Degradation of Polycomb Repressive Complex 2 with an EED-targeted Bivalent Chemical Degrader

Potjewyd, Frances; Turner, Anne-Marie W.; Beri, Joshua; Rectenwald, Justin M.; Norris-Drouin, Jacqueline; Cholensky, Stephanie H.; Pearce, Kenneth H.; Herring, Laura E.; James, Lindsey I.

doi:10.1101/676965

Cited by 10 publications

(14 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The first example of an EZH2 degrader employed the hydrophobic tagging approach, which induces local protein unfolding to enact protein degradation [238] . Subsequently, Potjewyd and co‐workers reported a PROTAC that binds the embryonic ectoderm development (EED) unit in PRC2 and induces proteasomal degradation of EED, EZH2, and SUZ12 in human cells bearing EZH2‐activating mutations [236] . This degradation of multiple PRC subunits was also observed in an independent approach employed by Hsu and co‐workers [235] .…”

Section: Lysine Post‐translational Modificationsmentioning

confidence: 92%

Advances and Opportunities in Epigenetic Chemical Biology

2020

View full text Add to dashboard Cite

The study of epigenetics has greatly benefited from the development and application of various chemical biology approaches. In this review, we highlight the key targets for modulation and recent methods developed to enact such modulation. We discuss various chemical biology techniques to study DNA methylation and the post-translational modification of histones as well as their effect on gene expression. Additionally , we address the wealth of protein synthesis approaches to yield histones and nucleosomes bearing epigenetic modifications. Throughout, we highlight targets that present opportunities for the chemical biology community, as well as exciting new approaches that will provide additional insight into the roles of epigenetic marks.

show abstract

Section: Lysine Post‐translational Modificationsmentioning

confidence: 92%

Advances and Opportunities in Epigenetic Chemical Biology

2020

View full text Add to dashboard Cite

show abstract

“…35). 306 UNC6852 potently degraded EED and EZH2 with DC 50 values of 0.79 ± 0.14 μM and 0.3 ± 0.19 μM, respectively, while SUZ12 showed less degradation. In addition, UNC6852 blocked the histone methyltransferase activity of EZH2 and inhibited the proliferation of DB cells (a DLBCL cell line harboring the EZH2 Y641N mutant) with an EC 50 of 3.4 ± 0.77 μΜ after 9 days of treatment, which was similar to the inhibitors EED226 and UNC1999…”

Section: Prc2 (Eed-targeted)mentioning

confidence: 95%

PROTACs: great opportunities for academia and industry

Sun

Gao

Yang

et al. 2019

Sig Transduct Target Ther

432

414

View full text Add to dashboard Cite

Although many kinds of therapies are applied in the clinic, drug-resistance is a major and unavoidable problem. Another disturbing statistic is the limited number of drug targets, which are presently only 20-25% of all protein targets that are currently being studied. Moreover, the focus of current explorations of targets are their enzymatic functions, which ignores the functions from their scaffold moiety. As a promising and appealing technology, PROteolysis TArgeting Chimeras (PROTACs) have attracted great attention both from academia and industry for finding available approaches to solve the above problems. PROTACs regulate protein function by degrading target proteins instead of inhibiting them, providing more sensitivity to drug-resistant targets and a greater chance to affect the nonenzymatic functions. PROTACs have been proven to show better selectivity compared to classic inhibitors. PROTACs can be described as a chemical knockdown approach with rapidity and reversibility, which presents new and different biology compared to other gene editing tools by avoiding misinterpretations that arise from potential genetic compensation and/or spontaneous mutations. PRTOACs have been widely explored throughout the world and have outperformed not only in cancer diseases, but also in immune disorders, viral infections and neurodegenerative diseases. Although PROTACs present a very promising and powerful approach for crossing the hurdles of present drug discovery and tool development in biology, more efforts are needed to gain to get deeper insight into the efficacy and safety of PROTACs in the clinic. More target binders and more E3 ligases applicable for developing PROTACs are waiting for exploration.

show abstract

“…80% degradation). This compound also degraded EZH2 and had antiproliferative effects [214]. Two other PROTACs were found to degrade EED, EZH2 and SUZ12 in the PRC2 complex [213].…”

Section: Accepted Articlementioning

confidence: 95%

“…In 2020, PROTACs targeting the EED subunit of PRC2 were developed [213,214]. These could solve the problem of resistance to EZH1/2 inhibitors (tazemetostat) that had been addressed by using allosteric EED inhibitors.…”

Section: Accepted Articlementioning

confidence: 99%

Therapeutic targeting of chromatin: status and opportunities

Siklos

Kubicek

2021

The FEBS Journal

View full text Add to dashboard Cite

The molecular characterization of mechanisms underlying transcriptional control and epigenetic inheritance since the 1990s has paved the way for the development of targeted therapies that modulate these pathways. In the past two decades, cancer genome sequencing approaches have uncovered a plethora of mutations in chromatin modifying enzymes across tumor types, and systematic genetic screens have identified many of these proteins as specific vulnerabilities in certain cancers. Now is the time when many of these basic and translational efforts start to bear fruit and more and more chromatin‐targeting drugs are entering the clinic. At the same time, novel pharmacological approaches harbor the potential to modulate chromatin in unprecedented fashion, thus generating entirely novel opportunities. Here, we review the current status of chromatin targets in oncology and describe a vision for the epigenome‐modulating drugs of the future.

show abstract

Degradation of Polycomb Repressive Complex 2 with an EED-targeted Bivalent Chemical Degrader

Cited by 10 publications

References 48 publications

Advances and Opportunities in Epigenetic Chemical Biology

Advances and Opportunities in Epigenetic Chemical Biology

PROTACs: great opportunities for academia and industry

Therapeutic targeting of chromatin: status and opportunities

Contact Info

Product

Resources

About