Enabling Replicative Immortality

Question 1

Wha would happen if normal cells didn’t divide a certain number of times?

Answer 1

Tissues would lose their structures and would also lose their abilities/functions

Question 2

What happens if cells continue to accumulate mutations?

Answer 2

Impacts control mechanisms which maintain proliferation and apoptosis.

Question 3

Why are fibroblasts used in labs?

Answer 3

They are robust and do not require special equipment

Question 4

Describe the growth curve of the population of normal fibroblasts

Answer 4

• cells double every 2 or 3 days, exponential

- until they are 170-200 days old, where they reach senescence and stop dividing.

Question 5

What dye can detect senescent cells?

Answer 5

Beta galactose

Question 6

What are the differences in morphology between normal tissue and tissue with cells reaching senescence?

Answer 6

Normal: good shaped cells with discrete nucleus, well ordered in monolayer.
Senescent: nucleus disappeared, disordered structure, cells filled with b-galactose.

Question 7

Why is embryonic tissue used in labs?

Answer 7

Younger cells divide more efficiently/ more often than older cells.

Question 8

What phase of the cell cycle is senescence?

Answer 8

G0.

Question 9

What is senescence?

Answer 9

Cells in G0 phase (left active cell cycle)

Stable karyotype, metabolically active, normal respiration, just cannot divide

Question 10

Why can cancer cells avoid senescence?

Answer 10

Normally, once a cell goes into G0, it is almost impossible to return to metaphase.
Cancer cells lose the inhibition to go back into metaphase, so they can return to the cell cycle and continue proliferating

Question 11

How can we partially achieve senescence in the lab?

Answer 11

RB and P53 inhibition

Question 12

What happens if both P53 AND RB are inhibited?

Answer 12

Cells are able to grow exponentially forever with no plateau (unlike normal growth curve)

Question 13

What is replicative crisis?

Answer 13

When cells are forced into apoptosis

Question 14

What is replicative crisis dependent on?

Answer 14

Telomeres: DNA on end of chromosomes

Question 15

What does the loss of telomeres result in?

Answer 15

Apoptosis

Question 16

What happens to cells wen enzyme involved in telomere function is inhibited?

Answer 16

Chromosomes join up instead of being discrete/ separate

Question 17

What happens to length of telomeres as cells divide?

Answer 17

Length of telomeres shorten as progressive cell divisions

Question 18

How is telomere length involved with cancer?

Answer 18

Telomeres fuse to create fused chromosomes.
Disjointed, non-homologous chromosomes are created from joined chromosomes during division
Results in translocation of DNA
Feeds into mutations which accumulate in cancer cells

Question 19

Which enzyme maintains telomere length?

Answer 19

Telomerase

Question 20

How do telomeres explain why cancer gets more common through aging?

Answer 20

Telomeres disappear through aging
Therefore more accumulations of mutations occurring
Which results in higher chance of cancerous cells

Question 21

What determines the number of generations of divisions in a cell?

Answer 21

Length of telomeres

Question 22

What % of telomerase is activated in tumours?

Answer 22

90%

Question 23

Replicative senescence refers to..

Answer 23

Normal cells having limited number of times they divide