CRISPR toolbox gets two new molecular gadgets, boosting gene …
Posted: October 25, 2017 at 5:47 pm
T
he acronyms might not be quite as catchy as CRISPR since, really, what is? but what new genetic tools dubbed REPAIR and ABE lack in whimsy they promise to make up in utility. These advances announced Wednesday solve two of the problems hobbling CRISPR, the revolutionary genome-editing technique: that its idea of editing is often like 1,000 monkeys editing a Word document, and that making permanent changes to DNA might not be the best approach.
Together, the discoveries, described in separate studies, show that five years after scientists demonstratedthat CRISPR can edit DNA, bioengineers are still racing to develop the most efficient, precise, versatile and therefore lucrative genome-editing tools possible.
One reason these are so exciting is, they show the CRISPR toolbox is still growing, said chemical engineer Gene Yeo of the University of California, San Diego. There are going to be a lot more, and its not going to stop anytime soon. His lab has been working on one of the CRISPR advances but was not involved in either of the two new studies its personally frustrating to get beaten, he added.
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One discovery, led by biochemist David Liu of Harvard University, extends his 2016 inventionof a way to change a single DNA letter, or base, on the 3-billion-letter-long human genome. Classic CRISPR cuts DNA with a molecular scissors and leaves the cell to repair the breach willy nilly, introducing the problem of 1,000 monkeys editing away. In contrast, Liusbase editor replaces the molecular scissors with something like a pencil wielded by an expert forger: It is an enzyme that literally rearranges atoms cleanly and without collateral damage that the cell needs to fix.
As in classic CRISPR, this version finds its way to a target on the genome via a molecule that acts like a bloodhound. Attached to the bloodhound is the atom-rearranger, which in Lius 2016 version turned the DNA letterG into A. Thousands of genetic diseases arise because a gene has a G where it should have an A,so the edit might one day treat or prevent them.
But other inherited disorders need different alphabetical magic. Thats what Liu, postdoctoral fellows Nicole Gaudelli and Alexis Komor, and their colleagues report in a paper in Nature: Their new ABE (adenine base editor) can turn A into G.Attached to CRISPRs bloodhound molecule, ABE works at virtually any target site in genomic DNA, Liu said.
In tests so far, it changed DNA in more of the lab-grown human cells thatit was slipped into than standard CRISPR (for all its fame, CRISPR often bungles the job). ABE also seems to make fewer off-target edits: In one test, it mistakenly hit four of the 12 off-target sites, compared to CRISPRs nine, and made that mistake in 1.3 percent of cases compared to 14 percent for CRISPR, Liu said.
About half of the 32,000 known disease-causing, single-letter mutations have one of the misspellings that ABE can fix, Liu said. They include sickle cell, Tay-Sachs, and cystic fibrosis, raising hopes that ABE could be used to treat these diseases, or (in early embryos) prevent them.In tests of cells growing in lab dishes, ABE reversed the mutation that causes hereditary hemochromatosis in about 30 percent of the cells, and changed another gene into a form that prevents sickle cell disease even in people who have its disease-causing mutation.
As with all forms of CRISPR, before ABE helps any patients, scientists will have to test whether its safe and effective. But having the molecular machine is a good start, said Liu, a co-founder of the CRISPR company Editas Medicine. He and colleagues have filed for patents on ABE.
Harvard biologist George Church, who tied for first in the race to make CRISPR work in human cells, called base editing especially interesting. Changing a single DNA letter, he said, means fewer worries about the editing enzyme [in classic CRISPR] later going rogue or silent. He also expects that crops with a single base change will not be designated as transgenic, reducing regulatory barriers to commercialization.
In a separate study, CRISPR pioneer Feng Zhang of the Broad Institute and his colleagues discovered a new version of CRISPR that can edit RNA, DNAs friskier cousin. While DNA mostly sits sedately in cells and issues orders to make proteins that keep life living, RNA zips around the cell carrying out those orders, and then disappears. That makes RNA a tantalizing target: By editing the errant orders (RNA) rather than their issuer (DNA), scientists might be able to make temporary, reversible genetic edits, rather than CRISPRs permanent ones.
Editing DNA is hard to reverse, but once you stop providing the RNA-editing system, the changes will disappear over time, said Zhang, also a co-founder of Editas. That might make it possible to treat conditions where you dont need a permanent edit, such as when the immune system is in overdrive and causing inflammation.
To create what Zhang and his colleagues call REPAIR (RNA editing for programmable A to I [G] replacement), they fused an enzyme that binds to RNA with one that changes the RNA letter A (adenosine) to inosine, a molecule similar tothe RNA letter G (guanosine), they report in Science.Other labs, including that of CRISPR developer Jennifer Doudna of the University of California, Berkeley, have also developed RNA editors, including one using the same Cas13 enzyme. But REPAIRs creators say theirs is more efficient and less error-prone.
In tests on human cells growing in the lab, REPAIR corrected misspellings in theRNA that was made by disease-causing DNA in this case, Fanconi anemia, an inherited and devastating bone marrow disease, or nephrogenic diabetes insipidus, a serious inborn kidney disease. Although the DNA still had its disease-causing mutations, 23 percent and 35 percent, respectively, of the RNA made by those defective genes was REPAIRed. Those levels might be high enough to treat the diseases. Some 5,800 inherited diseases are the result of the G-to-A glitch that REPAIR can fix, including epilepsy and Duchenne muscular dystrophy.
Both REPAIR and ABE might venture where CRISPR stumbles: in mature cells, like neurons, that dont divide. In unpublished research, Liu said, he and his team have shown that ABE can edit genes in neurons, raising the possibility of treating devastating neurological diseases with ABE.
The furious race to improve CRISPR, via ABE or REPAIR or whatever comes next, Church said, are potent reminders of how far CRISPR is from precise genome-editing in humans.
Senior Writer, Science and Discovery
Sharon covers science and discovery.
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CRISPR toolbox gets two new molecular gadgets, boosting gene ...
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