It’s been hailed as one of the most potentially transformative inventions in modern medicine, bringing the prospect of designer babies closer than any other technology to date, but CRISPR-Cas9 could be riskier than we thought.
The technology that could spark a gene-editing revolution has been caught introducing hundreds of unintended mutations into the genome, and with scientists already testing it in humans, it’s set off some serious alarm bells.
“We feel it’s critical that the scientific community consider the potential hazards of all off-target mutations caused by CRISPR, including single nucleotide mutations and mutations in non-coding regions of the genome,” says Stephen Tsang from the Columbia University Medical Centre.
Tsang and his team have conducted the first whole-genome screening of a living organism that’s undergone CRISPR gene-editing to discover that unwanted mutations can crop up in areas that are totally unrelated to the targeted genes.
These mutations have likely been missed by previous studies because they’ve been using computer algorithms that are designed to identify and scan areas on the genome that are most likely to be affected, based on what’s been edited.
“These predictive algorithms seem to do a good job when CRISPR is performed in cells or tissues in a dish, but whole genome sequencing has not been employed to look for all off-target effects in living animals,” says one of the team, Alexander Bassuk from the University of Iowa.
If you’ve somehow missed the CRISPR-Cas9 hype train, we started hearing about it a few years ago, when the technology was already being touted as a “revolution”,based on its ability to make specific edits to the DNA of humans, other animals, and plants.
The technique works like a biological ‘cut and paste’ tool, where researchers use a protein to seek out a particular gene and cut it out of the genome, replacing it with DNA of their choice – for example, they could swap a defective gene for a healthy one.
And unlike many promising medical inventions, CRISPR has continued to live up to its potential.
In recent years, it’s been used to tap into cancer’s ‘control centre’, repair a mutation that causes blindness, treat genetic disease in living animals, and even modify human embryos to figure out what causes infertility and miscarriage.
In fact, some researchers are predicting that it could soon trigger some serious competition between China and the US – a kind of biomedical equivalent of the original Space Race.
“I think this is going to trigger ‘Sputnik 2.0’, a biomedical duel on progress between China and the United States,” Carl June, an immunotherapist from the University of Pennsylvania and a scientific adviser on next year’s US CRISPR trial, told Naturelate last year.
Now researchers have found evidence that the unwanted mutations brought on by CRISPR in living animals could be a more widespread than we thought.
Tsang and his team sequenced the entire genome of two mice that had undergone CRISPR gene-editing in a previous study, and one healthy control.
They were looking for any mutations linked to the technology, including those that only altered a single nucleotide – molecules that serve as the building blocks of DNA and RNA.
They found that the technique had successfully corrected a gene that causes blindness in the mice, but the two mice that had undergone CRISPR gene-editing had sustained more than 1,500 unintended single-nucleotide mutations, and more than 100 larger deletions and insertions.
“None of these DNA mutations were predicted by computer algorithms that are widely used by researchers to look for off-target effects,” the team reports.
You can see the results for the two gene-edited mice below, including the unintended single-nucleotide mutations and larger deletions and insertions in the first two rows:
T. Tsang et. al./Nature Methods
To be clear, the find doesn’t necessarily mean that CRISPR is unsuitable for use in humans going forward – more research is now needed to see if these results can be replicated in larger samples, and in humans, rather than mice.
But it’s like discovering that a medical treatment could be having potentially serious and long-term side effects – and our tests aren’t picking them up.
The researchers are now urging for better screening tests for off-target mutations to be applied to CRISPR research immediately.
“We’re still upbeat about CRISPR,” says one of the team, Vinit Mahajan from Stanford University.
“We’re physicians, and we know that every new therapy has some potential side effects – but we need to be aware of what they are.”
The research has been accepted for an upcoming edition of Nature Methods.
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