Cambridge Healthtech Institute’s 20th Annual

Genomics-Driven Drug Discovery

Utilizing CRISPR Screening, Single-Cell Sequencing, Spatial, and Synthetic Biology

September 27 - 28, 2023 EDT

While finding novel druggable targets and drug modalities for therapeutic intervention remains a top priority for the pharma/biotech industry, identifying and validating "good" targets and leads remains challenging. Cambridge Healthtech Institute’s conference on Genomics-Driven Drug Discovery discusses the use of functional genomics screening, gene editing, single-cell sequencing, spatial analysis, and synthetic biology for applications in drug discovery. Case studies will highlight how CRISPR screening, base editing, single cell RNA sequencing, and spatial transcriptomics are being used to identify cellular pathways and difficult or “undruggable” targets. Complementary use of these genomic technologies with artificial intelligence (AI), machine learning (ML), imaging, 3D organoid models, and more will also be discussed.

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

SYNTHETIC BIOLOGY & PROGRAMMABLE REGULATION

1:50 pm

Chairperson's Remarks

Ron Weiss, PhD, Professor, Biological Engineering, Massachusetts Institute of Technology

1:55 pm

FEATURED PRESENTATION: Mammalian Synthetic Biology and Programmable Organoids

Ron Weiss, PhD, Professor, Biological Engineering, Massachusetts Institute of Technology

Based on programmed differentiation into synthetic mammalian tissues having multiple cell type architectures that are similar to human organs, Programmable Organoids mimic the response of a target organ to both positive and negative effects of drug candidates. Programmable Organoids can host a large array of live-cell biosensors, built-in to one or more cell types, providing a rapid and real-time spatial readout of pathway-specific biomarkers including miRNAs, mRNAs, proteins, and other metabolites. Organoids programmed with both general and disease-specific sensors then provide detailed information that can be used to identify candidates for further analysis. 

2:25 pm

Programmable Regulation of Mammalian Transcription and Therapeutic Protein Expression

William Chen, MD, PhD, Assistant Professor, Sanford School of Medicine, University of South Dakota

Mammalian transgene expression relies on a limited collection of natural promoters that drive discrete levels of transcription and consequent protein expression. However, the behaviors of natural promoters could be challenging to predict in different cell types, making it difficult to precisely control transcription. To address these obstacles, using synthetic biology toolkits, we have developed versatile, scalable platforms and programmable genetic components to transform regulation of mammalian transcription and transgene expression. 

2:55 pm Functional Genomics Approaches in Drug Discovery

Peter Staller, PhD, Director, Functional Genomics Research, NUVISAN ICB GmbH

At NUVISAN, we use CRISPR/Cas9, NGS, and single cell sequencing to identify and validate novel targets for precision medicine, deconvolute compound targets and perform MOA and biomarker studies. In this context, I will discuss a recent CRISPR screen addressing the oncogenic YAP/TAZ pathway.  In addition, I will introduce our iPSC platform that offers advanced humanized in vitro solutions for disease modeling and screening​. 

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

4:05 pm

A Transcription Factor Atlas of Directed Differentiation

Julia Joung, PhD, Postdoctoral Fellow, Laboratory of Dr. Jonathan Weissman, Whitehead Institute

To comprehensively understand transcription factors (TFs), we created a barcoded library of all human TF splice isoforms and applied it to build a TF Atlas charting single-cell expression profiles of pluripotent stem cells overexpressing each TF. We validated TFs for generation of diverse cell types, spanning all three germ layers and trophoblasts. We further developed a strategy for predicting TF combinations that produce target cell types to accelerate cellular engineering.

4:35 pm

Synthetic Transcription-Factor Activity Responsive (STAR) Gene Circuits for Cancer Immunotherapy

Ming-Ru Wu, MD, PhD, Assistant Professor, Department of Cancer Immunology and Virology, Dana-Farber Cancer Institute, Harvard Medical School

We have developed synthetic cancer-targeting gene circuits that specifically target cancer cells. Once the circuits enter cells, they will sense the activity of several cancer-associated transcription factors and get activated in tumor cells to trigger tumor-localized combinatorial immunotherapy. Circuits mediate robust therapeutic efficacy in ovarian cancer mouse models. This platform can be adjusted to treat multiple cancer types and can potentially trigger genetically encodable immunomodulators as therapeutic outputs.

