A single genetic mutation made humans more susceptible to cancer
Since we split from chimpanzees, a single letter change in our DNA appears to have made us more likely to get cancer, possibly as a trade-off for extra fertility
3 May 2022
A tiny change in our DNA that occurred after we evolved away from other primates has made us more prone to getting cancer, new research suggests.
Cancer is relatively rare in other primates. For example, autopsies of 971 non-human primates that died at Philadelphia Zoo in Pennsylvania between 1901 and 1932 found that only eight had tumours.
To learn why we are more susceptible to cancer, Christine Iacobuzio-Donahue at Memorial Sloan Kettering Cancer Center in New York and her colleagues compared hundreds of genes between humans and 12 non-human primate species.
They discovered that we have evolved a slightly different version of a gene called BRCA2 since we split from chimpanzees.
BRCA2 is known as a tumour suppressor gene because it is involved in DNA repair. However, the researchers found that a single DNA letter change in the human BRCA2 gene has made it 20 per cent worse at repairing DNA compared with other primate versions of the gene, which could explain our higher cancer rates.
The finding adds to existing knowledge about the role of BRCA2 in human cancer. For example, we know that people with certain variants of the BRCA2 gene that suppress its repair activities further have even greater risk of developing cancer, particularly breast and ovarian cancers.
At this stage, we don’t know why BRCA2 has evolved to become less active in humans than in other primates, says Iacobuzio-Donahue. One possibility is that reduced BRCA2 activity has been selected for in humans to enhance fertility, since research shows that women with BRCA2 variants linked to cancer seem to become pregnant more easily, she says.
If so, this fertility boost may have come at the cost of higher cancer rates, she adds.
The discovery that a single mutation in the BRCA2 gene could be a major cause of human cancer might lead to new treatments, says Iacobuzio-Donahue.
For example, although gene editing in humans is a long way off, we could in theory rewrite our BRCA2 gene to make it more like non-human primate versions that are associated with lower cancer rates, she says.
Journal reference: Cell Reports, DOI: 10.1016/j.celrep.2022.110771
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