Protein Degraders & Molecular Glues – Part 1 Icon

Cambridge Healthtech Institute’s 7th Annual

Degraders & Molecular Glues – Part 1

Designing and Optimizing PROTACs and Glues for Pursuing Undruggable Targets

APRIL 2 - 3, 2024

 

Protein degraders and molecular glues are being developed to disrupt protein-protein interactions and to hijack the ubiquitin-proteasome, lysosome, and autophagy systems for targeted protein degradation. Hetero-bifunctional degraders like proteolysis-targeting chimeras (PROTACs) and monovalent degraders like molecular glues are being used to seek out previously “undruggable” targets for therapeutic intervention. This is giving rise to novel covalent chemistries, better understanding of degradation biology, and innovative techniques for inducing proximity. However, challenges do exist in terms of specificity, stability, biodistribution, and penetration of these degrader molecules. This two-part conference on Degraders & Molecular Glues brings together experts in the field to discuss important issues underlying the use of targeted protein degradation and induced proximity as a new therapeutic approach.

6:00 pm MONDAY, APRIL 1: Dinner Short Course*
SC1: Protein Degraders: A Beyond Rule of Five Space and in vitro ADME Perspective

*Premium Pricing or separate registration required. See Short Courses page for details.

Tuesday, April 2

Registration Open and Morning Coffee7:00 am

Welcome Remarks8:00 am

DEGRADER OPTIMIZATION STRATEGIES

8:05 am

Chairperson's Remarks

Thomas Cummins, PhD, Chemist, Chemistry, Bristol Myers Squibb

8:10 am

Discovery of CC-99282, a CELMoD® Agent for Relapsed or Refractory (RR) Lymphomas

Thomas Cummins, PhD, Chemist, Chemistry, Bristol Myers Squibb

The discovery of CC-99282, a CELMoD® agent, was designed to address the needs of patients with relapsed or refractory (RR) lymphomas, who often face poor prognosis and limited life expectancy. This discovery was guided by phenotypic data from diffuse large B-cell lymphoma cells and protein degradation data. CC-99282 promotes an interaction between zinc finger protein neosubstrates like IKZF1/3 (Ikaros/Aiolos) and ZFP91 with cereblon, leading to proteasome-mediated degradation of neosubstrates. This process is associated with clinical activity in various hematologic malignancies, including RR lymphomas.

8:40 am

In vitro and in vivo Characterization of Selective CBP and EP300 Degraders

Kevin Wilson, PhD, Vice President, Chemistry, Foghorn Therapeutics

CREB binding protein (CBP) and E1A binding protein (EP300) are paralog histone acetyltransferases that act as transcriptional co-activators. Dysregulation of one or both proteins has been implicated in various cancers, and functional genomic screens have demonstrated a bidirectional synthetic lethal relationship between these genes in tumor cells. This talk will describe our progress in optimizing heterobifunctional degraders that are highly selective for each of these highly homologous proteins.

9:10 am

Bridged Proteolysis Targeting Chimera (PROTAC) Enables Degradation of Undruggable Targets

Md Shamiul Kabir, PhD, Postdoctoral Fellow, Laboratory of Dr. Jian Jin, Department of Pharmacological and Oncological Sciences, Icahn School of Medicine at Mount Sinai

Targeted protein degradation using proteolysis targeting chimeras (PROTACs) is a promising therapeutic strategy for the treatment of cancer. However, conventional PROTAC approach has a key limitation– it cannot target a protein of interest which lacks a small-molecule ligand. We developed “Bridged PROTAC” which is a novel protein complex degrader strategy that exploits the target protein’s binding partner to degrade undruggable proteins by inducing proximity to an E3 ubiquitin ligase.

