Continuous evolution of compact protein degradation tags regulated by selective molecular glues

Jaron A. M. Mercer(Broad Institute), Stephan J. DeCarlo(Broad Institute), Shourya S. Roy Burman(Harvard University), Vedagopuram Sreekanth(Broad Institute), Andrew T. Nelson(Broad Institute), Moritz Hunkeler(Harvard University), Peter J. Chen(Broad Institute), Katherine A. Donovan(Harvard University), Praveen Kokkonda(Broad Institute), Praveen K. Tiwari(Broad Institute), Veronika M. Shoba(Broad Institute), Arghya Deb(Broad Institute), Amit Choudhary(Broad Institute), Eric S. Fischer(Harvard University), David R. Liu(Broad Institute)
Science
March 14, 2024
10.1126/science.adk4422
Cited by 74Open Access
Full Text

Abstract

Conditional protein degradation tags (degrons) are usually >100 amino acids long or are triggered by small molecules with substantial off-target effects, thwarting their use as specific modulators of endogenous protein levels. We developed a phage-assisted continuous evolution platform for molecular glue complexes (MG-PACE) and evolved a 36-amino acid zinc finger (ZF) degron (SD40) that binds the ubiquitin ligase substrate receptor cereblon in complex with PT-179, an orthogonal thalidomide derivative. Endogenous proteins tagged in-frame with SD40 using prime editing are degraded by otherwise inert PT-179. Cryo-electron microscopy structures of SD40 in complex with ligand-bound cereblon revealed mechanistic insights into the molecular basis of SD40's activity and specificity. Our efforts establish a system for continuous evolution of molecular glue complexes and provide ZF tags that overcome shortcomings associated with existing degrons.

Related Papers

Identification of a Primary Target of Thalidomide Teratogenicity
Takumi Ito, Hideki Ando, Takayuki Suzuki et al.|Science|2010|2.1k
A mammalian protein targeted by G1-arresting rapamycin–receptor complex
Eric J. Brown, Mark W. Albers, Tae Bum Shin et al.|Nature|1994|2.1k
An auxin-based degron system for the rapid depletion of proteins in nonplant cells
Kohei Nishimura, Tatsuo Fukagawa, Haruhiko Takisawa et al.|Nature Methods|2009|1.8k
Lenalidomide Causes Selective Degradation of IKZF1 and IKZF3 in Multiple Myeloma Cells
Jan Krönke, Namrata D. Udeshi, Anupama Narla et al.|Science|2013|1.8k
The Myeloma Drug Lenalidomide Promotes the Cereblon-Dependent Destruction of Ikaros Proteins
Gang Lu, Richard E. Middleton, Huahang Sun et al.|Science|2013|1.5k