Cellular growth regulation

Question 1

What are proteins that stimulate proliferation called?

Answer 1

Proteins that stimulate proliferation are called mitogens

Question 2

What are mitogens usually named after?

Answer 2

Usually named after originally identified target

Question 3

What types of proteins are there in the cell cycle

Answer 3

• Their are proteins that stimulate differentiation and inhibit proliferation like TGFbeta
• Their are proteins that induce apoptosis like TNFalpha and other members of the TNF family

Question 4

What are the 3 broad classes of proteins?

Answer 4

• Paracrine: which are produced locally to stimulate proliferation of a different cell type that has the appropriate cell surface receptor
  
  • Autocrine: which are produced by a cell that also expresses the appropriate cell surface receptor
  • Endocrine: which like conventional hormones, is released systemically for distant effects

Question 5

What are the phases of the

Answer 5

M phase
G1 phase
S phase
G2 phase

Question 6

What happens in the m phase of the cell cycle?

Answer 6

M phase is the seperation of chromosomes and divison into 2 daughter cells

Question 7

What happens to the 2 daughter cells after mitosis?

Answer 7

1 cell used in interphase for cell growth(G1) as well as DNA replication(S Phase)

Question 8

What do the cells do in the G2 phase?

Answer 8

In the G2 phase, cells prepare for mitosis

Question 9

What happens after cell division?

Answer 9

After cell division, cells have 2 copies of each chromosome. In G1 we have 2 copies and after G2 we have 4 copies

Question 10

What is the way to check whether cells are growing fast?

Answer 10

• Fluorescence activated cell sorter analysis of cell DNA content
  
  • We take cells and label DNA with dye and use laser to see intensity of cells

Question 11

DNA replication steps

Answer 11

1. DNA is replicated semi-conservatively
2. New DNA is synthesised in the 5’to3’ direction from the deoxynucleotide triphosphate precursors at a replication fork by a multienzyme complex
3. Fidelity is determined by base pairing and presence of a proof reading enzyme in DNA polymerase
4. Synthesis of the new DNA strand uses an RNA primer and occurs continuously on the leading strand and discontinuously on the trailing strand(giving rise to okazaki fragments, which are ligated together after the removal of the RNA primer)

Question 12

What are the stages of mitosis?

Answer 12

1. Prophase
2. 5Propmetaphase
3. Metaphase
4. Anaphase
5. Telophase

Question 13

Steps in prophase

Answer 13

• Nucleus become less definite
• Microtubular spindle apparatus assembles
• Centrioles migrate to poles

Question 14

Steps in prometaphase

Answer 14

• Nuclear membrane breaks down

- Kinetochores attach to spindle in nuclear regions

Question 15

Steps in metaphase

Answer 15

Chromosomes align in equatorial plane

Question 16

Steps in anaphase

Answer 16

Chromatids separate and migrate to opposite poles

Question 17

Steps in telophase

Answer 17

Daughter nuclei form

Question 18

What happens in cytokinesis?

Answer 18

• Division of cytoplasm

- Chromosomes decondense

Question 19

Examples of S phase active drugs

Answer 19

5-Fluorouracil

Bromodeoxyuridine

Question 20

What is 5-Fluorouracil?

Answer 20

5-Fluorouracil is an analogue of thymidine and blocks thymidylate synthesis

Question 21

What is bromodeoxyuridine?

Answer 21

Bromodeoxyuridine is another analogue that maybe incorporated into DNA and is detected by antibodies to identify cells that have passed through the S-phase

Question 22

Examples of M phase active drugs

Answer 22

• Colchichine
• VInca Alkaloids
• Paclitaxel

Question 23

What does colchicine do?

Answer 23

Colchicine stabilizes free tubulin, preventing microtubule polymerization and arresting cells in mitosis and is used in karyotype analysis

Question 24

What are vinca alkaloids similar to?

Answer 24

Vinca alkaloids are similar to colchicine

Question 25

What type of drug is paclitaxel?

