Cambridge Healthtech Institute's 5th Annual

Small Molecules for Cancer Targets – Part 2

Discovering Tomorrow’s Orally Bio-Available Oncology Therapeutics

September 27 - 28, 2023 EDT

Small molecule-based therapeutic options against traditionally hard-to-drug intracellular oncology targets (like KRAS) are being discovered at a more rapid pace and a few have even reached the market in the past few years. Not only do small molecules offer the promise of medicine in pill form and more affordability than do biologics, but they also expand the types of cancers that can be treated due to their ability to better penetrate the tumor microenvironment (TME) and their ability to enter the cell and reach intracellular targets. Cambridge Healthtech Institute's 5th Annual back-to-back Small Molecules for Cancer Targets conferences showcase the small molecule compounds making progress in oncology. Our expanded coverage via Part 1 and Part 2 reflects the increased number of cellular and immunological oncology mechanisms and targets being uncovered and new discovery chemistry and biology advances enabling progress in modulating them.

Wednesday, September 27

PLENARY KEYNOTE PROGRAM

10:40 am

Plenary Chairperson’s Remarks

An-Dinh Nguyen, Team Lead, Discovery on Target, Cambridge Healthtech Institute

10:45 am

PLENARY: The New Science of Therapeutics

Jay E. Bradner, MD, Physician Scientist, Former President, Novartis Institutes for BioMedical Research, Inc.

I will share reflections on how new paradigms in the science of therapeutics are creating opportunities to approach historic challenges in medicine. Specifically, I will share approaches to targeting transcription factors and discuss how modularity is a paradigm for next-generation low-molecular weight and biological therapeutics. Finally, I will offer reflections on drug development and the fitness, opportunities, and challenges of the biomedical ecosystem.

11:30 am

PLENARY: Accelerating Drug Discovery Using Machine Learning and Cell Painting Images

Anne E. Carpenter, PhD, Senior Director, Imaging Platform & Institute Scientist, Broad Institute

Shantanu Singh, PhD, Senior Group Leader, Machine Learning, Imaging Platform, Broad Institute

Microscopy images can reveal whether a cell is diseased, is responding to a drug treatment, or whether a pathway has been disrupted by a genetic mutation. In a strategy called image-based profiling, often using the Cell Painting assay, we extract hundreds of features of cells from images. Just like transcriptional profiling, the similarities and differences in the patterns of extracted features reveal connections among diseases, drugs, and genes.

Enjoy Lunch on Your Own12:15 pm

Welcome Remarks1:45 pm

INHIBITING E3 LIGASE CBL-B: AN IMMUNO-ONCOLOGY STRATEGY

1:50 pm

Chairperson's Remarks

Robert J Bauer, PhD, Principal Scientist, Biochemistry & Biophysics, Merck Research Labs

1:55 pm

FEATURED PRESENTATION: Discovery and Optimization of a Novel Series Potent and Selective Cbl-b Inhibitors

Adelphe Mfuh, PhD, Senior Scientist, Medicinal Chemistry, AstraZeneca Pharmaceuticals

Casitas B lymphoma-b (Cbl-b) is a member of the Cbl family of RING E3 ubiquitin ligases that has been shown as a central player in regulating effector T cell function. Multiple studies using gene-targeting approaches have provided direct evidence that Cbl-b negatively regulates T and NK-cell activation. Herein we describe our structure-based drug discovery (SBDD) campaign towards the optimization of a novel series of Cbl-b inhibitors, which demonstrate robust T cell activation and biochemical selectivity toward c-Cbl with promising physicochemical properties, and represent a suitable starting point for in vivo studies

2:25 pm

Targeting a Novel E3 Ligase with Small Molecule Inhibitor NX-1607: A First-in-Class CBL-B Inhibitor in the Clinic

Cristiana Guiducci, PhD, Senior Vice President, Immunology & Oncology Research, Nurix Therapeutics, Inc.

The CBL-B E3 ubiquitin ligase functions as a negative regulator of T cell receptor activation. We report discovery of NX-1607, an orally bioavailable CBL-B inhibitor that demonstrates anti-tumor activity in multiple preclinical tumor models. NX-1607 triggers rapid NK and T cell infiltration of tumors and shows increased frequency of tumor rejection in combination with anti-PD-1. Our studies provide rationale for clinical development of NX-1607 in advanced malignancies.

