P53 Process

brian battad

16 Apr 201802:01

Summary

TLDRThe transcript explains the role of p53 in regulating the cell cycle and preventing cancer cell growth. p53 interacts with various genes like p21 and cdc2 to halt the cell cycle, either at the S or M phase, thus preventing unchecked cell division. If this checkpoint fails, p53 triggers apoptosis through pathways involving caspase-9. Damage to p53 by radiation, viruses, or chemicals impairs these functions, allowing cancer cells to proliferate uncontrollably, leading to tumor formation.

Takeaways

😀 p53 is a key protein encoded by the 17th chromosome and plays a critical role in regulating the cell cycle and apoptosis.
😀 p53 interacts with the MDM2 protein, forming a complex that regulates its own activity.
😀 In the S phase of the cell cycle, p53 binds with p21 to inhibit CDK2, preventing the progression of cancer cells.
😀 If the cell cannot move through the S phase, it may enter the G2 phase, where p53 interacts with genes to inhibit CDC2 and prevent entry into the M phase.
😀 p53 can induce cell cycle arrest, halting cancer cell growth and stopping further proliferation.
😀 Following cell cycle arrest, p53 can initiate apoptosis by interacting with the BAX protein, leading to cytochrome c release.
😀 Cytochrome c activates caspase-9, which triggers apoptosis and promotes the death of cancer cells.
😀 Alternatively, p53 may interact with APAF-1 to further activate caspase-9, ensuring that apoptosis occurs.
😀 Damaged p53, due to radiation, viruses, or chemicals, can no longer effectively regulate the cell cycle or induce apoptosis.
😀 When p53 is damaged, cells may escape growth arrest and apoptosis, leading to uncontrolled proliferation and cancer development.

Q & A

What is the role of p53 in the cell cycle?
-p53 plays a crucial role in regulating the cell cycle by interacting with various proteins to prevent uncontrolled cell division. It controls checkpoints in the S phase, G2 phase, and M phase, ensuring proper cell growth and division.
How does p53 regulate the S phase of the cell cycle?
-p53 regulates the S phase by interacting with the p21 gene, which inhibits CDK2, preventing the cell from proceeding through the S phase and thus inhibiting further cancer cell growth.
What happens if p53 fails to regulate the S phase?
-If p53 fails to regulate the S phase, the cell can proceed to the G2 phase, where p53 then interacts with other genes to inhibit CDC2, preventing the cell from moving into the M phase and dividing further.
What is the consequence of p53-mediated cell cycle arrest?
-Cell cycle arrest, induced by p53, halts the division and growth of potentially cancerous cells, preventing further progression of cancer cell proliferation.
How does p53 trigger apoptosis in damaged cells?
-p53 triggers apoptosis by interacting with the BAX protein, leading to the release of cytochrome c, which activates caspase-9 and ultimately causes programmed cell death (apoptosis).
Are there other pathways for p53 to induce apoptosis?
-Yes, in addition to the BAX-cytochrome c pathway, p53 can also interact with PUMA (p53 upregulated modulator of apoptosis), which further activates caspase-9 to promote apoptosis.
What happens when p53 is damaged by external factors like radiation or chemicals?
-When p53 is damaged by radiation, viruses, or chemical stress, it can no longer regulate the cell cycle or induce apoptosis. This failure leads to uncontrolled cell division and the accumulation of abnormal cells, contributing to cancer development.
Why is p53 called the 'guardian of the genome'?
-p53 is referred to as the 'guardian of the genome' because it protects the cell from mutations by regulating the cell cycle and promoting apoptosis in damaged or mutated cells, thus preventing the accumulation of genetic errors that could lead to cancer.
What are the main phases of the cell cycle where p53 has regulatory functions?
-p53 plays a key regulatory role during the S phase, G2 phase, and M phase of the cell cycle, ensuring that the cell cycle progresses properly and that damaged cells are either repaired or eliminated.
How does p53 interact with MDM2, and what is the significance of this interaction?
-p53 binds with MDM2, a protein that regulates p53's stability. MDM2 controls the levels of p53 in the cell by marking it for degradation, thereby ensuring that p53's activity is tightly regulated in normal cellular conditions.