Protein Degraders & Molecular Glues Part 2 Icon

Cambridge Healthtech Institute’s 7th Annual

Degraders & Molecular Glues – Part 2

Assay Development for New Ligases/Modulators and Induced Proximity Screening

APRIL 3 - 4, 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.

Wednesday, April 3

Registration Open12:00 pm

Welcome Remarks1:30 pm

DEVELOPING TUMOR-SELECTIVE DEGRADERS & GLUES

1:35 pm

Chairperson's Remarks

Rima Al-Awar, PhD, Head, Therapeutic Innovation & Drug Discovery, Ontario Institute for Cancer Research

1:40 pm

Optimization of Binders to DCAF1 and Their Use to Develop PROTACs

Rima Al-Awar, PhD, Head, Therapeutic Innovation & Drug Discovery, Ontario Institute for Cancer Research

DCAF1 is a substrate receptor of two distinct E3 ligases (CRL4DCAF1 and EDVP) and plays an important role in protein degradation and many cellular processes. We have identified binders to DCAF1 and will describe the optimization of these compounds and their use in the degradation of a protein of interest using a PROTAC approach.

2:10 pm

Pushing the Boundary of the PROTAC Technology

Shaomeng Wang, PhD, Warner-Lambert/Parke-Davis Professor of Medicine, Pharmacology & Medicinal Chemistry; Co-Director, Molecular Therapeutics Program, University of Michigan

In the last few years, the PROTAC technology has gained a major momentum for the discovery and development of new therapeutics for the treatment of human diseases, particularly cancer.  Our laboratory has been carrying out research in pushing the boundary in three different areas using the PROTAC technology. (1). Targeting those traditionally undruggable proteins; (2). Developing highly selective degraders to overcome on-target toxicities issues; (3) developing orally bioavailable degraders to overcome drug-resistances of traditional small-molecule drugs. I will present our latest progresses we have made in these three areas.

2:40 pm Integrated Solutions and Research Strategies for Targeted Protein Degraders

Lingbing Sun, PhD, Senior Director, Head of New Modality Discovery, WuXi AppTec

Targeted protein degradation (TPD) technology has become one of the most promising methods to remove specific disease-related proteins using cellular self-destruction mechanisms. WuXi AppTec has built a robust TPD discovery platform, allowing for in-depth biological and biophysical characterization of protein degraders, while delivering synthetic and medicinal chemistry solutions to accelerate lead optimization. In this presentation, Dr. Lingbing Sun will introduce our integrated TPD services and discuss research strategies using case studies.

Refreshment & Dessert Break in the Exhibit Hall with Poster Viewing3:10 pm

4:00 pm

Discovery of Molecular Glue Degraders for Intracellular Proteins and Development of Cancer-Selective Degraders for Extracellular Proteins

Weiping Tang, PhD, Professor, Pharmaceutical Sciences and Director, Medicinal Chemistry Center, University of Wisconsin-Madison

I will present our recent progress in the discovery of molecular glue degraders for intracellular proteins; it involves the sequence of rapid synthesis, phenotypic screening, proteomic profiling, and validation of hits and targets. I will also present our progress on the development of cancer-selective degraders for extracellular proteins involving novel antibody conjugates.

4:30 pm

Computer-Aided and Structure-Guided Rational Design of Dual BCL-XL and BCL-2 PROTACs

Daohong Zhou, MD, Professor, Department of Biochemistry and Structural Biology, University of Texas Health San Antonio

PROTACs have emerged as an innovative drug development platform. However, most PROTACs have been generated empirically because many determinants of PROTAC specificity and activity remain elusive. Through computational modelling and mutagenesis studies, we found that lysine accessibility for ubiquitination by the VHL E3 ligase plays an important role in determining the degradability of BCL-XL and BCL-2 by DT2216, a VHL-recruiting BCL-XL-specific PROTAC. Based on this information, we rationally designed and generated a BCL-XL and BCL-2 dual degrader, 753b, that can potently degrade both BCL-XL and BCL-2. Importantly, 753b exhibits an improved antileukemic activity compared to DT2216.