9:40 am Evaluation of Binary and Ternary Affinities of WDR5 Degraders in 3 days with Spectral Shift

Bridget Milorey, Ph.D., Field Application Specialist, Product, NanoTemper Technologies

Dysregulation of WDR5 expression and function has been implicated in the development of cancer, particularly through interaction with the MYC oncogene. This presentation shows the biophysical evaluation of five WDR5 degraders via recruitment of VHL. The characterization of binary and ternary affinities, cooperativity, and hook effect took 3 including optimization. We discuss the correlation with degradation efficiency and the effect of linker’s structure and length on the affinities.

Sponsored Presentation (Opportunity Available)9:55 am

Networking Coffee Break10:10 am

10:35 am

Insights from a Decade of Research on Orally Bioavailable PROTAC Degraders at Arvinas

Keith Hornberger, PhD, Executive Director, Chemistry, Arvinas Inc.

Proteolysis targeting chimera (PROTAC) protein degraders are heterobifunctional small molecules that recruit a protein of interest to an E3 ubiquitin ligase, leading to proteasomal degradation of the target protein. This presentation will: 1) provide a brief overview of the PROTAC technology; 2) discuss physicochemical property guidelines for attaining oral absorption in the beyond-rule-of-5 space occupied by PROTAC degraders.

11:05 am PANEL DISCUSSION:

Preclinical Safety Considerations for Degraders and Glues

PANEL MODERATOR:

Mary Matyskiela, PhD, Vice President, Molecular Sciences, Neomorph, Inc.

PANELISTS:

Simon Bailey, PhD, MBA, Founder, Darkwood Pharma Consulting

Keith Hornberger, PhD, Executive Director, Chemistry, Arvinas Inc.

Brandon D. Jeffy, PhD, DABT – Director, Drug Safety Research & Evaluation, Takeda San Diego

Matthias Wittwer, PhD, Project Leader, DMPK-PD, Pharmaceutical Sciences, Roche Pharma

Transition to Lunch12:05 pm

12:10 pm LUNCHEON PRESENTATION:Emerging Therapeutic Modalities and Drug Targets: From Kinase Protein Degradation to SH2 Domain Binders

Jean Bernatchez, PhD, Senior Scientist and San Diego R&D Group Leader, Eurofins Discovery

Olivier Mirguet, PhD, Integrated Drug Discovery MedChem Scientific Director, Eurofins

SH2 domains are an emerging target class for the development of small molecules which disrupt protein-protein interactions, as well as for the development of targeted protein degraders. We present screening validation data against a panel of 93 wild type and 7 mutant SH2 domains for a small collection of reported peptides and small molecules which bind to this protein-protein interaction module.

 

Session Break12:40 pm

NEW E3 LIGASES AND LIGANDS FOR DEGRADATION

1:30 pm

Chairperson's Remarks

Matthew Calabrese, PhD, Senior Director & Head, Structural & Molecular Sciences, Pfizer Global R&D

1:35 pm

Exploring Suitable E3 Ligase Binders for Discovery of Targeted Protein Degraders by Phenotypic-First Approach

Shigeru Furukubo, PhD, Principal Scientist, Chemistry, FIMECS Inc.

We have developed a proprietary platform technology, RaPPIDS (Rapid Protein Proteolysis Inducer Discovery System), with highly productive synthesis and evaluation, leading a drug candidate of IRAK-M degrader, FIM-001. The platform has been continuously improved and extended to identify novel E3 ligase binders by taking a phenotypic-first approach. This is an innovative strategy to select a suitable E3 ligase for a protein of interest and the discovery of novel PROTAC degraders.

2:05 pm

Discovery of Novel E3 Ligands for Targeted Protein Degradation

Yue Xiong, PhD, Co-Founder & CSO, Cullgen

Targeted protein degradation separates from other drug discovery modalities by its catalytic mechanism to achieve high efficacy, the ability to target previously undruggable proteins, and its potential to deliver drug activity to selective tissues. All three features depend on the E3 ligands, which are currently limited despite the expression of more than 600 E3 ligases in human cells. I will discuss our rationale and efforts in the discovery, DMPK properties and use of novel E3 ligands.     

