The authors all disagree with the journal editor’s expression of concern “because our studies point to unexpected mutations” caused by CRISPR

The journal Nature Methods has added an expression of concern to a 2017 paper that drew fire from GMO proponents for suggesting that the CRISPR gene-editing technique caused widespread collateral damage to the genome.

GMWatch has reported on the paper here, here, and here.

While this paper in particular has angered proponents of CRISPR, there is plenty of other scientific evidence showing that the technique has off-target and unintended effects.
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Controversial CRISPR paper earns second editorial note

by Andrew P. Han
Retraction Watch, 26 July 2017
http://retractionwatch.com/2017/07/26/controversial-crispr-paper-earns-second-editorial-note/
[links to sources at the URL above]

Against the authors’ objections, Nature Methods has added an expression of concern to a 2017 paper that drew fire for suggesting a common gene editing technique could cause widespread collateral damage to the genome. The latest note — the second to be added in two months — alerts readers to an alternative interpretation of the findings.

When “Unexpected mutations after CRISPR–Cas9 editing in vivo” was published May 30, it immediately drew criticism from many of the top scientists working with CRISPR, including those associated with companies seeking to develop CRISPR-based therapies for humans. Share prices for the two largest companies pursuing CRISPR therapies, Editas Medicine and Intellia Therapeutics, dropped following publication of the article.

On June 14, the journal published a notice to alert readers to “technical criticisms” of the paper. Apparently, that wasn’t sufficient, because the journal is now providing more details on the nature of the criticisms, despite the objections of the paper’s authors:

“The editors of Nature Methods are issuing an editorial expression of concern regarding this paper to alert our readers to concerns about interpretation of the data. Multiple groups have questioned the interpretation that single nucleotide changes seen in whole genome sequences of two CRISPR/Cas9-treated mice are due to the CRISPR treatment. Since the background genetic variation between the control mouse and the CRISPR-treated animals is not known, an alternative proposed interpretation is that the observed changes are due to normal genetic variation. We are in contact with the critics and with the authors to examine this matter further. We will update our readers once these investigations are complete. All the authors do not agree with the journal’s decision to issue an editorial expression of concern.”

Study author Alexander Bassuk, of the University of Iowa, told us he and his co-authors first learned the journal would be publishing an EOC two weeks ago via email:

“The journal did not really discuss their reasoning much with us.”

Bassuk told Retraction Watch that the email came as he and his co-authors were preparing a response to critiques raised by Editas and Intellia, which he said the journal had requested about a month ago.

He added that the authors all disagreed with the expression of concern “because our studies point to unexpected mutations” caused by CRISPR/Cas9, though he welcomes “robust discussion” on this topic.

The “alternative proposed interpretation” mentioned in the EOC has been highlighted by two high-profile co-founders of Editas Medicine: George Church, of Harvard Medical School, and Keith Joung, of Massachusetts General Hospital. When we reported on the first editorial notice, Church told us:

“If they haven’t ruled out that [the genetic difference] is due to the strain differences, it’s probably due to the strain differences, based on published strain characterizations.”

On July 5, Joung and several co-authors posted a paper to the Biorxiv preprint server advancing the same idea:

“Here we demonstrate that the simplest interpretation of Schaefer et al.’s data is that the two CRISPR-Cas9-treated mice are actually more closely related genetically to each other than to the control mouse. This strongly suggests that the so-called “unexpected mutations” simply represent SNPs and indels shared in common by these mice prior to nuclease treatment.”

Bassuk said his team is “excited” to submit their response to criticisms of the paper, which is almost complete and will be sent to the journal in just a few days:

“We found that a deeper look at our already publicly available whole genome sequencing data, combined with Sanger sequencing, demonstrates many alleles (more than two in each case we examined), including multiple [single nucleotide variants], at CRISPR/Cas9 off-target mutation sites we originally reported. These multiple mutant alleles cannot be simply explained by parental inheritance, so this is very exciting news.”

A Springer Nature spokesperson declined to confirm that it had asked Bassuk’s team for a reply to criticisms, saying it treats “individual correspondences as confidential.” As for why the journal felt another note was necessary:

We decided to issue an [Editorial EOC] at this time as, following initial consultations with authors, critics and referees, we believed it was important to provide further information to the community about concerns about the paper whilst we continued to investigate them.