Biochemistry Flashcards
Karyotype
Proto-oncogenes
Tumour-suppressor genes
p53 pathway
p53 blocks cancer progression by provoking transient or permanent growth arrest, by enabling DNA repair or by advancing cellular death programs.
Rb pathway
Rb include tumor suppression, regulation of the cell cycle, differentiation, and apoptosis.
RTK/Ras/PI3K pathway in cancer development
RTK - kinase that becomes hyperactive, persistently activating Ras.
Ras - protein that switches on cell growth
PI3K - stimulated by Ras (further pathways from this lead to increased cell survival and growth).
= tumour formation
TP53
Gene that encodes p53.
In tumours TP53 gene was found to be deleted (i.e. p53 couldn’t be expressed).
Li-Fraumeni syndrome
Loss of function mutations in TP53 (predisposed especially to breast cancer).
Explain the mechanism that prevents cells being formed from damaged DNA?
- p53 is phosphorylated so it can’t bind to Mdm2.
- p53 accumulates at high levels stimulates production of p21.
- p21 binds and inactivates key complexes arresting the cell in G1 (the first phase of the cell cycle before replication).
How could tumour suppressor genes become inactivated?
- Chromosomal deletion or inactivation by point mutation.
- Epigenetic changes - permanently inactivate (methylation or DNA packing)
How does HPV lead to cancer through targeted degradation?
E6 proteins target E3 ubiquitin ligase to p53, resulting in the transfer of ubiquitin peptides marks p53 for destruction.
The activation of E3 enzyme is observed in more than __% of cervical carcinomas.
90
Ubiquitin
a small protein that marks other proteins for degradation or cellular processes through E1, E2, & E3 genes.
Loss of p53 by monoallelic mutation
Monoallelic mutation; one allele of the tumour suppressor gene is mutated.
Dominant-negative effects (good allele is dominated by bad, mutated allele)
Retinoblastoma
Eye tumour in kids, allowed discovery of Rb gene