2:35 pm

Leveraging Our File to Find Novel Ligands for an E3 Ligase

Matthew Calabrese, PhD, Senior Director & Head, Structural & Molecular Sciences, Pfizer Global R&D

This talk will describe a strategy leveraging our internal file through a binding-first Hit ID approach to identify ligands for a new E3 ligase. Potency optimization was achieved using structure-based drug design (SBDD), resulting in the development of novel chemical tools to explore target biology.

3:05 pm Drug Discovery Unleashed - Navigate your Chemistry and Explore your biology with CETSA®

Michael Dabrowski, PhD, CEO, Pelago Bioscience

Conventional methods for assessing target engagement often do not deliver accurate results causing high failure rates in the drug discovery process. Pelago Bioscience's unique core technology, the Cellular Thermal Shift Assay (CETSA®) has multiple assay formats that make it a keystone of decision making throughout the drug discovery pipeline. We offer a range of services, from confirming target engagement to strengthening target validation and understanding mechanism of action of your compounds. 

 

Grand Opening Refreshment Break in the Exhibit Hall with Poster Viewing and Best of Show Voting Begins3:20 pm

PLENARY KEYNOTE SESSION

4:20 pm

Plenary Welcome Remarks from Lead Content Director with Poster Finalists Announced

Anjani Shah, PhD, Senior Conference Director, Cambridge Healthtech Institute

4:30 pm

PLENARY KEYNOTE: Applications of SuFEx Click Chemistry for Drug Discovery and Chemical Biology

Barry Sharpless, PhD, Professor, Chemistry, Scripps Research Institute; 2022 and 2001 Nobel Laureate

My work has been guided by the modular simplicity of nature—the fact that all molecules of life are made from several dozen building blocks. Here I will discuss the Sulfur(VI) Fluoride Exchange (SuFEx), a second near-perfect click chemistry reaction pioneered here at Scripps. SuFEx allows reliable molecular connections to be made under metal-free conditions. I will include applications in drug discovery, chemical biology, and polymer chemistry.

Welcome Reception in the Exhibit Hall with Poster Viewing5:15 pm

Close of Day6:15 pm

Wednesday, April 3

Registration Open7:15 am

In-Person Breakouts with Continental Breakfast7:45 am

In-Person Breakouts are informal, moderated discussions, allowing participants to exchange ideas and experiences and develop future collaborations around a focused topic. Each breakout will be led by a facilitator who keeps the discussion on track and the group engaged. To get the most out of this format, please come prepared to share examples from your work, be a part of a collective, problem-solving session, and participate in active idea sharing. Please visit the Breakout Discussions page on the conference website for a complete listing of topics and descriptions.

IN-PERSON BREAKOUT 1: Novel Degradation Modalities, New E3 Ligases and Ligands (SESSION ROOM)

Ollie Hsia, PhD, Postdoctoral Research Assistant, Laboratory of Dr. Alessio Cuilli, Center for Targeted Protein Degradation, University of Dundee

Pat Sharp, PhD, Co-Founder and Vice President, Discovery Sciences, Gate Bioscience

  • Improving potency, modularity and utility of degraders and glues
  • Discovery and validation of new degrader chemistries and functionality
  • Exploring constrained macrocycles, cyclic peptides and other degrader modalities
  • Developing new bivalent and bifunctional molecules​

IN-PERSON BREAKOUT 2: Structural and Mechanistic Characterization of Degraders and Glues (FOYER)

Keith Hornberger, PhD, Executive Director, Chemistry, Arvinas Inc.

