Ch. 8

Question 1

What is signal transduction?

Answer 1

• Biochemical mechanism responsible for transmitting extracellular signals across the plasma membrane and throughout the cell
  
  • Changes information into a chemical signal
  • Often ends with covalent (phosphorylation, adding palmitoyl) or noncovalent modification of intracellular target proteins

Question 2

Outline the proteins and messengers involved in a generic signaling pathway.

Answer 2

1. First messenger
2. Receptor protein
3. Upstream signaling protein
4. Second messenger
5. Downstream signaling protein
6. Target protein

• First messengers are extracellular ligands that bind to receptor proteins
• Secondary messenger is an intracellular signaling molecule

Question 3

What is a secondary messenger? What are 4 examples?

Answer 3

• A small (non-protein) molecule that amplifies receptor generated signal

Examples:
- cGMP (cyclic GMP)
- cAMP (cyclic AMP)
- DAG (Diacylglycerol) and IP3 (inositol 1,4,5-triphosphate)
- Ca2+

Question 4

What are two major classes of receptor proteins found in Eukaryotes?

Answer 4

• G protein-coupled receptors
  
  • Dissociation of heterotimeric G protein complex
  • Adenylate cyclase and PLC are activated
• Receptor tyrosine kinases
  
  • Phosphorylates Tyr residue in target protein to create docking site for intracellular signaling

Question 5

How many transmembrane alpha helices does GPCR have?

Answer 5

7

Question 6

What effect does epinephrine binding have on GPCR?

Answer 6

• Epinephrine (ligand), a catecholamine, binds to the receptor and leads to conformational change on cytosylic side

Question 7

Outline the steps in GPCR activation

Answer 7

1. Ligand binds to GPCR causing conformational change
2. GDP-GTP exchanged and subunit dissociates
3. Regulation of downstream process

Question 8

Describe the structure of a G-protein

Answer 8

• Heterotrimeric (αβγ) membrane associated proteins that bind GTP or GDP

Question 9

What does Gβγ regulate? What does Gα regulate?

Answer 9

Gβγ
- phospholipase A
- Ion channels
- Receptor kinases

Gα
- Activate/inhibit Adenylate cyclase
- Regulate neuronal signaling
- stimulate phospholipases
- Stimulate phosphodiesterases

Question 10

Give an overview of GPCR (7 steps)

Answer 10

1. Epinephrine binds to receptor protein
2. Hormone complex causes GDP bound to Gsα to be replaced by GTP which causes Gsα to activate
3. Gsα separates from Gsβγ then moves to adenylyl cyclase and activates it (may activate many other Gsα subunits)
4. Adenylyl cyclase catalyzes formation of cAMP
5. cAMP activates PKA
6. Phosphorylation of cellular proteins by PKA causes the cellular response to epinephrine
7. cAMP degrades reversing the activation of PKA

Question 11

Diagram the synthesis and breakdown of cAMP

Answer 11

ATP –(via adenylyl cyclase)–> cAMP –(hydrolysis via cAMP phosphodiesterase)–> AMP

Question 12

What does the binding of cAMP do to protein Kinase A?

Answer 12

• cAMP binds to R2C2 tetramere (2 regulatory subunits and 2 catalytic subunits) then catalytic and cAMP-bound R subunit dissociate
  TL;DR - cAMP binding causes R subunit to dissociate, leaving the 2 now active PKA monomers

Question 13

What is the difference between pseudo substrate sequence and substrate sequence in cAMP binding?

Answer 13

Pseudo Substrate Sequence (RRGAI)
- Fits well in active site
- Alanine cannot be phosphorylated

Substrate Sequence (RRGSI)
- Fits in active site
- Serine OH group on side chain can get phosphorylated

Question 14

How does activation of protein kinase C occur?

Answer 14

• cAMP binds to R subunit
• R subunit dissociates causing catalytic subunit to be unblocked

Question 15

What three things can result from the phosphorylation of protein kinase A?

Answer 15

1. Phosphorylation and inhibition of glycogen impedes glycogen synthesis
2. Phosphorylation and activation of enzymes involved in glycogen degradation to produce glucose
3. Phosphorylation and activation of enzymes involved in gluconeogenesis

TL;DR - More glucose

Question 16

How can G-protein signaling be inhibited using a GTPase activating protein?

Answer 16

GEF
- Guanine nucleotide exchange factor
- Promote GDP-GTP exchange
- Activate signaling

GAP
- GTPase activating protein
- Stimulates intrinsic GTP hydrolysis activity
- Inhibit signal transduction

Question 17

Outline the steps of the termination of GPCR signaling.

Answer 17

1. Ligand activates GPCR signaling
2. Gβγ binding to βARK recruits kinases to GPCR cytoplasmic tail
3. βARK and PKA phosphorylate serine and threonine residues in GPCR cytoplasmic tail
4. β-Arrestin binds to phosphorylated GPCR cytoplasmic tail
5. β-Arrestin-GPCR complex is internalized by endocytic vesicle in cytoplasm
6. β-Arrestin dissociates and rebinds to another GPCR
7. GPCR is dephosphorylated and either degraded (lysosome) or recycled to plasma membrane

Question 18

What is a receptor tyrosine kinase and what does it do?

Answer 18

• Receptor that transmits extracellular signal by ligand activation of a tyrosine kinase found in cytoplasmic tail of receptor
• Activated by RTKs are dimers
• Phosphorylate downstream signaling proteins that bind to RTK phosphotyrosines

Ex. Insulin receptor