Answer 25

Is a taxol(anticancer drug) which stabilises microtubules and prevents de-polymerization

Question 26

What do cell cycle checkpoint controls ensure?

Answer 26

Controls ensure the strict alternation of mitosis and DNA replication

Question 27

What do the restriction point just before the S phase check?

Answer 27

They check if DNA is not damaged, cell size and metabolite/nutrients store

Question 28

What phase of the cell cycle are cells responsive to growth factors?

Answer 28

Cells are only responsive to growth factors during the G1 phase of the cell cycle

Question 29

What does cyclin dependent kinase activity control?

Answer 29

Cyclin dependent kinase activity controls cell cycle progression

Question 30

What do active cyclin-CDK do?

Answer 30

Active cyclin-CDK complex phosphorylates specific substrates

Question 31

What processes are in place to regulate cyclin-CDK activity?

Answer 31

• Cyclical synthesis(Gene expression) and destruction(by proteasomes)
• Post translational modification by phosphorylation- depending on modification site as it may results in activation, inhibition or destruction
• Dephosphorylation
• Binding of cyclin dependent kinase inhibitors

Question 32

What is the retinoblastoma protein a key substrate of?

Answer 32

The retinoblastoma protein is a key substrate of G1 and G1/S cyclin dependent kinases

Question 33

Retinoblastoma and E2F

Answer 33

• Unphosphorylated RB binds E2F preventing its stimulation of S-phase protein expression
  
  • Cyclin D or Cyclin E can phosphorylate retinoblastoma meaning retinoblastoma can’t bind to E2f
  • Released E2F stimulates the expression of more cyclin E and S phase proteins like DNA polymerase, thymidine kinase etc. This allows DNA replication to start.

Question 34

What are the 2 families of Cyclin dependent kinase inhibitors

Answer 34

1. CDK inhibitory protein/kinase inhibitory protein family

2. Inhibitor of kinase 4 family

Question 35

What weakly and strongly stimulates the expression of the CDK inhibitory protein/kinase inhibitory protein family

Answer 35

-Expression of members of this family stimulated weakly by TGFbeta and strongly by DNA damage

Question 36

What do proteins of the CDK inhibitory protein/kinase inhibitory protein family inhibit?

Answer 36

Inhibit all other CDK-cyclin complexes

Question 37

What are proteins of the CDK inhibitory protein/kinase inhibitory protein family gradually sequestered by?

Answer 37

Are gradullay sequestered by G1 CDKs this allowing activation of later CDKs

Question 38

What stimulates the expression of inhibitor of kinase 4 family proteins ?

Answer 38

Expression stimulated by TGFbeta

Question 39

What do proteins of inhibitor of kinase 4 proteins specifically inhibit?

Answer 39

Specifically inhibit G1 CDKs

Question 40

What induces cyclin expression?

Answer 40

Growth factors induce cyclin expression

Question 41

How do growth factors induce cyclin expression?

Answer 41

-Growth factor bind to growth factor receptor activating signal transducers which stimulates kinase cascade that allows a wave of transcription factor activation forming mRNA and proteins

Question 42

What are the sequence of events triggered by growth factors?

Answer 42

-Growth factors signalling activates early gene expression(transcription factors)
-Early gene products stimulate delayed gene expression
-E2f sequestered by binding to unphosphorylated retinoblastoma protein
-G1 cyclin-CDK complexes hypophosphorylate retinoblastoma and then G1/S cyclin-CDK complexes hyperphosphorylate retinoblastoma releasing E2F
-E2F stimulates expression of more cyclin E and S-phase proteins
S phase cyclin-CDK and G2/M cyclin-CDK complexes build up in inactive forms. These switches are activated by post translational modification or removal of inhibitors, driving the cell through S-phase and mitosis

Question 43

When is DNA damage detected and what’s triggered?

Answer 43

DNA damage is detected at checkpoints triggering cell cycle arrest or apoptosis

Question 44

What are the 3 steps that happen when DNA damage is detected?

Answer 44

1. Cycle stopped
2. DNA repair is attempted
3. Programmed cell death if repair impossible