Clustered regularly interspersed short palindromic repeats (CRISPR) gene editing has been largely confined to laboratory use or tested in agricultural trials. I believe that is true worldwide excepting the CRISPR twin scandal. (There are numerous postings about the CRISPR twins here including a Nov. 28, 2018 post, a May 17, 2019 post, and a June 20, 2019 post. Update: It was reported (3rd. para.) in December 2019 that He had been sentenced to three years jail time.)
Connie Lin in a May 7, 2020 article for Fast Company reports on this surprising decision by the US Food and Drug Administration (FDA), Note: A link has been removed),
The U.S. Food and Drug Administration has granted Emergency Use Authorization to a COVID-19 test that uses controversial gene-editing technology CRISPR.
This marks the first time CRISPR has been authorized by the FDA, although only for the purpose of detecting the coronavirus, and not for its far more contentious applications. The new test kit, developed by Cambridge, Massachusetts-based Sherlock Biosciences, will be deployed in laboratories certified to carry out high-complexity procedures and is “rapid,” returning results in about an hour as opposed to those that rely on the standard polymerase chain reaction method, which typically requires six hours.
The announcement was made in the FDA’s Coronavirus (COVID-19) Update: May 7, 2020 Daily Roundup (4th item in the bulleted list), Or, you can read the May 6, 2020 letter (PDF) sent to John Vozella of Sherlock Biosciences by the FDA.
As well, there’s the May 7, 2020 Sherlock BioSciences news release (the most informative of the lot),
Sherlock Biosciences, an Engineering Biology company dedicated to making diagnostic testing better, faster and more affordable, today announced the company has received Emergency Use Authorization (EUA) from the U.S. Food and Drug Administration (FDA) for its Sherlock™ CRISPR SARS-CoV-2 kit for the detection of the virus that causes COVID-19, providing results in approximately one hour.
“While it has only been a little over a year since the launch of Sherlock Biosciences, today we have made history with the very first FDA-authorized use of CRISPR technology, which will be used to rapidly identify the virus that causes COVID-19,” said Rahul Dhanda, co-founder, president and CEO of Sherlock Biosciences. “We are committed to providing this initial wave of testing kits to physicians, laboratory experts and researchers worldwide to enable them to assist frontline workers leading the charge against this pandemic.”
The Sherlock™ CRISPR SARS-CoV-2 test kit is designed for use in laboratories certified under the Clinical Laboratory Improvement Amendments of 1988 (CLIA), 42 U.S.C. §263a, to perform high complexity tests. Based on the SHERLOCK method, which stands for Specific High-sensitivity Enzymatic Reporter unLOCKing, the kit works by programming a CRISPR molecule to detect the presence of a specific genetic signature – in this case, the genetic signature for SARS-CoV-2 – in a nasal swab, nasopharyngeal swab, oropharyngeal swab or bronchoalveolar lavage (BAL) specimen. When the signature is found, the CRISPR enzyme is activated and releases a detectable signal. In addition to SHERLOCK, the company is also developing its INSPECTR™ platform to create an instrument-free, handheld test – similar to that of an at-home pregnancy test – that utilizes Sherlock Biosciences’ Synthetic Biology platform to provide rapid detection of a genetic match of the SARS-CoV-2 virus.
“When our lab collaborated with Dr. Feng Zhang’s team to develop SHERLOCK, we believed that this CRISPR-based diagnostic method would have a significant impact on global health,” said James J. Collins, co-founder and board member of Sherlock Biosciences and Termeer Professor of Medical Engineering and Science for MIT’s Institute for Medical Engineering and Science (IMES) and Department of Biological Engineering. “During what is a major healthcare crisis across the globe, we are heartened that the first FDA-authorized use of CRISPR will aid in the fight against this global COVID-19 pandemic.”
Access to rapid diagnostics is critical for combating this pandemic and is a primary focus for Sherlock Biosciences co-founder and board member, David R. Walt, Ph.D., who co-leads the Mass [Massachusetts] General Brigham Center for COVID Innovation.
“SHERLOCK enables rapid identification of a single alteration in a DNA or RNA sequence in a single molecule,” said Dr. Walt. “That precision, coupled with its capability to be deployed to multiplex over 100 targets or as a simple point-of-care system, will make it a critical addition to the arsenal of rapid diagnostics already being used to detect COVID-19.”
This development is particularly interesting since there was a major intellectual property dispute over CRISPR between the Broad Institute (a Harvard University and Massachusetts Institute of Technology [MIT] joint initiative), and the University of California at Berkeley (UC Berkeley). The Broad Institute mostly won in the first round of the patent fight, as I noted in a March 15, 2017 post but, as far as I’m aware, UC Berkeley is still disputing that decision.
In the period before receiving authorization, it appears that Sherlock Biosciences was doing a little public relations and ‘consciousness raising’ work. Here’s a sample from a May 5, 2020 article by Sharon Begley for STAT (Note: Links have been removed),
The revolutionary genetic technique better known for its potential to cure thousands of inherited diseases could also solve the challenge of Covid-19 diagnostic testing, scientists announced on Tuesday. A team headed by biologist Feng Zhang of the McGovern Institute at MIT and the Broad Institute has repurposed the genome-editing tool CRISPR into a test able to quickly detect as few as 100 coronavirus particles in a swab or saliva sample.
Crucially, the technique, dubbed a “one pot” protocol, works in a single test tube and does not require the many specialty chemicals, or reagents, whose shortage has hampered the rollout of widespread Covid-19 testing in the U.S. It takes about an hour to get results, requires minimal handling, and in preliminary studies has been highly accurate, Zhang told STAT. He and his colleagues, led by the McGovern’s Jonathan Gootenberg and Omar Abudayyeh, released the protocol on their STOPCovid.science website.
Because the test has not been approved by the Food and Drug Administration, it is only for research purposes for now. But minutes before speaking to STAT on Monday, Zhang and his colleagues were on a conference call with FDA officials about what they needed to do to receive an “emergency use authorization” that would allow clinical use of the test. The FDA has used EUAs to fast-track Covid-19 diagnostics as well as experimental therapies, including remdesivir, after less extensive testing than usually required.
For an EUA, the agency will require the scientists to validate the test, which they call STOPCovid, on dozens to hundreds of samples. Although “it is still early in the process,” Zhang said, he and his colleagues are confident enough in its accuracy that they are conferring with potential commercial partners who could turn the test into a cartridge-like device, similar to a pregnancy test, enabling Covid-19 testing at doctor offices and other point-of-care sites.
“It could potentially even be used at home or at workplaces,” Zhang said. “It’s inexpensive, does not require a lab, and can return results within an hour using a paper strip, not unlike a pregnancy test. This helps address the urgent need for widespread, accurate, inexpensive, and accessible Covid-19 testing.” Public health experts say the availability of such a test is one of the keys to safely reopening society, which will require widespread testing, and then tracing and possibly isolating the contacts of those who test positive.
If you have time, do read Begley’s in full.