Hormonal signalling

Question 1

Describe some general themes for signal transduction

Answer 1

• specificity
• coordination of multiple events
• amplification
• integration with other pathways
• processing
• sub-cellular localisation
• speed
• duration
• tissue localisation
• cost of machinery and metabolism

Question 2

Describe an all-or-none curve

Answer 2

looks like tan

Question 3

Describe a hyperbolic curve

Answer 3

the first half of a parabola

Question 4

Describe contact-dependent pathways

Answer 4

• developmental
• signalling cell delivers membrane-bound signal molecule to target cell

Question 5

Describe paracrine pathways

Answer 5

• spatially localised
• diffusible signal
• local mediators

Question 6

Describe endocrine pathways

Answer 6

• steroid hormones
• peptide hormones
• travel in bloodstream to receptors on target cells

Question 7

Describe synaptic pathways

Answer 7

• neuronal: long distance, fast
• from cell body along axons
• neurotransmitters diffuse across synapses to target cells

Question 8

Describe signalling via lipid soluble steroid hormones - the basics

Answer 8

• diffuse across PM and activate members of the intracellular receptor superfamily
• persist for hours/days
• mediate long-term responses

Question 9

Describe steroid hormones

Answer 9

• small, hydrophobic molecules
• transported in the blood
• often associated with carrier proteins

Question 10

List some steroid hormones

Answer 10

• cortisol
• estradiol
• testosteron
• retinoic acid
• thyroxine
• vitamin D3

Question 11

Describe signalling via lipid soluble steroid hormones - the specifics

Answer 11

• attached to carrier protein in blood
• diffuse into cells
• bind to steroid receptor binding element
• releases inhibitory protein from intracellular receptor
• moves into nucleus
• activate gene regulatory proteins

Question 12

Give the structure of a steroid hormone

Answer 12

• COOH
• ligand binding domain
• inhibitory proteins
• DNA-binding domain
• transcription-activating domain
• co-activator binding proteins
• H2N

Question 13

List the three classes of cell surface receptor

Answer 13

• enzyme-linked receptors
• G-protein coupled receptors
• ion channel receptors

Question 14

Describe enzyme-linked receptors

Answer 14

• inactive catalytic domain binds to dimeric signal molecule to form active catalytic domain
• OR signal molecule binds to receptor to form an activated, associated enzyme

Question 15

Describe G-protein coupled receptors

Answer 15

• inactive receptor followed by an inactive protein, followed by an inactive enzyme
• signal molecule binds to create an activated receptor and G protein
• creates activated enzyme

Question 16

Describe ion channel receptors

Answer 16

ions bind to signal molecule to travel through the PM

Question 17

Describe signalling via enzyme-linked cell-surface receptors

Answer 17

• enzyme-linked receptors are catalytically active or associate with catalytic subunits
• most are single-pass membrane proteins
• often involved in development, activating cell division and growth

Question 18

Describe RTKs functionally

Answer 18

• Receptor tyrosine kinases
• assemble as dimers on binding the target ligand and autophosphorylate their cytoplasmic tails

Question 19

Describe TGF-Beta

Answer 19

• growth factor
• activates serine/threonine receptor kinases

Question 20

Describe RTKs morphologically

Answer 20

• cystine-rich domains
• tyrosine kinase domains
• EGF receptors
• insulin, IGF1 receptors
• NGF receptors
• PDGF, MCSF receptors
• FGF receptors
• immunoglobin-like domains
• VEGF receptor with kinase insert region
• Eph receptor with fibronectin-type-III-like domain

Question 21

Describe the binding of a ligand to the RTK

Answer 21

• leads to receptor dimerisation
• initiates tyrosine auto-phosphorylation
• adapter proteins bind to phospho-tyrosine through SH2 domains
• guanine exchange factors bind to SH3 domains on the adapter protein
• GEF proteins activate small GTPases by catalysing exchange of GDP for GTP

Question 22

Give an example of an adapter protein in RTK-ligand binding

Answer 22

GRB2

Question 23

Give an example of a guanine-exchange factor

Answer 23

SOS

Question 24

Give an example of a small GTPase

Answer 24

Ras

Question 25

What does activated Ras do?

