Theme 3 - intracellular signalling

Question 1

give four examples of intracellular signals

Answer 1

ions, proteins, gases and second messengers

Question 2

name three molecules that need receptors to get through the membrane

Answer 2

proteins, peptides and charged molecules

Question 3

name two ways ligands can cause downstream effects

Answer 3

by directly interacting with the cell surface receptor or binding co-receptors or accessory molecules on the cell surface

Question 4

what type of proteins are most signalling molecules and where are they found?

Answer 4

hydrophilic proteins in the cytoplasm

Question 5

where are hydrophobic signalling molecules most likely to be found?

Answer 5

embedded in the membrane

Question 6

name three cellular processes that may be changed due to a signalling cascade activating an effector protein

Answer 6

altered metabolism, altered cell shape or altered gene expression

Question 7

give an example of where signal amplification occurs

Answer 7

in the eye - rhodopsin detects low levels of light

Question 8

what is distribution in signal amplification?

Answer 8

activation of one molecule that then goes on to activate many others

Question 9

name three ways in which signalling molecules are controlled

Answer 9

by post translational modifications (phosphorylation), binding GTP/GDP or interaction with activators such as Ca++ and cAMP

Question 10

how does a kinase phosphorylate a protein?

Answer 10

removes a phosphate from ATP in the cytoplasm which is then added to another protein, causing a shape change

Question 11

how do phosphatases turn a signal off?

Answer 11

hydrolyse and take the phosphate group off the protein

Question 12

does phosphorylation always activate proteins?

Answer 12

usually it does but it can also inactivate them

Question 13

what three amino acids can a phosphate group be added on to?

Answer 13

tyrosine, threonine and serine

Question 14

why can phosphate groups only be added onto specific amino acids?

Answer 14

they have a free hydroxyl group where a kinase can attach a phosphate

Question 15

give three examples of serine threonine kinases

Answer 15

CaM kinase (calcium calmodulin dependent kinase), PKA (produces glucose), PKC (leaning and memory), MAPK (cytokine production)

Question 16

what are the two subclasses of tyrosine kinases?

Answer 16

receptor and non receptor tyrosine kinases

Question 17

give an example of a non receptor tyrosine kinase

Answer 17

Src

Question 18

give an example of an RTK

Answer 18

EGFR (the receptor itself in a kinase)

Question 19

what are small GTPases and where are they usually found?

Answer 19

GTP binding proteins that are usually found in the cytoplasm

Question 20

what is an inactive small GTPase bound to?

Answer 20

GDP

Question 21

what needs to happen for a small GTPase to bind GTP?

Answer 21

GDP needs to be released so it can preferentially bind GTP in the cytoplasm

Question 22

how does a small GTPase switch the signal off?

Answer 22

proteins have their own intrinsic GTPase activity which is a motif in its protein sequence that hydrolyses GTP back to GDP

Question 23

give an example of a GTPase

Answer 23

Ras

Question 24

how long does it take for Ras to activate and inactivate?

Answer 24

activates in 10 seconds and turns itself off in 10 mins

Question 25

what mutations can lead to signalling errors?

Answer 25

ras - mutation from glycine to valine at amino acid 12

Question 26

what does mutations in ras cause the protein to be?

Answer 26

constitutively active - no longer hydrolyses GTP to GDP so can’t switch itself off

Question 27

name two provisional activators of proteins

Answer 27

Calcium and cAMP

Question 28

how does calcium regulate proteins?

Answer 28

binds calmodulin which induces a conformational change so it can engage with target protein Cam Kinase which then phosphorylates myosin

Question 29

what type off folding predominates in GPCRs?

Answer 29

alpha helices

Question 30

what is a G protein bound to in the inactive state

Answer 30

alpha subunit is bound to GDP and alpha, beta, gamma are attached

Question 31

what happens when GTP binds the alpha subunit of a G protein?

Answer 31

the alpha subunit dissociates from the beta gamma subunit

Question 32

does the alpha subunit have GTPase activity?

Answer 32

yes - it can switch itself off

Question 33

which G proteins are involved in adenylate cyclase and cAMP signalling?

Answer 33

Gs and Gi

Question 34

which ligand binds which receptor to activate the Gs signalling cascade?

Answer 34

adrenaline binds an adrenergic receptor

Question 35

what is the role of adenylate cyclase?

Answer 35

sits in the membrane and converts ATP to cAMP when contacted by a GTP bound Gs protein

Question 36

what is PKA activated by and what does it do?

Answer 36

activates when cAMP binds and it goes to the nucleus to phosphorylate transcription factors to drive glucose production

Question 37

what receptors are involved in Gq activation?

Answer 37

M1 muscarinic acetylcholine receptors

Question 38

what does an activated Gq bind?

Answer 38

PLC - causes cleavage of PIP2 to DAG and IP3

Question 39

what is the effector molecule in the Gq cascade?

Answer 39

PKC - which is activated by DAG and calcium and cause phosphorylation of other molecules

Question 40

which receptor slows down heart rate when activated?

Answer 40

M2 muscarinic Ach receptors

Question 41

how does binding of Ach to an M2 receptor lead to decrease heart rate?

Answer 41

Ach binds the M2 receptor, beta gamma unit says in the membrane and binds to K+ channels causing them to ope, this causes K+ to move out the cell and hyperpolarise the cell therefore heart rate slows down and decreased FOC

Question 42

Name two conditions that are implicate G protein signalling

Answer 42

cholera and whooping cough

Question 43

what type of G protein does cholera toxin inhibit and what are the consequences of this?

Answer 43

inhibits GTPase activity Gs therefore it cant switch itself off - prolonged activity causes water and chloride ions to move out of intestinal cells - dehydration, diarrhoea and sometimes death

Question 44

what toxin is produced by whooping cough?

Answer 44

bordetella pertussis - pertussis toxin

Question 45

what G protein does bordetella pertussis inhibit and what are the consequences?

Answer 45

pertussis toxin stops Gi associating when its GPCR and also releases an active form of adenylate cyclase - double wham of not being able to switch off adenylate cyclase and introducing an extra active version - prolonged signalling which stimulates coughing

Question 46

where can kinase activity occur on an enzyme coupled receptor?

Answer 46

built into the receptor or association with a molecule that has kinase activity

Question 47

how many TM domains do enzyme coupled receptors usually have?

Answer 47

one - type I transmembrane receptor

Question 48

what happens to an enzyme coupled receptor when a ligand binds?

Answer 48

dimerisation

Question 49

Initial signalling cascade of an RTK

Answer 49

ligand binds and two receptors are brought together to form a dimer, then they can cross phos/phos themselves - this activates the receptorand phos sites allow proteins to dock and have further downstream effects

Question 50

what type of enzyme activity do RTKs have?

Answer 50

intrinsic (built in)