In-Person Breakouts5:00 pm

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: Developing Tumor-Selective Degraders (SESSION ROOM)

Rima Al-Awar, PhD, Head, Therapeutic Innovation & Drug Discovery, Ontario Institute for Cancer Research

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

Daohong Zhou, MD, Professor, Department of Biochemistry and Structural Biology, University of Texas Health San Antonio

  • Identification and HT screening of novel monovalent degraders
  • Tools for understanding the mechanisms of degradation
  • Optimizing potency, selectivity, tissue specificity and PK properties
  • Developing orally bioavailable, drug-resistant degrader molecules​

IN-PERSON BREAKOUT 2: Discovery and Optimization of Molecular Glues (FOYER)

Charly Chahwan, PhD, Co-Founder & CSO, SyntheX, Inc.

Shuang Liu, PhD, Senior Scientist, Institute of Molecular & Cell Biology, A*STAR; former Postdoctoral Associate, Lab of Dr. Stuart Schreiber, Broad Institute of MIT and Harvard

Anastasia Velentza, PhD, Founder, AVeNew Insights LLC

  • Strategies to identify and screen molecular glues 
  • Value of serendipitous discovery versus rational design
  • How to drive structure-activity relationships for molecular glues
  • Design and screening of glue libraries in multiple assay formats
  • Molecular glues for extracellular targets​
IN-PERSON BREAKOUT 3:

Assays and Technologies for Characterization of Degraders & Glues (FOYER)

Ralph Mazitschek, PhD, Assistant Professor, Harvard Medical School; Co-Director of the Chemical Biology Platform, Center for Systems Biology, Massachusetts General Hospital

Hua Xu, PhD, Director, Mechanistic Biology & Profiling, AstraZeneca

  • Tools for mechanistic understanding and structural profiling 
  • Developing and validating high-throughput screening assays for degrader/glue studies 
  • Challenges underlying the understanding of MoA of degraders and glues​

Close of Day5:45 pm

Dinner Short Course Registration5:45 pm

Dinner Short Course*6:15 pm

SC5: Protein Degraders: An in vivo ADME and Safety Perspective

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

Thursday, April 4

Registration Open7:15 am

Diversity in Chemistry Breakfast Discussion7:45 am

Grab a plate and then a seat to join one of the in-person discussions below on growing the enterprise of chemistry (in terms of people diversity, not molecules). This session originated 4 years ago with a focus on ‘Women in Chemistry’, but every year the discussions raised more issues than time allowed. We’re broadening the topics but breaking them into smaller discussion-focused groups; topics will include the below. Please visit the Breakout Discussions page on the conference website for more details.


Paternity and Extended Leave  Moderator(s): Thomas Garner, Genentech 

Advancing Women in Chemistry  Moderator(s): Katerina Leftheris, Vilya

Diversity, Equity, and Inclusion Efforts at Institutions & Companies  Moderator(s): Michelle Arkin, UCSF


PLENARY KEYNOTE SESSION

8:30 am

Plenary Welcome Remarks from Lead Content Director with Poster Finalists Announced

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

8:35 am

PLENARY KEYNOTE: Reimagining Druggability Using Chemoproteomic Platforms

Daniel Nomura, PhD, Professor of Chemical Biology and Molecular Therapeutics, Department of Chemistry, University of California, Berkeley

One of the greatest challenges that we face in discovering new disease therapies is that most proteins are considered “undruggable,” in that most proteins do not possess known binding pockets or “ligandable hotspots” that small molecules can bind to modulate protein function. Our research group addresses this challenge by applying chemoproteomic platforms to discover and pharmacologically target unique and novel ligandable hotspots for disease therapy.

Coffee Break in the Exhibit Hall with Poster Viewing and Best of Show Awards Announced9:20 am

IDENTIFYING NOVEL MOLECULAR GLUES

10:10 am

Chairperson's Remarks

Charly Chahwan, PhD, Co-Founder & CSO, SyntheX, Inc.

