5 Must Know Facts For Your Next Test

1. Telomerase is active in stem cells and many cancer cells but is usually inactive in most somatic cells, leading to gradual telomere shortening.
2. The enzyme is composed of a reverse transcriptase component that synthesizes DNA from an RNA template, effectively adding telomere repeats.
3. High telomerase activity is associated with a longer lifespan for cells, allowing them to avoid senescence and continue dividing.
4. Telomerase has become a target for cancer therapies, as inhibiting its function could limit the ability of cancer cells to proliferate indefinitely.
5. Studies have shown that reactivating telomerase in normal cells could potentially rejuvenate aging tissues, raising ethical questions about its use.

Review Questions

• How does telomerase contribute to the characteristics of cancer cells?
  • Telomerase contributes to the characteristics of cancer cells by allowing them to maintain their telomeres and avoid the normal process of cellular aging. Most somatic cells lose telomere length with each division, eventually leading to senescence. However, cancer cells often express high levels of telomerase, which enables them to divide indefinitely and promotes tumor growth. This property is a key factor in the uncontrolled proliferation seen in cancer.
• In what ways could targeting telomerase serve as a therapeutic approach for cancer treatment?
  • Targeting telomerase can serve as a therapeutic approach for cancer treatment by inhibiting its activity in cancer cells. Since many tumors rely on telomerase to maintain their telomeres and continue dividing, blocking this enzyme could induce cell senescence or apoptosis in those cancerous cells. Researchers are investigating various methods such as small molecule inhibitors or immunotherapy approaches that specifically target telomerase activity without affecting normal somatic cells.
• Evaluate the potential implications of manipulating telomerase activity in normal versus cancerous cells regarding aging and disease.
  • Manipulating telomerase activity has significant implications for both aging and disease. In normal cells, reactivating telomerase could potentially rejuvenate tissues and extend cell lifespan, offering exciting possibilities for regenerative medicine. However, this comes with risks, as it might also increase the likelihood of developing cancer due to enhanced cell proliferation. Conversely, inhibiting telomerase in cancer cells presents a promising strategy for limiting tumor growth but may also lead to adverse effects on surrounding healthy tissues. Therefore, careful consideration is needed when exploring telomerase as a therapeutic target.

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