Safety considerations for cereblon-recruiting targeted protein degraders
Summary
Targeted protein degraders (TPDs) that recruit the E3 ligase cereblon (CRBN) include two innovative drug classes: molecular glue degraders and proteolysis targeting chimeras. These TPDs have shown great promise in addressing difficult drug targets in oncologic and non-oncologic diseases; however, as well as inducing proteosomal degradation of their therapeutic target, they can also lead to degradation of unintended CRBN neosubstrates. This is a major safety consideration because many CRBN-
Content
# Safety considerations for cereblon-recruiting targeted protein degraders
*Published: 2026 Apr 20*
Targeted protein degraders (TPDs) that recruit the E3 ligase cereblon (CRBN)
include two innovative drug classes: molecular glue degraders and proteolysis
targeting chimeras. These TPDs have shown great promise in addressing difficult
drug targets in oncologic and non-oncologic diseases; however, as well as
inducing proteosomal degradation of their therapeutic target, they can also lead
to degradation of unintended CRBN neosubstrates. This is a major safety
consideration because many CRBN-recruiting TPDs are structurally related to
thalidomide and other immunomodulatory imide drugs that are known to be
teratogenic. The teratogenic effect of immunomodulatory imide drugs is due in
part to their induction of CRBN-mediated neosubstrate degradation. Therefore,
there is a need for a scientific consensus on rigorous, consistent and effective
methods to assess the safety of CRBN-recruiting TPDs. Here, we provide an
overview of the endogenous functions and substrates of CRBN as well as of the
role of CRBN as the effector of immunomodulatory imide drugs, next-generation
molecular glue degraders and proteolysis targeting chimeras. We discuss how
degradation of unintended 'off-target' CRBN neosubstrates could potentially
cause toxicity or safety liabilities in multiple organ systems as well as induce
teratogenic effects. We outline key safety considerations for the development of
CRBN-recruiting TPDs and suggest best practices for monitoring on-target versus
off-target degradation.
DOI: 10.1038/s41573-026-01426-2