Epigenetic therapy meets targeted protein degradation: HDAC-PROTACs in cancer treatment
- PMID: 40667573
- DOI: 10.1080/17568919.2025.2533113
Epigenetic therapy meets targeted protein degradation: HDAC-PROTACs in cancer treatment
Abstract
Epigenetic therapy and targeted protein degradation have converged in the development of histone deacetylases (HDACs)-targeting proteolysis-targeting chimeras (PROTACs), offering a novel approach to cancer treatment. Unlike traditional HDAC inhibitors, HDAC-PROTACs facilitate selective degradation of HDACs via the ubiquitin-proteasome system, effectively eliminating both enzymatic and scaffolding functions. These bifunctional molecules recruit HDACs to E3 ligases, triggering ubiquitination and subsequent proteasomal degradation. PROTACs demonstrate catalytic activity, requiring lower dosages while sustaining prolonged effects compared to inhibitors. Advances in PROTAC chemistry have led to the development of selective degraders targeting distinct HDAC classes. Class I HDAC-targeting PROTACs, such as PROTAC 1 and PROTAC 2, induce robust degradation of HDAC1-3 with nanomolar DC50 values, showing promising anti-cancer activity. Similarly, class IIa and IIb HDAC PROTACs, including selective HDAC4 and HDAC6 degraders, exhibit potent anti-proliferative effects in leukemia, lymphoma, and multiple myeloma models. Despite these advancements, challenges persist in optimizing selectivity, linker design, and bioavailability while mitigating off-target effects. Future strategies include enhancing tumor-specific delivery, refining ligand-E3 ligase compatibility, and integrating combination therapies to overcome resistance. This review explores the mechanistic insights, therapeutic potential, and challenges associated with HDAC-targeting PROTACs, highlighting their promising role in precision oncology.
Keywords: Biomarkers; Ubiquitin-proteasome system; cancer therapy; histone deacetylases; targeted protein degradation.
Plain language summary
This article explores a new approach to cancer treatment by combining epigenetic therapy with targeted protein degradation. It focuses on HDAC-PROTACs, a type of drug that selectively degrades histone deacetylases (HDACs), which play a role in cancer growth. Unlike traditional HDAC inhibitors, which only block HDAC activity temporarily, HDAC-PROTACs completely remove HDAC proteins from cells, leading to longer-lasting effects with fewer side effects. HDAC-PROTACs work by using the ubiquitin-proteasome system (UPS) to target and destroy HDAC proteins. These drugs are designed to selectively bind to HDACs and recruit them to E3 ligases, leading to their degradation. Different types of HDAC-PROTACs have been developed to target specific HDAC classes, including HDAC1, HDAC3, and HDAC6, which are involved in various cancers such as leukemia, lymphoma, and multiple myeloma. Some of these drugs have shown promising results in preclinical studies, effectively stopping cancer cell growth and inducing apoptosis (programmed cell death). HDAC-PROTACs offer a potentially revolutionary approach to cancer therapy by selectively degrading cancer-promoting proteins while minimizing toxicity. However, challenges remain, such as improving drug selectivity, optimizing delivery methods, and overcoming resistance mechanisms. Future research will focus on refining these drugs, enhancing their effectiveness in targeting cancer cells, and integrating them with other therapies for better treatment outcomes. If successfully developed, HDAC-PROTACs could provide a powerful new tool for precision cancer treatment.
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