2:55 pm FDA-Approved Drugs Screened in the Gold-Standard HotSpot Assay Against the Largest Collection of Kinases Reveals Unexpected Activities and Opportunities

Christian Loch, Dr., Director of Kinase Assay Services, Biochemical Drug Discovery Services, Reaction Biology

Description:

Drugs rarely inhibit only the target(s) against which they were selected.

Drugs selected against non-kinase targets often, but not always, inhibit kinases. 

Mutant kinases often behave unexpectedly and independent of the corresponding WT enzyme.

Maximizing the targets screened suggests repurposing opportunities that may otherwise be missed.  

 

Refreshment Break in the Exhibit Hall with Poster Viewing3:25 pm

DRUGGING CBL-B and OTHER TPD-RELATED TARGETS FOR IO

4:05 pm

Developing an Assay Cascade to Target Cbl-b

Thomas P. Garner, PhD, Principal Scientist, Biophysics, Genentech, Inc.

Casitas B-lineage lymphoma-b (CBL-B) is a member of the CBL family of RING E3 ubiquitin ligases. CBL-B negatively regulates T cell receptor signaling and T cell activation and its inhibition leads to immune activation. This makes CBL-B an attractive target for cancer immunology, with inhibitors having the potential to be broadly active in multiple oncology indications. Here we discuss the use of biochemical, biophysical, and cellular assays, for hit finding and lead development, applied to identifying and developing CBL-B inhibitors with isoform selectivity and cellular potency.

4:35 pm

Discovery and Optimization of HIF-2a Inhibitors

Ken Lawson, PhD, Director, Medicinal Chemistry, Arcus Biosciences

The transcription factor hypoxia-inducible factor 2a (HIF-2a) is a key oncogenic driver in clear cell renal cell carcinoma (ccRCC). Hypoxic or pseudohypoxic conditions promote HIF-2a stabilization and transcription of pro-tumorigenic genes. Inhibition of HIF-2a has significant potential to mitigate tumor growth, particularly in cancers with a high prevalence of molecular alterations associated with pseudohypoxia. Herein we describe the discovery and optimization of a potent series of small molecule HIF-2a inhibitors.

Dinner Short Course Registration*5:00 pm

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

Diversity Discussion (Sponsorship Opportunity Available)5:05 pm

IN-PERSON GROUP DISCUSSION:

Embracing All Shades of Diversity

Stephanie Ashenden, PhD, Senior Informatician, Artificial Intelligence & Machine Learning, AstraZeneca

Dele Babalola, Senior Director, Clinical Data Management, Morphic Therapeutic

Saudat Fadeyi, PhD, MBA, Director, Business Development, Ovid Therapeutics

Rabia Khan, PhD, MBA, CEO, Serna Bio

Daniel La, PhD, Vice President & Head, Medicinal Chemistry, Triana Biomedicines, Inc.

Joel Omage, Research Scientist II, CVM Disease Area, Novartis Institutes for Biomedical Research, Inc.

Join us for this interactive, informal, candid 55-minute discussion on welcoming and increasing all aspects of diversity in the life sciences. We have invited some engaging speakers to share their stories and experiences on initiatives that have and haven’t worked. Our goal is to help the audience learn, question, and get motivated to improve diversity in their own environments. This discussion will not be recorded nor available for on-demand access.

Topics for discussion will include, but certainly not be limited to: 

  • Importance of fostering empathy 
  • Recognizing and supporting neurodiversity
  • Encouraging and implementing diversity in thought
  • Creating avenues for improving gender diversity and participation
  • Increasing racial diversity, particularly in leadership positions
  • Reaching low income and underprivileged neighborhoods to eliminate any “zipcode bias”
  • Understanding and addressing other hidden barriers and biases
  • Implementing mentorship and internship programs that are simple yet impactful​​

Close of Day8:00 pm

Thursday, September 28

Registration and Morning Coffee7:30 am

EMERGING SMALL MOLECULE CANCER TARGETS

8:00 am

Chairperson's Remarks

Charles W. Johannes, PhD, former Vice President, Exploratory Chemistry, FogPharma

8:05 am

MALT1 Inhibition Is Effective and Shows Synergistic Activity with Venetoclax in Models of B Cell Lymphoma

Joshua P. Plotnik, PhD, Senior Scientist II, Oncology Discovery, AbbVie, Inc.

