene expression

• hydrophobic and can cross the cell membrane
• derived from cholesterol

Answer 35

Steroid hormones

Question 36

Steroid hormones bind to receptors located in the

Answer 36

Cytosol or nucleus

Question 37

For estrogen, prior to ligand binding, the steroid hormone receptor is attached to a

Answer 37

Chaperone protein

Question 38

Induces a conformational change in the
receptor that causes dissociation from the chaperone protein and exposes a nuclear import signal, allowing homodimerization and subsequent nuclear entry

Answer 38

Estrogen binding

Question 39

Dimerized receptors bind to an estrogen response element (ERE, a DNA promoter) that activates

Answer 39

Activates gene transcription

Question 40

Overexpressed in cancer cells in 70% of breast cancer cases

Answer 40

Estrogen receptors

Question 41

Estrogen sensitive (ER+) breast cancer cells require signaling for uncontrolled cell division and

Answer 41

DNA replication

Question 42

Involves the use of selective estrogen receptor (i.e., competitive) antagonists, such as tamoxifen

Answer 42

Endocrine therapy

Question 43

In breast tissue, tamoxifen is metabolized into a
protein, hydroxytamoxifen (H-tam) that binds to the
ER and prevents binding of

Answer 43

Estrogen

Question 44

Functions to repress rather than activate estrogen target genes via recruitment of transcriptional co-repressors

Answer 44

ER/H-tam complexes

Question 45

A protein or protein domain with enzymatic
activity that transfers phosphate groups from
high energy donor molecules such as ATP to
specific target molecules.

Answer 45

Kinase

Question 46

Are composed of three domains:

1. An extracellular domain that binds the ligand
2. A trans-membrane domain
3. A cytoplasmic domain that has kinase activity or binds a protein-kinase protein

Answer 46

Protein kinase receptors

Question 47

Active kinase receptors are typically

Answer 47

Dimers (or other forms of oligomer)

Question 48

What are the two major subfamilies of protein kinase receptors?

-defined by the amino acid phosphorylated

Answer 48

1. ) Tyrosine kinases

2. ) Serine/threonine kinases

Question 49

One of the most well known receptor tyrosine kinases is the

Answer 49

Insulin receptor

Question 50

Describe how the receptor kinase works?

Answer 50

1. ) Ligand binds to extracellular domain of each receptor subunit causing dimerzation
2. ) The cytosolic protein kinase domains phosphorylate and activate each other (often at multiple positions)
3. ) Aditional cytosolic proteins are recruited to and bind the phosphorylated receptors

Question 51

A reversible process that can regulate whether a receptor is “on” or “off”

Answer 51

Phorphorylation

Question 52

The addition of a phosphate molecule to a polar R
group of an amino acid (like tyrosine) can turn a
hydrophobic portion of a protein into a

Answer 52

Hydrophilic one

Question 53

This can give rise to a conformational change which can facilitate interaction with other parts of the protein or with other

Answer 53

Molecules

Question 54

Contains an SH2-domain that recognizes tyr-P and binds to phosphorylated receptors

Answer 54

Grb

Question 55

Binds to Grb and activates small G-proteins such as Ras

Answer 55

SoS (a GEF)

Question 56

SoS binds to Grb and activates small G-proteins such as the prototypic monomeric small G-protein

Answer 56

Ras

Question 57

Activate G-proteins by catalyzing the exchange of GDP (inactive) for GTP (active)

Answer 57

Guanine Nucleotide Exchange Factors (GEFs)

Question 58

Promote inactivation of G-proteins by stimulating conversion of GTP (active) to GDP (inactive) via hydrolysis

Answer 58

GTPase activating proteins (GAPs)

Question 59

Bind guanine nucleotides and act as a molecular switch during signaling

Answer 59

G-proteins

Question 60

Have intrinsic GTPase activity

Answer 60

G-proteins

Question 61

The GTPase activity of G-proteins is stimulated by

Answer 61

GAPs

Question 62

The replacement of GDP by GTP is stimulated by

Answer 62

GEFs

Question 63

Receptor bound SoS is

Answer 63

ras-GEF (ras-guanine exchange factor)

Question 64

Regulate many aspects of cell function

Answer 64

Small G-proteins

Question 65

The Ras protein family is actually a small family of proteins made up of

Answer 65

H-, K-, and N-Ras

Question 66

Functions in receptor signaling and cell division

Answer 66

Ras family

Question 67

Functions in traffic of membrane vesicles

Answer 67

Rab family

Question 68

Functions in nucleus/cytoplasmic traffic

Answer 68

Ran family

Question 69

Functions in the actin cytoskeleton

Answer 69

Rac family

Question 70

Proteins like the Mitogen Activated Protein Kinae (MAPK) with ras-GTP cause a phosphorylation cascade that activates

-stimulates production of proteins involved in cell division

Answer 70

Transcription factors

Question 71

Serves as a convergence point for many signals

Answer 71

Ras

Question 72

Ras is one of the most frequently altered proteins in

Answer 72

Human Tumors

Question 73

Oncogenic mutations in Ras turn all of its down stream pathways

Answer 73

On

Question 74

Most oncogenic mutations of Ras are amino acid substitutions at just two positions. What are the two positions?

Answer 74

gly-12/gly-13 or gln-61

Question 75

These mutations affect the structure of Ras and abolish its ability to hydrolyze GTP, so it is always in the

Answer 75

Active state

Question 76

What are two ofther Ras-related disease?

