Unravelling the genetics and epigenetics of the ageing tumour microenvironment in cancer.

Somatic mutations in several genes, including key oncogenes and tumour suppressor genes, are present from early life and can accumulate as an individual ages, indicating that the potential for cancer is present and growing throughout life. However, the risk of developing cancer rises sharply after 50-60 years of age, suggesting that the ability of these mutations to undergo clonal expansion and drive cancer development is dependent on the progressive changes in the epigenome and microenvironment that occur during ageing. Epigenetic changes, including DNA methylation and histone modifications, can drive various hallmarks of ageing in precancerous cells, including induction of senescence, the senescence-associated secretory phenotype, genomic instability and reduction of nuclear integrity, metabolic and inflammatory stress responses, stem cell function and differentiation potential, and redox balance. This can also alter the normal immune and stromal cells in the tissue microenvironment, which cumulatively enhances the effects of cancer driver mutations, ultimately promoting cancer development and progression in aged individuals. Unravelling these mechanisms will provide novel preventive and therapeutic strategies to limit the burden and progression of cancer in aged individuals.