MALT1 has a central role in the integration of the B cell signaling pathway, and therapeutic targeting of this protease has generated interest for the treatment of aggressive lymphomas. We will present the discovery of ABBV-MALT1, a potent and selective inhibitor of MALT1. Further, we will illustrate the observed mechanistic rationale for synergy between ABBV-MALT1 and the BCL2 inhibitor venetoclax. This combination results in superior efficacy in models of aggressive lymphoma.

8:35 am

Targeting the Innate Immune System: Opportunities and Challenges with STING-based Cancer and Autoimmunity Approaches 

Shenghua Zhou, PhD, Former Principal Scientist, Discovery Biology, Spring Bank Pharmaceuticals

The innate immune system, in particular the cytosolic DNA sensing cGAS-STING pathway plays a crucial role in host defense via the induction of type I interferon (IFN). However, inappropriate activation of the cGAS-STING signaling pathway, as seen in familial SAVI mutations, could lead to life-threatening disease. Newly developed STING agonist and antagonist compounds offer hope for patients suffering from certain types of cancers and autoinflammatory diseases.

9:05 am

Disrupting the YAP-TEAD Protein-Protein Interaction with Small Molecules: Discovery of Drug Candidate NVP-IAG933

Holger Sellner, PhD, Senior Principal Scientist, Global Discovery Chemistry - Oncology, Novartis Pharma AG

The inhibition of the YAP-TEAD protein-protein interaction constitutes a promising approach for the treatment of cancers associated with a dysregulation of the Hippo pathway. Starting from a weakly active hit binding to one of the two main sites of interaction of YAP at the surface of TEAD, we managed to improve the potency of this hit class by several orders of magnitude, and to identify inhibitors with cellular activity, which displayed efficacy in tumor-bearing mice after oral administration. The main features of this work will be presented finally leading to the discovery of our clinical compound NVP-IAG933.

9:35 am

Repurposed Drugs and Novel Compounds for Cancer Metastasis Inhibition

Ulrike Stein, PhD, Professor, Translational Oncology, Max Delbruck Center for Molecular Medicine

We newly identified the gene Metastasis associated in colon cancer 1 (MACC1). This gene induces cancer cell proliferation, motility and metastasis in mice. Here we introduce the audience into novel options for development of anti-metastatic therapy strategies by using repurposed small molecule drugs and novel compounds for cancer metastasis inhibition.

In-Person Group Discussions10:05 am

In-Person Group Discussions are informal, moderated discussions, allowing participants to exchange ideas and experiences and develop future collaborations around a focused topic. Each discussion 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 In-Person Group Discussions page on the conference website for a complete listing of topics and descriptions.

IN-PERSON GROUP DISCUSSION 4B:

Challenges Targeting Intracellular Oncoproteins

Charles Wartchow, PhD, Associate Director, Global Discovery Chemistry, Novartis Institutes for BioMedical Research

  • Why so many TPD approaches are for cancer 
  • Small molecule IO opportunities/combos 
  • Small Molecules in a Big Way: bRo5 issues 
  • Digging deeper: additional Q&A for Session Speakers​

Coffee Break in the Exhibit Hall with Poster Viewing10:50 am

PATTERN RECOGNITION RECEPTORS IN CANCER AND IMMUNITY

11:30 am

Characterizing the Distribution of a STING Agonist and Its Metabolites in Mouse Liver by MALDI Imaging Mass Spectrometry

Fang Xie, PhD, Associate Director, Bioimaging, In Vitro In Vivo Translation, GSK

MALDI imaging mass spectrometry (IMS) was used to quantify the distribution of a STING (stimulator of interferon genes) agonist under early discovery in liver collected from a mouse model after oral dosing. The parent drug was detected with a zonal distribution localized in the portal triad, specifically localized to the cellular populations in the sinusoids including the target cellular population Kupffer cells. A series of drug-related metabolites was detected to localize in the central zones. The study exemplified that multiple pharmacokinetic properties of a drug can be characterized with spatial context by MALDI IMS.

