Broad Institute, Harvard, and MIT license CRISPR-Cas9 technology to Editas

The Broad Institute, Harvard University, the Massachusetts Institute of Technology and Editas Medicine have entered into a worldwide license agreement to grant Editas access to intellectual property related to certain genome editing technology for the development of human therapeutic applications.

The agreement relates to technology that engineers the CRISPR-Cas9 system–a naturally-occurring part of the bacterial immune system. Researchers at Harvard Medical School, the Wyss Institute for Biologically Inspired Engineering at Harvard University, Broad Institute, MIT, the McGovern Institute for Brain Research at MIT, and Harvard University Faculty of Arts and Sciences (FAS), have optimized the CRISPR-Cas9 system to allow for insertion, replacement, and regulation of targeted genes in higher organisms, with the potential to one day be used in humans. This technology has wide-ranging therapeutic potential and could lay the groundwork for treating diseases where a gene’s expression needs to be altered (such as turning down CCR5 in HIV), or where a mutation needs to be repaired (such as sickle cell diseases or hemophilia). In addition to their therapeutic implications, CRISPR-Cas9 systems enable scientists to modify genes and better understand the biology of living cells and organisms.

“The Broad, MIT, and Harvard share the goal of developing innovative technologies such as CRISPR-Cas9 and promoting their translation to benefit patients,” said Eric Lander, president and director of the Broad Institute. “We’re committed to making these technologies broadly available for research and also ensuring that therapeutic development – bringing this technology to the clinic – has the best chance of success.”

The agreement includes a mechanism to ensure that no promising target genes will be neglected; genes that are not being pursued by Editas will be made available for licensing to other parties so that new medicines based on this technology can be developed for any disease that could be treated by this approach. Broad Institute, MIT, and Harvard University partners have made CRISPR-Cas9 technology broadly available to the research community, and have freely granted licenses to academic scientists, and non-exclusively to industry partners, for development of research tools and reagents and will continue to do so.

Also included in the agreement are additional technologies relating to engineering and optimization of transcription activator-like effector (TALE) proteins that can also be programmed to target and modify specific genes, as well as a novel protein-based drug delivery system, which could potentially achieve up to one thousand-fold more effective drug delivery than conventional methods.

“We have already seen how the CRISPR molecular system has proven to be so powerful in basic research,” said Jeffrey S. Flier, Dean of Harvard Medical School. “The potential for this approach to translate into new ways to treat human conditions that have proved vexing is compelling and warrants new and innovative collaborations among academia and industry.”

“The CRISPR-Cas9 technology represents yet another great example of how new insights into nature’s design principles can be rapidly leveraged to develop new engineering innovations, in this case genome reengineering methods that can be used to create an entirely new class of targeted therapeutics”, said Wyss Institute Founding Director Donald Ingber, M.D., Ph.D. “This breakthrough also demonstrates our collective commitment to accelerate the transition from fundamental discovery to clinical application.”

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