Researchers have shown that genetic diversity plays a key role in enabling drug resistance to evolve. Scientists at the Wellcome Trust Sanger Institute and the Institute for Research on Cancer and Ageing of Nice in France, show that high genetic diversity can prime new mutations that cause drug resistance. The study published today (17 October) inCell Reportshas implications for our understanding of the evolution of resistance to antimicrobial and anticancer drugs.
The World Health Organization classes antimicrobial resistance as one of the biggest threats to global health today. Currently 700,000 deaths a year worldwide, with 25,000 of those in the EU and 23,000 in the USA are linked to antimicrobial resistance. These figures are projected to rise to 10 million deaths a year by 2050 if nothing is done to tackle the problem. Equally, cancer is linked to 8.2 million annual deaths worldwide, with chemotherapy resistance a major limitation to treatment.
Previous studies had linked high genetic diversity within bacterial infections or in cancers with poor outcomes for patients treated with antimicrobial or chemotherapy drugs. Researchers in this study used budding yeast, creating populations of cells with more than 10 million different randomized genomes, to investigate how genetic diversity affected resistance. They evolved these to grow in antimicrobial drugs over 4 weeks and then studied the sensitive and resistant yeast cells.
Dr Ignacio Vazquez-Garcia, the first author from the Wellcome Trust Sanger Institute and University of Cambridge, said: "We found that the degree of diversity within the cell population - known as clonal heterogeneity - played a major role in the acquisition of antimicrobial resistance. By sequencing the genomes of sensitive and resistant cells we showed that some cells were pre-adapted, or primed, while other cells acquired new mutations to gain resistance."
By then crossing the evolved strains, the researchers were able to investigate the complex evolutionary processes involved in developing resistance. They were able to see not only which mutations drove resistance - called driver mutations - but also how the background mutations affected these.
They discovered two types of driver mutations. Cells with weak driver mutations needed other background mutations to grow well in antimicrobial drugs, however cells with strong driver mutations developed resistance to drugs regardless of the genetic background.
Professor Gianni Liti, a senior author on the paper from the Institute for Research on Cancer and Ageing, Nice, said: "We were able to study the evolution in time by combining genome sequences of the cell populations and tracking the growth characteristics of the yeast cells. We found that the genetic background had a major influence on whether or not weaker mutations would confer drug resistance, and in these cases many different cells adapted in a wave. However, with any genetic background, cells with strong driver mutations could "leapfrog" and outcompete other cells growing in the drugs."
Professor Ville Mustonen, Senior author from the University of Helsinki and previously at the Wellcome Trust Sanger Institute, said: "Our study helps understand the evolution of drug resistance, and has implications not just for yeast, but also for bacteria and cancer. Whilst further study is needed, we are building evidence to show that genetic diversity in a bacterial infection or in a tumor being treated could lay the foundation for resistance to the therapy and affect how quickly resistance develops."
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