12:00 pm

Targeting RIG-1 for Cancer

Radhakrishnan Iyer, PhD, CSO, RIGImmune, Inc.

Retinoic acid inducible gene (RIG-I) plays a central role in the induction of innate immune response. We have developed a new class of Stem-loop RNA compounds as novel RIG-I agonists that are being advanced as anticancer agents and broad-spectrum antivirals. The activation of RIG-I induces interferon signaling cascade for tumor killing through apoptosis of tumors and the induction of innate and adaptive immune responses. The lead compound shows potent antitumor activity in multiple syngeneic tumor models when used alone and in combination with other agents, with the induction of adaptive immune response, abscopal effects and immune memory.

12:30 pm Overcoming the Model Sourcing Challenge with the World’s Largest Database of Proprietary Tumor Models (10,000+)

Javier Pineda, Data Scientist, Scientist.com

By partnering with industry-leading providers, Scientist.com has built the Disease Model Finder: a free, centralized database of tumor models (PDX, CDX, syngeneics, organoids, PDCs). Cancer researchers can drastically cut down on sourcing time, utilize proprietary data to conduct quantitative model comparisons, and place requests through our fully integrated, AI-driven platform.

 

Dessert Break in the Exhibit Hall with Last Chance for Poster Viewing1:35 pm

DEGRADING ONCOGENIC TRANSCRIPTION FACTORS

2:15 pm

Chairperson's Remarks

Charles Wartchow, PhD, Associate Director, Global Discovery Chemistry, Novartis Institutes for BioMedical Research

2:20 pm

Understanding the Recruitment of Zinc-Finger-Based Transcription Factors to Cereblon in the Presence of Molecular Glues

Charles Wartchow, PhD, Associate Director, Global Discovery Chemistry, Novartis Institutes for BioMedical Research

Transcription factors are known to bind to cereblon in the presence of molecular glues and some reports implicate interactions with multiple zinc fingers. We present biophysical and structural assessments of the minimal binding domains of IKZF2 and another transcription factor revealing that two zinc fingers interact with cereblon:glue complexes. In these examples, the binding modes are distinct and may have implications for the design of selective degraders.

2:50 pm

Discovery and Characterization of an IKZF2 Selective Molecular Glue Degrader with Best-in-Class Potential

Courtney Havens, PhD, Director of Biology, Proteovant Therapeutics, Inc.

IKZF2 (Helios) plays an important role in maintaining stability and function of regulatory T cells (Tregs). Proteovant applied a structure-guided drug discovery approach to identify an IKZF2 selective molecular glue degrader, PVTX-405. PVTX-405 shows selective degradation of IKZF2 in vitro and in vivo. PVTX-405 treatment reduces suppressive activity of human Treg cells ex vivo and delays growth of MC38 tumors in immune competent mice in vivo.

3:20 pm

New Technologies for Advancing the Targeted Protein Degradation

H. Ümit Kaniskan, PhD, Associate Professor, Laboratory of Dr. Jian Jin, Department of Pharmacological Sciences, Icahn School of Medicine at Mt. Sinai

The Jian Jin Laboratory at Mount Sinai is a leader in discovering novel degraders targeting oncogenic proteins and developing new technologies for advancing the targeted protein degradation field. Our lab’s recent progress advancing the targeted protein degradation, including TF-PROTAC, Bridged PROTAC, Folate-caged PROTAC, opto-PROTAC, and KEAP1-recruiting PROTAC technologies will be presented.

3:50 pm

Targeted Degradation of STAT Proteins

Longchuan Bai, PhD, Associate Research Scientist, Laboratory of Dr. Shaomeng Wang, University of Michigan

STAT (signal transducer and activator of transcription) proteins are a family of transcription factors that mediate signal transduction downstream of cytokine and growth factor receptors. Hyperactivation of STAT3 and STAT5 has been linked to cancer cell proliferation, survival, stemness, and immune evasion, making them attractive targets for cancer therapy. STATs have been difficult to target by traditional small-molecule inhibitors. Employing the PROTAC technology, we have developed highly selective and potent STAT3 or STAT5 degraders with strong anti-tumor activities in hematologic cancer models.

Close of Conference4:20 pm