Answer 25

• released
• binds to Raf

Question 26

Raf

Answer 26

• a serine/threonine kinase
• can initiate a MAPK cascade

Question 27

MAP

Answer 27

mitogen-activated protein

Question 28

MAPK

Answer 28

• mitogen-activated protein kinase
• the terminal enzyme in a three-kinase cascade
• phosphorylates and activates transcription factors
• is phosphorylated by MAPKK on two sites

Question 29

MAPKK

Answer 29

• MAPK kinase
• is phosphorylated by MAPKKK on two sites

Question 30

MAPKKK

Answer 30

MAPKK Kinase

Question 31

List some signals acting via RTKs

Answer 31

• EGF
• insulin
• IGF1
• NGF
• PDGF
• MCSF
• FGF
• VEGF
• ephrin

Question 32

EGF

Answer 32

• epidermal growth factor
• EGF receptors
• stimulates cell survival, growth, proliferation, or differentiation of various cell types
• acts as inductive signal in development

Question 33

Insulin

Answer 33

• insulin receptor
• stimulates carbohydrate utilisation and protein synthesis

Question 34

IGF1

Answer 34

• IGF receptor-1
• stimulates cell growth and survival in many cell types

Question 35

NGF

Answer 35

• nerve growth factor
• Trk receptors
• stimulates survival and growth of some neurones

Question 36

PDGF

Answer 36

• PDGF receptors
• stimulates survival, growth, proliferation and migration of various cell types

Question 37

MCSF

Answer 37

• macrophage-colony-stimulating factor
• MCSF receptor
• stimulates monocyte/macrophage proliferation and differentiation

Question 38

FGF

Answer 38

• fibroblast growth factor
• FGF receptors
• stimulates proliferation of various cell types
• inhibits differentiation of some precursor cells
• acts as inductive signal in development

Question 39

VEGF

Answer 39

• vascular endothelial growth factor
• VEGF receptors
• stimulates angiogenesis

Question 40

Ephrin

Answer 40

• Eph receptors
• stimulates angiogenesis
• guides cell and axon migration

Question 41

Describe G-protein coupled receptors with respect to the cell membrane

Answer 41

• extracellular signal acts as first messenger
• receptor
• transducer with G-protein attached to GTP
• amplifier region
• intracellular signal acts as second messenger

Question 42

Describe the fundamentals of the G-protein coupled receptors

Answer 42

• > 800
• 4% of the total human genome
• major drug targets

Question 43

Describe the 7-Membrane Spanning Domain G-protein receptors

Answer 43

• G protein-linked receptors have 7 membrane spanning alpha-helices
• N-terminus and extracellular cytoplasmic loops bind the ligand
• large cytoplasmic loop interacts with G-proteins

Question 44

Describe coupling via trimeric G-proteins

Answer 44

• ligand binds to receptor
• The β-gamma subunits can also initiate signal transduction
• receptor undergoes conformational change
• G-protein binds to receptor and exchanges GDP for GTP
• GTP-alpha-subunit dissociates and binds to target enzyme
• target enzyme activated
• bound GTP hydrolysed and -subunit dissociates

Question 45

Describe the GDP protein before coupling

Answer 45

• inactive
• trimeric
• with alpha, beta and gamma subunits

Question 46

Describe adrenaline (epinephrine) action

Answer 46

• triggers tissue-specific responses via cAMP
• beta-adrenergic receptors are coupled to adenylate cyclase by G-proteins

Question 47

Describe adrenaline

Answer 47

• epinephrine
• synthesised in adrenal medulla and released into bloodstream in response to stress
• binds to beta-adrenergic receptors on the surface of muscle, liver and adipose cells

Question 48

cAMP

Answer 48

triggers glycogen breakdown via a kinase cascade

Question 49

Describe the glycogen breakdown kinase cascade

Answer 49

• PKA dissociates from cAMP
• phosphorylated by phosphorylase kinase (ATP -> ADP and Pi)
• phosphorylated by glycogen kinase
• glycogen converted to glucose 1-phosphate

Question 50

Describe feedback loops that desensitise beta-adrenergic receptors

Answer 50

• GTP transferred from beta-adrenergic receptors to adenylate cyclase
• reacts with ATP and cAMP to produce PKA
• inactivated by phosphorylation