10:15 am

Multimodal Screening Platform for Novel Cereblon Neo-Substrates

Gisele Nishiguchi, PhD, Group Leader, St. Jude Children's Research Hospital

While the PROTAC approach to targeted protein degradation greatly benefits from rational design, the discovery of molecular glue degraders currently relies mostly on screening strategies. This paper will discuss the design of a cereblon-focused molecular glue library, and its screening in multiple assay modalities, including high-throughput proteomics. Discovery and characterization of monofunctional degraders of non-canonical cereblon neosubstrates will also be disclosed.

10:45 am

Engineering Cells to Empirically Discover Functional Molecular Glue Degraders

Maria Soloveychik, PhD, Co-Founder & CEO, SyntheX

SyntheX created intracellular selection-based drug discovery platforms to identify protein interaction modulators. The ToRNeDO platform can empirically discover molecular glues that can achieve productive protein degradation of a prespecified neosubstrate using a particular E3 ubiquitin ligase. Using genetically engineered circuits, the platforms rely on intracellular drug selection, bypassing bottlenecks of in vitro and in sillico screening approaches. This presents a novel approach to discover functional molecular glues from a first pass screen.

11:15 am Biophysical Approaches to Molecular Glue Discovery

Gregg Siegal, PhD, CEO, ZoBio

Modulation of protein-protein interactions (PPIs) with molecular glues is an emerging strategy in drug discovery with the potential to target 'hard to drug' protein classes. A significant challenge for the (early stage) discovery of new glue compounds is the complicated dynamics created by multi-component complexes of proteins and small molecules. Here we will outline a series of biophysical assays specifically developed for the screening and validation of fragment molecular glues.

11:30 am

Rational Screening for Cooperativity in Small Molecule Inducers of Protein-Protein Associations

Shuang Liu, PhD, Senior Scientist, Institute of Molecular & Cell Biology, A*STAR; former Postdoctoral Associate, Lab of Dr. Stuart Schreiber, Broad Institute of MIT and Harvard

We identified a range of cooperative, noncooperative, and uncooperative compounds in a single DNA-encoded library screen with bromodomain-containing protein (BRD)9 and the VHL–elongin C–elongin B (VCB) complex. Our most cooperative hit compound, 13-7, exhibits micromolar binding affinity to BRD9 but nanomolar affinity for the ternary complex with BRD9 and VCB, with cooperativity comparable to classical molecular glues.

12:00 pm

Parkin Ubiquitin Ligase Molecular Glues for Parkinson’s Disease and Beyond

Tauseef Butt, PhD, President & CEO, Progenra, Inc.

Parkin ligase plays a critical role in mitophagy and mitobiogenesis. Mutations in parkin ligase lead to early onset of Parkinson’s disease. The dysfunction of parkin ligase is also attributed to late onset of PD. Progenra has discovered molecular glues that bind to parkin, activate parkin function in vitro, and restore mitochondrial damage by inducing mitophagy in neuronal cells. Role of parkin in PD, muscle function, and dementia will be described.

Transition to Lunch12:30 pm

12:35 pm LUNCHEON PRESENTATION:Discovery of New Targeted Protein Degraders using DNA-Encoded Chemistry

Anthony Keefe, PhD, SVP Innovation, X-Chem Inc.

DNA-Encoded chemical libraries permit the discovery of novel chemical matter that engages protein targets of interest.   Individual library members are comprised of building block combinations covalently attached to encoding oligonucleotides that permit their identification.  Because individual library members are discovered in a linked context, they also support the rapid design of bispecific targeted protein degraders.  Here we present case studies for new targeted protein degraders including both bispecifics and glues

Refreshment Break in the Exhibit Hall with Poster Awards Announced (Sponsorship Opportunity Available)1:05 pm

MECHANISTIC & STRUCTURAL CHARACTERIZATION APPROACHES

1:55 pm

Chairperson's Remarks

Behnam Nabet, PhD, Assistant Professor, Human Biology Division, Fred Hutchinson Cancer Center

2:00 pm

Targeted Destruction of Oncogenic Drivers

Behnam Nabet, PhD, Assistant Professor, Human Biology Division, Fred Hutchinson Cancer Center

Targeted protein degradation technologies including the degradation tag (dTAG) system are powerful approaches to rapidly control protein abundance. This talk will describe our recent advances with the dTAG technology platform and our development of small molecule degraders with applications in refractory cancers.

