AI Article Synopsis
- Tumorigenesis is influenced by numerous mutations, particularly cancer-driving nucleotides (CDNs), which are essential for understanding and treating cancer patients.
- Despite a small number of known CDNs, the study suggests that the recurrence of advantageous mutations in a large population can help identify nearly all CDNs.
- Identifying the complete set of CDNs would enhance our understanding of tumor evolution and improve the effectiveness of targeted therapies against cancer.
Article Abstract
Tumorigenesis, like most complex genetic traits, is driven by the joint actions of many mutations. At the nucleotide level, such mutations are cancer-driving nucleotides (CDNs). The full sets of CDNs are necessary, and perhaps even sufficient, for the understanding and treatment of each cancer patient. Currently, only a small fraction of CDNs is known as most mutations accrued in tumors are not drivers. We now develop the theory of CDNs on the basis that cancer evolution is massively repeated in millions of individuals. Hence, any advantageous mutation should recur frequently and, conversely, any mutation that does not is either a passenger or deleterious mutation. In the TCGA cancer database (sample size =300-1000), point mutations may recur in out of patients. This study explores a wide range of mutation characteristics to determine the limit of recurrences () driven solely by neutral evolution. Since no neutral mutation can reach =3, all mutations recurring at ≥3 are CDNs. The theory shows the feasibility of identifying almost all CDNs if increases to 100,000 for each cancer type. At present, only <10% of CDNs have been identified. When the full sets of CDNs are identified, the evolutionary mechanism of tumorigenesis in each case can be known and, importantly, gene targeted therapy will be far more effective in treatment and robust against drug resistance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11651657 | PMC |
| http://dx.doi.org/10.7554/eLife.99340 | DOI Listing |
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Article Synopsis
- Tumorigenesis is influenced by numerous mutations, particularly cancer-driving nucleotides (CDNs), which are essential for understanding and treating cancer patients.
- Despite a small number of known CDNs, the study suggests that the recurrence of advantageous mutations in a large population can help identify nearly all CDNs.
- Identifying the complete set of CDNs would enhance our understanding of tumor evolution and improve the effectiveness of targeted therapies against cancer.
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Sheffield Trophoblastic Disease Centre, Sheffield Teaching Hospitals NHS Foundation Trust, Sheffield, UK; Sheffield Teaching Hospitals NHS Foundation Trust, Sheffield, UK.
Introduction: Gestational trophoblastic neoplasia (GTN) is rare in the UK, with an estimated incidence of one in 50,000 live births. Cases of vaginal metastasis are even rarer, with only eight case series reporting 187 cases over the past 40 years. Management recommendations in the literature are scarce despite the potential risk of massive, potentially life-threatening vaginal haemorrhage.
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