A research team including scientists from the CNRS has discovered that cancer, one of the leading causes of death worldwide, can be caused entirely by epigenetic changes2, in other words, changes that contribute to how gene expression is regulated, and partly explain why, despite an identical genome, an individual develops very different cells (neurons, skin cells, etc.).
While studies have already described the influence of these processes in the development of cancer, this is the first time that scientists have demonstrated that genetic mutations are not essential for the onset of the disease. This discovery forces us to reconsider the theory that, for more than 30 years, has assumed that cancers are predominantly genetic diseases caused necessarily by DNA mutations that accumulate at the genome level3.
To show this, the research team focused on epigenetic factors that can alter gene activity. By causing epigenetic dysregulation4 in Drosophila, and then restoring the cells to their normal state, scientists have found that part of the genome remains dysfunctional. This phenomenon induces a tumour state that is maintained autonomously and continues to progress, keeping in memory the cancerous status of these cells even though the signal that caused it has been restored.
These conclusions published in the journal Nature, open up new therapeutic avenues in oncology.
Source: CNRS