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Cambridge Healthtech Institute’s 5th Annual

RNA-Modulating Small Molecule Drugs

Novel Approaches to Target RNA Structure, Binding, Interactions, and Function

APRIL 3 - 4, 2024

 

With an increased understanding of diverse RNA moieties, their structure, function, and interactions, finding small molecules to target RNA is getting simpler. Small molecules offer enhanced stability, oral bioavailability, and better drug-like properties when compared to oligonucleotides. Hence, they are a more viable therapeutic option. However, identifying the right disease-causing RNA and evaluating the downstream physiological responses after small molecule modulation can be quite challenging. Challenges also exist in terms of optimizing the specificity, selectivity, and safety of these small molecules in vivo. Cambridge Healthtech Institute’s conference on RNA-Modulating Small Molecule Drugs will highlight some of the innovative approaches and technologies being used in this field.

Wednesday, April 3

Registration Open12:00 pm

Welcome Remarks1:30 pm

NEW FUNCTIONAL & SCREENING ASSAYS

1:35 pm

Chairperson's Remarks

Amanda Garner, PhD, Associate Professor, College of Pharmacy, Department of Medicinal Chemistry, University of Michigan

1:40 pm

Enabling Technologies for Revealing Druggable Paths in RNA Biology

Amanda Garner, PhD, Associate Professor, College of Pharmacy, Department of Medicinal Chemistry, University of Michigan

Over the past decades, we have witnessed an explosion in discoveries connecting RNAs with human diseases. Consequently, the targeting of RNAs, and more broadly, RNA biology, has emerged as an untapped area of drug discovery. In this lecture, I will discuss methods developed by the Garner Lab for exploring the druggability of cellular RNAs and RNA-protein interactions.

2:10 pm

Chemical Tools for RNA Structure and Druggability

Willem Velema, PhD, Assistant Professor, Physical Organic Chemistry, Radboud University

RNA is a versatile molecule and exhibits many diverse functions. Our lab explores approaches and chemistries to study RNA structure and druggability. Using customized affinity-based profiling tools, we study RNA structural folding and small molecule ligand binding. Applying these tools to structured RNA, we determine ligand binding sites with single nucleotide resolution. Lastly, combining our tools with qPCR allows us to measure binding of RNA targeting drugs in live cells.

2:40 pm Predictive binding free energy calculations for RNA targets using QUELO QM/MM FEP

David Pearlman, PhD, Vice President, Product, QSimulate

Free energy methods (FEP) have proven extremely useful in ligand optimization against protein receptors, but less predictive for RNA targets—where interactions often critical to binding (pi-stacking, polarizable moieties, etc.) are poorly represented in classical molecular mechanics force fields. QSimulate has developed a quantum mechanics-based approach for MD-based methods. Implemented within the QUELO FEP platform, this unlocks the door to FEP calculations predictive for RNA target systems—with pharma-relevant turnaround speeds.

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

4:00 pm

Tools to Measure RNA Binding Protein-RNA Defects

Eugene Yeo, PhD, MBA, Professor, Cellular and Molecular Medicine, University of California, San Diego; Founding Member, Institute for Genomic Medicine

I will discuss transcriptome-wide methods we have developed to assess defects and RNA binding protein-RNA changes in small molecule-mediated perturbation of systems.

4:30 pm

Chemoproteomic Capture of RNA Binding Activity in Living Cells

Ken Hsu, PhD, Stephen F. and Fay Evans Martin Endowed Associate Professor, Department of Chemistry, The University of Texas at Austin

Here, we develop a photo-activatable-competition and chemoproteomic enrichment (PACCE) method for detecting thousands of cysteine sites on proteins displaying RNA-sensitive alterations in probe binding. PACCE is complementary to existing RNA interactome capture methods and enabled functional profiling of canonical RNA-binding domains as well as discovery of moonlighting RNA binding activity in the human proteome. Collectively, we introduce a chemoproteomic platform for proteome-wide quantification of protein-RNA binding activity in living cells.

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 9: Tools for Studying RNA Structure and Function (SESSION ROOM)

Amanda Garner, PhD, Associate Professor, College of Pharmacy, Department of Medicinal Chemistry, University of Michigan

Donny Licatalosi, PhD, Head, RNA Biology, Takeda Pharmaceutical Company

Willem Velema, PhD, Assistant Professor, Physical Organic Chemistry, Radboud University

Jingxin Wang, PhD, Assistant Professor, Section of Genetic Medicine, Department of Medicine, University of Chicago

  • Emerging techniques for probing different RNA modalities and binding
  • Methods to explore druggability of RNA-protein interactions   
  • AI-enabled approaches to target RNA    
  • Exploring RNA degradation, chemoproteomics, chemogenomics and other strategies​

Close of Day5:45 pm

Dinner Short Course Registration5:45 pm

Dinner Short Course*6:15 pm

SC7: Chemical Biology for Covalent Discovery, Phenotypic Screening, and Target Deconvolution

*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

EMERGING SMALL-MOLECULE MODULATORS OF RNA

10:10 am

Chairperson's Remarks

Thomas Hermann, PhD, Professor, Department of Chemistry & Biochemistry, University of California, San Diego

10:15 am

Small-Molecule Splicing Modifiers: Pharmaceutical Properties to Preclinical Efficacy

Jana Narasimhan, PhD, Executive Director, PTC Therapeutics Inc.