Question 51

List some hormone-induced cell responses mediated by cAMP

Answer 51

• thyroid
• adrenal cortex
• ovary
• muscle
• bone
• heart
• liver
• kidney
• fat

Question 52

Describe the thyroid gland

Answer 52

• TSH
• thyroid hormone synthesis and secretion

Question 53

TSH

Answer 53

thyroid-stimulating hormone

Question 54

Adrenal cortex

Answer 54

• ACTH
• cortisol secretion

Question 55

ACTH

Answer 55

adrenocorticotrophic hormone

Question 56

Describe the ovary

Answer 56

• LH
• progesterone secretion

Question 57

LH

Answer 57

luteinising hormone

Question 58

Describe the muscle

Answer 58

• adrenaline
• glycogen breakdown

Question 59

Describe the bone

Answer 59

• parathormone
• bone resorption

Question 60

Heart

Answer 60

• adrenaline
• increase in heart rate and force of contraction

Question 61

Liver

Answer 61

• glucagon
• glycogen breakdown

Question 62

Kidney

Answer 62

• vasopressin
• water reabsorption

Question 63

Fat

Answer 63

• adrenaline, ACTH, glucagon, TSH
• triglyceride breakdown

Question 64

Describe the inositol signalling pathway

Answer 64

• PI is phosphorylated to PIP, which is phosphorylated to PIP2
• passes through G-coupled PLC using GTP, across DAG to PKC
• GTP produces InsP3 which binds to ER to secrete calcium, which migrates to PKC on PM
• sets up positive feedback loop of calcium
• SOCE achieved by calcium influx through ORA1 (attached to STIM1) delivered to SERCA in ER membrane, that transports back to calcium pump

Question 65

List some of the roles of the IP3/Ca2+ signalling pathway

Answer 65

• metabolism
• contraction
• fluid secretion
• neuronal synaptic plasticity
• aggregation
• ion channel opening
• aldosterone secretion
• differentiation
• proliferation
• exocytosis

Question 66

Describe the IP3/Ca2+ signalling pathway in metabolism

Answer 66

liver cells

Question 67

Describe the IP3/Ca2+ signalling pathway in contraction

Answer 67

• ventricular cells
• atrial cells
• smooth muscle
• mesangial cells

Question 68

Describe the IP3/Ca2+ signalling pathway in fluid secretion

Answer 68

• intestinal cells
• parietal cells
• pancreas
• salivary glands
• sweat glands

Question 69

Describe the IP3/Ca2+ signalling pathway in neuronal synaptic plasticity

Answer 69

• purkinje neurones
• hippocampal neurones

Question 70

Describe the IP3/Ca2+ signalling pathway in aggregation

Answer 70

blood platelets

Question 71

Describe the IP3/Ca2+ signalling pathway in ion channel opening

Answer 71

• astrocytes
• T cells

Question 72

Describe the IP3/Ca2+ signalling pathway in aldosterone secretion

Answer 72

glomerulosa cell

Question 73

Describe the IP3/Ca2+ signalling pathway in differentiation

Answer 73

• osteoblasts
• brown fat cells

Question 74

Describe the IP3/Ca2+ signalling pathway in proliferation

Answer 74

• T cells
• mesangial cells
• smooth muscles
• brown fat cells

Question 75

Describe the IP3/Ca2+ signalling pathway in exocytosis

Answer 75

• b-Cells
• L Cells
• mast cells
• macrophages
• parathyroid glands
• astrocytes
• renin-producing granular cells

Question 76

Describe the imaging of Ca2+-dynamics

Answer 76

• in C. elegans pharyngeal muscle
• using cameleon 2.1 (transgenic probes for Ca2+)

Question 77

Describe the role of phosphatidyl inositols as membrane scaffolds

Answer 77

• PIP
• PI(4)P
• PI(4,5)P2
• PI(3,4,5)P3
• phosphorylation by PI 3-kinase
• can interact with cytoskeleton

Question 78

What links PKA, CaM-kinase, PKC and MAPK

Answer 78

they are transcription regulators

Question 79

Summarise GCPR pathway 1

Answer 79

• G protein
• adenylyl cyclase
• cyclic AMP
• PKA
• protein targeting/transcriptional regulation

