In a step that some of the nations leading scientists have long warned against and that has never before been accomplished, biologists in Oregon have edited the DNA of viable human embryos efficiently and apparently with few mistakes, according to areportin Technology Review.The experiment, using the revolutionary genome-editing techniqueCRISPR-Cas9, was led byShoukhrat Mitalipovof Oregon Health & Science University. It went beyond previous experiments using CRISPR to alter the DNA of human embryos, all of which were conducted in China, in that it edited the genomes of many more embryos and targeted a gene associated with a significant human disease.This is the kind of research that is essential if we are to know if its possible to safely and precisely make corrections in embryos DNA to repair disease-causing genes, legal scholar and bioethicist R. Alta Charo of the University of Wisconsin, Madison, told STAT. While there will be time for the public to decide if they want to get rid of regulatory obstacles to these studies, I do not find them inherently unethical. Those regulatory barriers include abanon using National Institutes of Health funding for experiments that use genome-editing technologies in human embryos.Thefirstexperiment using CRISPR to alter the DNA of human embryos, in 2015, used embryos obtained from fertility clinics that had such serious genetic defects they could never have developed. In the new work, Technology Review reported, Mitalipov and his colleagues created human embryos using sperm donated by men with the genetic mutation that they planned to try to repair with CRISPR. The embryos are described as clinical quality. A 2017experiment, also in China, used CRISPR to edit DNA in normal, presumably viable fertilized eggs, or one-cell human embryos.Also in contrast to the experiments in China, those led by Mitalipov reportedly produced very few off-target effects, or editing of genes that CRISPR was supposed to leave alone. And the experiment avoided what is called mosaicism, in which only some cells of an embryo have the intended DNA changes. The embryos were not allowed to develop beyond a very early stage.Because changing the DNA of an early embryo results in changes to cells that will eventually produce sperm and eggs, if the embryo is born and grows to adulthood, any children he or she has will inherit the genetic alteration, which is called germline editing. That has led to fears that such manipulations could alter the course of human evolution.It has also triggered warnings about designer babies, in which parents customize their IVF embryos by adding, removing, or changing genes for certain traits.A recentreporton genome editing from the National Academies did not call for a moratorium on research into germline editing, arguing that it might one day be a way for some parents to have healthy, biological children, such as when both mother and father carry genetic mutations that cause severe diseases.But we anticipated that there would need to be a lot of research to see if you could make these changes without any unintentional effects,said Charo, who co-chaired the Academies committee. Mitalipov, who did not respond to requests for comment, has now shown that the answer to that might be yes.Some scholars questioned how important the new study is, however. Stanford University law professor and bioethicist Hank Greelytweetedthat the key point is that no one has tried to implant any edited embryos. Research embryos that are not to be transferred for possible implantation are not a big deal, heargued.This story has been updated with additional comments by experts and details of similar experiments.SEE ALSO:A surgeon aiming to do the first human head transplant says 'Frankenstein' predicted a crucial part of the surgeryDON'T MISS:Monsanto may have just ended the war on GMOs using gene-editing tool CRISPRJoin the conversation about this storyNOW WATCH: See how geologists scoop molten-hot lava into a bucket for testing
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