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A Molecular Glue Approach to Control the Half-Life of CRISPR-Based Technologies

Authors
Sreekanth, VedagopuramJan, MaxZhao, Kevin T.Lim, DonghyunSiriwongsup, SurachedDavis, Jessie R.McConkey, MarieKovalcik, VeronicaBarkal, SamChoudhary, AmitLaw, Benjamin K.Fife, JamesTian, N.Vinyard, Michael E.Becerra, BasheerKampmann, MartinSherwood, Richard I.Pinello, LucaLiu, David R.Ebert, Benjamin L.
Issue Date
Jun-2025
Publisher
American Chemical Society
Citation
Journal of the American Chemical Society, v.147, no.27, pp 23844 - 23856
Pages
13
Indexed
SCIE
SCOPUS
Journal Title
Journal of the American Chemical Society
Volume
147
Number
27
Start Page
23844
End Page
23856
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/208355
DOI
10.1021/jacs.5c06230
ISSN
0002-7863
1520-5126
Abstract
Cas9 is a programmable nuclease that has furnished transformative technologies, including base editors and transcription modulators (e.g., CRISPRi/a), but several applications of these technologies, including therapeutics, mandatorily require precision control of their half-life. For example, such control can help avert any potential immunological and adverse events in clinical trials. Current genome editing technologies to control the half-life of Cas9 are slow, have lower activity, involve fusion of large response elements (>230 amino acids), utilize expensive controllers with poor pharmacological attributes, and cannot be implemented in vivo on several CRISPR-based technologies. We report a general platform for half-life control using the molecular glue, pomalidomide, that binds to a ubiquitin ligase complex and a response-element bearing CRISPR-based technology, thereby causing the latter's rapid ubiquitination and degradation. Using pomalidomide, we were able to control the half-life of large CRISPR-based technologies (e.g., base editors and CRISPRi) and small anti-CRISPRs that inhibit such technologies, allowing us to build the first examples of on-switch for base editors. The ability to switch on, fine-tune, and switch-off CRISPR-based technologies with pomalidomide allowed complete control over their activity, specificity, and genome editing outcome. Importantly, the miniature size of the response element and favorable pharmacological attributes of the drug pomalidomide allowed control of activity of base editor in vivo using AAV as the delivery vehicle. These studies provide methods and reagents to precisely control the dosage and half-life of CRISPR-based technologies, propelling their therapeutic development.
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