2:30 pm

Chemical Probe and Degrader Development for the Nucleosome Remodeling Factor, NURF, an Emerging Therapeutic Target 

William Pomerantz, PhD, Associate Professor, Department of Medicinal Chemistry, University of Minnesota, Twin Cities

BPTF is an essential member of the nucleosome remodeling factor, NURF, and has increasingly become identified as a pro-tumorigenic factor, prompting investigations into cancer-associated mechanisms involving BPTF, including MYC and MYCN regulation. Our lab has developed the first inhibitors of the BPTF bromodomain and PHD. Building on these results I will present our efforts at developing the first BPTF degraders to study the role of this protein in pediatric cancers.

3:00 pm PLENARY PANEL DISCUSSION:

Innovative Drug Discovery: Insights from Venture Capitalists

PANEL MODERATORS:

Michelle Arkin, PhD, Chair and Distinguished Professor, Pharmaceutical Chemistry & Director, Small Molecule Discovery Center, University of California, San Francisco

Daniel A. Erlanson, PhD, Chief Innovation Officer, Innovation and Discovery, Frontier Medicines Corporation

The high-risk but 'high impact-when-successful' strategy of VC investors gives them a uniquely critical lens through which to view innovation. Join us for an interactive discussion with VCs who will share the trends they are watching in drug discovery. The panel represents a variety of small and large venture firms, who provide early rounds of funding, as well as those who invest at later or all stages.

Topics to be covered:
  • Introduction to VC panelists and their fund’s areas of focus
  • Investing in platforms versus products
  • Perspectives on emerging technologies or approaches (AI/ML, induced proximity and more)
  • Advice on funding options for start-ups beyond VCs, such as angels and grants
  • Pitfalls for early-stage companies to avoid when seeking funding
PANELISTS:

Wendy B. Young, PhD, BioPharma Discovery

Rebecca Silberman, PhD, Senior Venture Associate, RA Capital Management LLC

Shyam Masrani, Principal, Medicxi

Jamie Kasuboski, PhD, Partner, Luma Group

Olga Danilchanka, PhD, Principal, MRL Ventures Fund

Networking Refreshment Break3:45 pm

4:00 pm

Targeted Proteomics Enables Mechanistic Profiling for Protein Degraders

Hua Xu, PhD, Director, Mechanistic Biology & Profiling, AstraZeneca

Targeted protein degradation is an emerging modality that is increasingly used to tackle challenging drug targets. In this talk, I will present the targeted proteomics platforms we have developed and their impacts on mechanistic understanding and profiling of protein degraders. I will also share a unique protein degradation mechanism that we recently discovered for degraders of an epigenetic target.

4:30 pm

CoraFluor-Enabled TR-FRET Assay Strategies for Facile PROTAC Profiling

Ralph Mazitschek, PhD, Assistant Professor, Harvard Medical School; Co-Director of the Chemical Biology Platform, Center for Systems Biology, Massachusetts General Hospital

We have developed novel TR-FRET-based high-throughput assay approaches based on our CoraFluor TR-FRET technology to facilitate the characterization of PROTACs and molecular glue degraders, including (a) the facile measurements of endogenous protein levels, (b) the kinetic and thermodynamic measurement of ligand binding affinities with endogenous and recombinant proteins, and (c) the quantitative determination of ternary complex cooperativity.

5:00 pm

Anti-Viral PROTACs Incorporating Solid Phase Synthesis Technologies

Philip Thompson, PhD, Professor, Department of Medicinal Chemistry, Monash University

The diverse possibilities associated with PROTAC design and discovery supports strategic approaches built around synthetic novelty and efficiency. We are pursuing solid phase methods as a means to efficiently cover degrader chemical space, and applying it to the opportunities in anti-viral PROTAC discovery.

Close of Conference5:30 pm