Bill Gates endorsed the use of a powerful and controversial new gene-editing tool to create malaria-resistant mosquitoes in an interview with Bloomberg News today.
A handful of scientists have already created mosquitoes that are either
infertile or resistant to the malaria parasite using CRISPR, a genetic
cut-and-paste tool that allows researchers to precisely edit DNA. In
several cases, researchers have also employed a related technology known
as gene drives, which are designed to ensure the traits that scientists
introduce are passed along to successive generations the majority of
the time. That tool, which effectively identifies and snips out the
naturally occurring form of DNA when it appears in offspring, promises
to rapidly spread malaria-resistance through mosquito populations. And
that’s what Gates said could offer a powerful weapon against the
disease.
“Gene drives, I do think, over the next three to five years will be
developed in a form that will be extremely beneficial,” he said in the
interview, ahead of speaking at the American Society for Microbiology
conference in Boston. “Of course, that makes it a key tool to reduce
malaria deaths.”
Malaria, which is spread through the bites of female Anopheles
mosquitoes, infects more than 200 million people each year and kills
nearly 500,000, most of whom are children, according to the World Health
Organization. That’s why the Bill and Melinda Gates Foundation has
poured resources into combating the disease for years, including a $150
million grant in 2014 to develop vaccines.
If gene drives work as expected, they could become one of the most
effective tools against malaria, as well as other infectious diseases.
But the raw power of the technology raises a new set of concerns as
well. Any unexpected side effects on the species would also ripple
through the populations and their ecosystems, a fact that could
exacerbate already widespread public fears over genetica
Given the capabilities of CRISPR and gene drives, a growing number of
policy makers and scientists have been pushing for limits on the use of
these technologies and new approaches to this area of research. Some,
notably including Kevin Esvelt at MIT, are also developing technological
safeguards that could limit the spread of gene drives outside of the
lab or within the wild. That includes so called “daisy-chain” gene
drives that fade away after several generations, a concept unveiled
earlier this month.
“We need to pioneer a new method for developing this technology,” Esvelt
said in a phone call with The Verge late last year. “And public
notification and discussion should always take place before experiments
begin in the lab
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