Kevin Wilson, PhD, Vice President, Chemistry, Foghorn Therapeutics

  • In vitro and in vivo characterization to develop new degrader/glue modalities
  • Developing assays that are sensitive and unbiased in finding the right targets and ligands 
  • Overcoming limitations in current biochemical and cellular assays 
  • Finding new E3 ligases and cellular pathways for inducing degradation​

IN-PERSON BREAKOUT 3: Exploring Covalent Chemistry and Chemical Biology for Inducing Proximity (FOYER)

Brent Martin, PhD, Vice President, Chemical Biology, Scorpion Therapeutics

Micah Niphakis, PhD, Director, Chemical Biology, Lundbeck La Jolla Research Center

Andrew Zhang, PhD, Director, Chemical Biology, AstraZeneca

  • Chemical biology tools and assays for mechanistic and structural characterization of proximity inducers
  • Innovative chemistries for warheads and probe design
  • Chemoproteomics for covalent drug discovery
  • Emerging uses of quantitative mass spectrometry-based proteomics and global proteomics​

NOVEL DEGRADATION APPROACHES & MODALITIES

8:30 am

Chairperson's Remarks

Pat Sharp, PhD, Co-Founder and Vice President, Discovery Sciences, Gate Bioscience

8:35 am

Single Amino Acid-Based PROTACs and Beyond

Hai Rao, PhD, Professor and Chair, Department of Biochemistry, Southern University of Science and Technology, China

We have developed a set of single amino acid-based PROTACs for target destruction by the N-end rule pathway. The modular design described offers unique advantages, including high potency, degradation rate modulation with different amino acids, and smaller molecular size with shortest degradation sequences. We demonstrate the utility and efficacy of these PROTACs, furthering expanding the repertoire of limited degrons and pathways available for PROTACs in the fight against various cancers.

9:05 am

Peptidic Macrocycles as Suitable Bioactive Scaffold for Targeted Protein Degradation

Jakob Fuhrmann, PhD, Senior Principal Scientist, Peptide Therapeutics, Genentech, Inc.

The development of proximity-induced degraders still poses several challenges, including their relatively low cell-permeability, as well as high degree of conformational flexibility due to the presence of flexible linker elements. I will present our strategy to identify conformationally constrained macrocyclic degraders. I will further highlight our characterization cascade comprising ternary complex stabilization, as well as property-based optimizations to obtain in vivo bioactive compounds.

Coffee Break in the Exhibit Hall with Poster Awards Announced (Sponsorship Opportunity Available)9:35 am

10:30 am

From Serendipity to Rational Design: Taking Molecular Glue Degraders to New Heights

Kevin Lumb, D.Phil., Vice President, Discovery Sciences, Monte Rosa Therapeutics

QuEEN™ is a proprietary molecular glue discovery engine generating therapeutics that selectively degrade disease-causing proteins. I will discuss Monte Rosa’s approach to accelerate molecular glue degrader discovery and validation  and the development of potent and selective molecular glue degraders.

11:00 am

Targeted Protein Degradation via Intramolecular Bivalent Glues

Ollie Hsia, PhD, Postdoctoral Research Assistant, Laboratory of Dr. Alessio Cuilli, Center for Targeted Protein Degradation, University of Dundee

In collaboration with Georg Winter’s lab, we investigated and structurally resolved the mode of action of bifunctional BRD4 degraders (IBG1-4) and showed that—instead of connecting target and ligase in trans as PROTACs do—they simultaneously engage two adjacent domains of the target protein in cis. This conformational change glues BRD4 to the E3 ligases DCAF11 or DCAF16, leveraging intrinsic but non-functional target-ligase affinities. Structural insights guided the rational design of improved degraders of low picomolar potency. We thus introduce a new modality in targeted protein degradation, termed intramolecular bivalent glues (IBGs), which work by bridging protein domains to enhance surface complementarity with E3 ligases for productive ubiquitination and degradation.

11:30 am

Reversible Covalent PROTACs and Ligand Directed Degradation


Nir London, PhD, Senior Scientist, Organic Chemistry, Weizmann Institute of Science

Covalency have been largely adopted as an accepted strategy in the development of chemical probes and drugs for challenging targets. It has also gained traction in the targeted degradation field, mostly in targeting the E3 ligase or effector. Here I will share our results on using reversible covalent chemistry to bind the PROTAC target, as well as recent progress in using Covalent Ligand Directed Release chemistry for targeted degradation. 


Close of Degraders – Part 1 Conference12:00 pm