Answer 76

Neurofibromatosis Type-1 and Noonan Syndrome

Question 77

Caused by a mutation in the NF1 gene, which results in overactive Ras. This gene encodes neurofibromin-1, a Ras-GAP.

Answer 77

Neurofibromatosis type 1

Question 78

Caused by a mutation in the PTPN11 gene which encodes SHP2. This results in a gain of function phenotype which leads to hyperactive Ras

Answer 78

Noonan Syndrome

Question 79

The most abundant class of receptors

Answer 79

7-α-helix receptors

Question 80

Most receptor targeted drugs are directed at

Answer 80

7-α-helix receptors

Question 81

What are four physiological roles for 7-α-helix receptors?

Answer 81

Vision, smell, mood, and autonomic nervous system

Question 82

Opsins (7-α-helix receptors), such as rhodopsin, convert electromagnetic radiation (light) into

Answer 82

Cellular signals

Question 83

7-α-helix receptors for neurotransmitters bind serotonin, dopamine, GABA, and glutamate to affect

Answer 83

Mood

Question 84

Both sympathetic and parasympathetic nervous systems are regulated by G-Protein-coupled

Answer 84

7-α-helix receptors

Question 85

7-α-helix receptors are coupled to trimeric “large G-proteins” whose α-subunits contain

Answer 85

Ras-like domains

Question 86

Ligand binding to 7-α-helix receptors causes exchange of GDP by GTP and activation of the G-protein, initiating

Answer 86

Signaling Cascade

Question 87

The 7-α-helix receptor itself thus acts as a

Answer 87

GEF

Question 88

Dissociate from ligand-bound receptors and regulate activity of downstream proteins

Answer 88

α and βγ subunits

Question 89

What are the three main subclasses of large G-proteins α-subunits?

Answer 89

Gs-α, Gi-α, and Gq-α

Question 90

Activates adenylate cyclase which activates protein kinase A (PKA)

Answer 90

Gs-α

Question 91

Inhibits adenylate cyclase, which inhibits protein kinase A (PKA)

Answer 91

Gi-α

Question 92

Activates phospholipase-Cβ (PLC) which affects Protein kinase C (PKC)

Answer 92

Gq-α

Question 93

Desensitization/dialing back the response, is when the receptor signaling diminishes or terminates, even in the presence of

Answer 93

Ligand

Question 94

7-α-helix receptor that binds the adrenal-gland hormone epinephrine and the neurotransmitter norepinephrine.

Answer 94

β-adrenergic receptor

Question 95

The ligand-bound β-adrenergic receptor becomes substrate for

Answer 95

β-adrenergic receptor kinase (BARK)

Question 96

The phosphorylated β-adrenergic receptor is bound by

-blocks interaction with Gs

Answer 96

β-arrestin

Question 97

Ligand-bound β-adrenergic receptor is inactivated by a
protein kinase and

-terminates signaling even in the presence of the ligand (desensitization)

Answer 97

β-arrestin

Question 98

Cytosolic calcium is maintained at a very low
concentration by calcium pumps in the plasma
membrane and the

Answer 98

Smooth ER (SER)

Question 99

Triggers many events in cells such as muscle contraction, regulated secretion, and cell division

Answer 99

Receptor-mediated calcium influx

Question 100

Gi-α inhibits adenylyl cyclase, which then prevents PKA from becoming active. This prevents

Answer 100

Calcium influx

Question 101

Gs-α activates adenylyl cyclase, which in turn activates PKA, which allows for

Answer 101

Calcium influx

Question 102

Gq-α-GTP activates phospholipase-C (PLC) and triggers

Answer 102

Ca2+ release from the Smooth ER (SER)

Question 103

Gq-α-GTP activates phospholipase C (PLC), which hydrolyzes membrane phosphatidyl inositol-
4,5-diphosphate (PiP2) into

Answer 103

iP3 and diacyl glycerol (DAG)

Question 104

Triggers release of Ca2+ from lumen of SER into cytoplasm

Answer 104

iP3

Question 105

DAG and Ca2+ then activate

Answer 105

Protein kinase C (PKC)

Question 106

Most kinases are inactive because they are

Answer 106

inhibited

Question 107

Frees kinases from inhibition

Answer 107

Receptor activation

Question 108

Inactive because its active site is filled with an N-terminal pseudosubstrate peptide, held in place by its
C1 and C2 domains

Answer 108

PKC

Question 109

Bind DAG in membranes

Answer 109

C1 domains

Question 110

In the presence of Ca2+ the C2 domain binds

-found in the inner leaflet of the plasma membrane

Answer 110

Phosphatidyl Serine (PS)

Question 111

This removes the pseudosubstrate from the active site and PKC becomes active. It can then be cleaved proteolytically and PKC is then

Answer 111

Constitutively (permanently) active

Question 112

A calcium-binding protein that regulates the activity of many proteins

-binds 4 Ca2+ ions

Answer 112

Calmodulin

Question 113

Is closely related to the calcium-binding subunit
of the protein troponin which regulates muscle
contraction

Answer 113

Calmodulin

Question 114

Ca2+ bound calmodulin activates many proteins,

including another self-inhibited kinase known as

Answer 114

Calmodulin-activated protein kinase (CAMK)

Question 115

An important mediator of learning and
memory and has been implicated in AD

-others are involved in cancer and musculoskeletal diseases

Answer 115

CAMKII