Lecture 13: Telomerase and Step Cells

Question 1

What is the Hayflick limit?

Answer 1

Limits the ability of cells to multiply in culture

Question 2

What is senescence?

Answer 2

Normal somatic cells: finite replicative capacity
Tumour cells: infinite in vitro and vivo

Replicative senescence is a tumour suppressor mechanism:
1. most cancer cells have bypassed the replicative limit
2. p53 and Rb are essential for establishing and/or maintaining
senescence growth arrest
3.cells from individuals with germline p53 mutation are more likely to spontaneously immportalise

Question 3

What is the problem with replicating ends?

Answer 3

DNA polymerase only works 5’-3’
It cannot reconstruct the ends of chromosome strands - 50-200bp remain replicated
ALSO, exonucleases chew at the ends of telomeric DNA

Question 4

What is the role of telomerase in senescence?

Answer 4

Progressive decline of proliferative potential demonstrated by ageing cells is directly correlated with progressive shortening of telomerases

Question 5

What affects telomerase length

Answer 5

Type of tissue
Persons age

Question 6

What are telomerases?

Answer 6

Nucleoprotein structures at ends of linear chromosomes

Essential for proper maintenance of chromosomes:
a. maintain integrity and stability
b. stop chromosome fusion
c. anchor chr to nuclear matrix

Chromosome ends hidden from DNA repair systems by telomer binding proteins

No protein coding genes

Shorten each round of DNA replication

At a particular short length, senescence triggered or crisis

Loss or shortening of telomeres linked to genome instability
a. degradation
b. fusion
c. recombination

Question 7

What is the repeat found at telomeres

Answer 7

TTAGGG repeated 100s - 1000s of times
Same in mammals, birds, reptiles, amphibians, bony fish, plant species’.

Double stranded with short single-sided 3’ overhang

Question 8

What is the T-loop

Answer 8

Structure at telomeres

Question 9

What happens to cells lacking Trf2?

Answer 9

Telomeres lose protective function, resulting in massive end-to-end fusion of chromosomes

Question 10

What is telomerase?

Answer 10

1. Holoenzyme
2. Two main components: Protein (TERT) and RNA (TR)
3. rNA contains CCCUAA repeats (complementary to telomere)
4. RNA seq. acts as template for adding new TTAGGG to end
5. Plus several other proteins: hsp90, p23, dyskerin, L22, hStain, and
   Est1A/B, all associated with telomerase activity in cell extrac
6. Reverse transcriptase

Question 11

What does the telomerase do?

Answer 11

Maintains telomere length, ensuring chromosome integrity and avoidance of crisis and death. In normal development, telomerase expressed early in embryo, counterbalancing proliferation

Question 12

What happens when cancer induced by telomere dysfunction

Answer 12

1. mechanisms leading to de-repression of hTERT complex and still obscure (potential involvement of myc transcription factor)
2. Telomerase activity does not induce transformation, but is req for immortalisation

Question 13

How is telomerase regulated?

Answer 13

Multifactorial:
1. gene regulation
2. post-translation protein-protein interactions
3. phosphorylation
4. differences at telomere
HPV E6 & c-myc can increase expression

Question 14

How can telomerase activity be detected?

Answer 14

Telomeric repeat amplification protocol (TRAP)
Terminal restriction fragment length - measure size of telomere

Question 15

How can telomeres be maintained without telomerase?

Answer 15

10-15% cancers
Alternative Lengthening of Telomeres (ALT)

ALT-associated PML bodies (APBs) in nucleus (contain telomeric DNA, TF1, TRF2, DNA recombination enzymes -RAD50,51,52-)

Question 16

Where was recombination-dependent maintenance of telomeres found?

Answer 16

Budding yeast

Question 17

What is telomeric exchange

Answer 17

homologous recombination

Question 18

What is the link between stem cells and cancer?

Answer 18

Stem cells are immortal to allow self-renewal (AND EXPRESS TELOMERASE)

90% of cancers upregulate telomerase activity, hTERT

Tumour cells may arise from mutation in stem cells or, differentiated cells mutate and regain self-renewal machinery

Question 19

Why are stem cells protected and how are they protected?

Answer 19

Stem cells lead to a vast number of differentially differentiated progeny.

Five mechanisms of protection:
1. Placement - in protective area like colonic crypt
2. asymmetric cell division
3. rapid apoptosis if conditions not correct or subjected to DNA
damage
4. Plasma membrane pumps like Mdr1, P-glycoprotein, ABCG2
expressed at high levels to remove toxins
5. Enhanced resistance to radiation

Question 20

What is the link between cancer and stem cells?

Answer 20

Cancers are monoclonal, but very heterogeneous (similar to heterogeneity of mature differentiated cells)

Experimentally found only a few cells in most cancers capable of initiating cancers when transplanted (CALLED CANCER INITIATING CELLS)

Question 21

What pathways have been involved in stem cell maintenace and linked to cancer

Answer 21

Wnt
Hedgehog
Notch

Question 22

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