Small-molecule splicing modifiers to regulate protein expression have emerged as a successful strategy to address certain diseases. Diseases such as spinal muscular atrophy, familial dysautonomia, and Huntington’s disease can be targeted by small-molecule splicing modifiers. The correlation between pharmaceutical properties and pharmacokinetics, pharmacokinetics and pharmacodynamics, and between pharmacodynamics and efficacy will be discussed for select indications.

10:45 am

Recent Advances in the Discovery of RNA-Targeted Small Molecules

Karthik Iyer, PhD, Director, Head of Medicinal Chemistry, Arrakis Therapeutics

Our mission at Arrakis is to solve very broadly the problem of how to drug RNA with small molecules. This presentation will provide an update on the platform we have built to achieve that mission and provide early data on specific mRNA targets.

11:15 am

AI-Enabled RNA-Small Molecule Drug Discovery: What Drives Functional Outcomes?

Rabia Khan, PhD, MBA, CEO, Serna Bio

Targeting RNAs and modulating their function could transform drug discovery. An estimated 85% of the ~3 billion base pairs in the human genome are transcribed into RNA, but only ~1.5% of these code for proteins. At Serna Bio we are using an AI-enabled, data-first approach to build the world's first map of the druggable transcriptome. I will discuss some of the challenges of developing and advancing target-specific programs.

11:45 am PANEL DISCUSSION:

Addressing Challenges in Developing RNA Targeting Small-Molecule Drugs

PANEL MODERATOR:

Thomas Hermann, PhD, Professor, Department of Chemistry & Biochemistry, University of California, San Diego

PANELISTS:

Karthik Iyer, PhD, Director, Head of Medicinal Chemistry, Arrakis Therapeutics

Rabia Khan, PhD, MBA, CEO, Serna Bio

Jana Narasimhan, PhD, Executive Director, PTC Therapeutics Inc.


Topics to be discussed:

  • Targeting RNA versus RNA-RBP complexes 
  • Modalities for targeting RNA  
  • Screening assays- affinity versus phenotypic; in vitro versus in vivo​

Enjoy Lunch on Your Own12:30 pm

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

NOVEL RNA-TARGETING APPROACHES

1:55 pm

Chairperson's Remarks

Udo Oppermann, PhD, Professor & Chair, Musculoskeletal Sciences, University of Oxford

2:00 pm

Proximity-Induced Nucleic Acid Degrader (PINAD) Approach to Targeted RNA-Degradation Using Small Molecules

Gonçalo Bernardes, PhD, Professor, Department of Chemistry, University of Cambridge

This talk will cover recent examples on the development of click-degraders, small molecules that when in proximity can degrade RNA, akin to ribonucleases. Using click-degraders we developed meCLICK-Seq, a powerful method for the study of diverse aspects of cellular RNA methylation. We also developed proximity-driven small molecule RNA degraders to target and degrade SARS-CoV-2 genomes and exert an antiviral effect in disease models.

2:30 pm

Development of RNA-Degrading Chimeras Targeting Viral Genomes

Jingxin Wang, PhD, Assistant Professor, Section of Genetic Medicine, Department of Medicine, University of Chicago

RNA viruses such as SARS-CoV-2 have highly structured untranslated regions (UTRs), which are vital for viral propagation. These RNA structures are promising antiviral targets. We developed a new class of molecules that target the four-way junction RNA structure named SL5 in the 5’ UTR of the SARS-CoV-2 genome. We optimized the SL5-binding ligand, conjugated it to ribonuclease-recruiting moieties to create active RNA-degrading chimeras, and demonstrated their activities in SARS-CoV-2-infected cells.

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

Identification of tRNA Synthetases as Therapeutic Vulnerabilities in Human Cancers

Udo Oppermann, PhD, Professor & Chair, Musculoskeletal Sciences, University of Oxford

Modulating RNA functions emerges as an attractive therapeutic modality in several disease areas. By deploying chemogenomic tools, we identify and validate preclinically human prolyl-tRNA synthetase as a novel target in haematological and solid cancers. Inhibition leads to dose-dependent down-regulation of proline-rich oncogenic transcription factors and signaling molecules with concomitant cancer cell death, reduction in tumor burden, and increased host survival in ex vivo and in vivo systems.

4:30 pm

Degrading an RNA-binding Protein to Treat BRAF-mutant Colorectal Cancer

Yong Cang, PhD, Professor, ShanghaiTech University; Co-founder & CSO, Degron Therapeutics

We performed proteomic studies on cells treated with rationally designed CRBN modulators and identified novel molecular glue degraders of a previously “undruggable” RNA binding oncoprotein (RBP). RBP controls the levels of BRAF and EGFR, and its targeted degradation inhibited BRAF-mutant colorectal cancer cell proliferation and tumor growth, either alone or synergistically with BRAF inhibitors.

5:00 pm

High Specificity RNA-Directed Therapy for AD/PD with Implications for Treating SARS-CoV-2

Jack Rogers, PhD, Director, Neurochemistry Laboratory, Associate Professor, Psychiatry-Neuroscience, Harvard Medical School and Massachusetts General Hospital

The Alzheimer’s amyloid precursor-protein and Parkinson’s alpha-synuclein were rigorously shown by our laboratory at MGH to be translationally controlled via the 5’untranslated regions of their mRNAs in neurons, i.e., via uniquely-folded iron-responsive-elements RNA stem-loops. Our new 5’UTR inhibitors limited APP-amyloid and alphasynuclein in the nanomolar range to prevent formation of toxic fibrils in mouse models of PD. We unexpectedly discovered these RNA inhibitors can readily be repurposed to inhibit translation of the replicase in SARS-CoV-2.

Close of Conference5:30 pm