Question 80

Summarise GCPR pathway 2

Answer 80

• G protein
• phospholipase C
• IP3
• Ca2+
• calmodulin
• CaM-kinase
• protein targeting/transcriptional regulation

Question 81

Summarise GCPR pathway 3

Answer 81

• G protein
• phospholipase C
• diacylglycerol
• PKC
• protein targeting/transcriptional regulation

Question 82

Summarise RTK pathway 1

Answer 82

• phospholipase C
• diacylglycerol
• PKC
• protein targeting/transcriptional regulation

Question 83

Summarise RTK pathway 2

Answer 83

• Grb2
• Ras-GEF (Sos)
• Ras
• MAPKKK
• MAPKK
• MAPK
• protein targeting/transcriptional regulation

Question 84

Summarise RTK pathway 3

Answer 84

• PI 3-kinase
• PI(3,4,5)P3
• (PDKT)
• Akt kinase
• protein targeting/transcriptional regulation

Question 85

Summarise RTK pathway 4

Answer 85

• Grb2
• Ras-GEF (Sos)
• Ras
• PI 3-kinase
• PI(3,4,5)P3
• (PDKT)
• Akt kinase
• protein targeting/transcriptional regulation

Question 86

Describe the analysis of downstream signalling in multiple MAPK pathways

Answer 86

• DNA microarray with >97% of known or predicted genes from Saccharomyces cerevisiae
• make green fluorescently labelled probes from cDNA library of normal cells
• make red fluorescently labelled probes from cDNA library of cells treated with mating pheromome
• apply probes to array and measure the red/green ratio
• red = upregulated after pheromone, green=down regulated

Question 87

Describe the cluster analysis of gene behaviour in yeast

Answer 87

• > 200 gene transcripts found to increase in abundance
• > 200 decrease in abundance
• 383 genes changed by >3 fold

Question 88

Describe the testing of the pheromone hypothesis using mutants

Answer 88

• genome-wide transcript profiling repeated in different mutant backgrounds
• deletion in ste2 abolishes the entire pheromone response
• deletion in far1 does not affect induction of pheromone genes, but abolishes repression of cell cycle genes

Question 89

ste2

Answer 89

pheromone receptor

Question 90

far1

Answer 90

cdk inhibitor

Question 91

Describe the acetylcholine receptor

Answer 91

• nAChR
• archetypal pentameric ligand gated channel (alpha, alpha, beta, gamma, delta)
• charges above and below the pore confer specificity for cations
• alpha-subunits have binding sites for ACh and show cooperativity
• Na+ is the main ion transported as it is far from equilibrium

Question 92

Describe GABA and glycine receptors

Answer 92

• pentameric channels permeable to chloride ions
• inhibit generation of an action potential by maintaining membrane hyperpolarisation
• activated by benzodiazepines and barbiturates
• inhibited by strychnine.

Question 93

GABA

Answer 93

gamma-amino butyric acid

Question 94

benzodiazepines

Answer 94

valium

Question 95

Describe ionotropic glutamate receptors

Answer 95

• NMDA receptors
• AMPA receptors

Question 96

Describe NMDA receptors

Answer 96

• permeable to Ca2+
• promote depolarisation
• blocked by Mg2+ until ejected by depolarisation

Question 97

NMDA

Answer 97

N-methyl-D-aspartate

Question 98

Describe AMPA receptors

Answer 98

• permeable to Na+
• promote depolarisation

Question 99

AMPA

Answer 99

α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid

Question 100

Describe metabotropic glutamate receptors

Answer 100

• glutamate receptors initiate a
  G-protein cascade that activates adenylate cyclase and PKA
• Na+ channels activated by phosphorylation (by PKA)

Question 101

Summarise the G protein cascade

Answer 101

• GDP to GTP
• GTP binds adenylate cyclase
• ATP to produce cAMP
• releases pKA
• goes to membrane receptor

Question 102

Describe 5-HT receptors activate channels directly, or via the IP3 and cAMP pathways

Question 103

5-HT

Answer 103

• 5-hydroxytryptamine
• serotonin