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

LEVERAGING CRISPR & FUNCTIONAL GENOMICS

8:00 am

Chairperson's Remarks

Jason Sheltzer, PhD, Assistant Professor, Department of Surgery, Oncology, Yale University School of Medicine

8:05 am FEATURED PRESENTATION:

A Drug’s Most Potent Target Is Not Necessarily the Source of Its Anti-Cancer Activity

Jason Sheltzer, PhD, Assistant Professor, Department of Surgery, Oncology, Yale University School of Medicine

The small-molecule drug ralimetinib was developed as an inhibitor of the kinase p38α. We describe a multi-modal approach that demonstrates that ralimetinib’s anti-cancer activity occurs due to its ability to inhibit EGFR, rather than p38α. Our results demonstrate that a compound’s anti-cancer effects should not necessarily be attributed to the protein that it inhibits most strongly, and instead, comprehensive cellular and genetic profiling is required to understand a drug’s mechanism-of-action.

8:35 am

Confounding of CRISPR-Based Target Discovery by Genomic Proximity

Nathan Lazar, PhD, Senior Director, Data Science, Recursion Pharmaceuticals, Inc.

CRISPR-Cas9 has been reported to cause a variety of undesired large-scale structural changes to the genome. We performed an arrayed CRISPR-Cas9 scan of the genome in primary human cells targeting 17,065 genes and revealed a proximity bias in which knockouts bear unexpected phenotypic similarity to unrelated genes on the same chromosome arm. Transcriptomics connects this effect to chromosome-arm truncations, and analysis of published large-scale experiments confirms that it is general across cell types, labs, Cas9 delivery mechanisms, and assay modalities. Finally, we demonstrate a simple correction for large-scale CRISPR screens to mitigate this pervasive bias while preserving biological relationships.

9:05 am

Having Fun (at Last) with Functional Genomics

Sarra Merzouk, PhD, Screening Staff Scientist, Genetic Perturbation Platform, Broad Institute of MIT and Harvard

Abstract: We will cover CRISPR technologies that allow genome exploration at both broad scale and fine resolution. For the former, Cas12a allows for facile multiplexing of guide RNAs, simplifying combinatorial perturbations; we will share work mapping synthetic lethal interactions with knockout screens and progress in developing Cas12a for CRISPR activation screens. Additionally, base editor technology enables nucleotide-level manipulation, and we will present screens mapping cancer-relevant genes and pathways. 

9:35 am

Next-Generation Tools for Spatial Genomics

Fei Chen, PhD, Assistant Professor, Stem Cell & Regenerative Biology, Broad Institute

Here, we’ll describe a new technology called Slide-tags in which single nuclei within an intact tissue section are "tagged" with spatial barcode oligonucleotides derived from DNA-barcoded beads with known positions. We adapted Slide-tags for T cell receptor sequencing to spatially map T cell clonality in single nuclei. We also implemented Slide-tags to quantify genetic alterations at single-nucleus spatial resolution by targeted sequencing of single-nucleotide variations captured in the transcriptome. Slide-tags offers a universal platform for importing established single cell measurements of gene expression, epigenetic regulation, and antibody-based quantification into the spatial genomics repertoire.

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 2B:

When and How to Best Leverage Genomics Tools and Data

William Chen, MD, PhD, Assistant Professor, Sanford School of Medicine, University of South Dakota

Nathan Lazar, PhD, Senior Director, Data Science, Recursion Pharmaceuticals, Inc.

Sarra Merzouk, PhD, Screening Staff Scientist, Genetic Perturbation Platform, Broad Institute of MIT and Harvard

  • Expanding the current functional genomics toolbox for drug discovery
  • Highlighting how CRISPR and base editor screens can be effectively used
  • Leveraging genomic data to understand drug mechanisms and off-target effects 
  • Combining genomics and AI to help improve speed and accuracy 
  • Using synthetic biology for programmable genetic regulation​

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

11:30 am PANEL DISCUSSION:

Opportunity for 3D Cellular Models to Address Gaps in Drug Development

PANEL MODERATOR:

Madhu Lal Nag, PhD, CSO, InSphero

PANELISTS:

Piyush Bajaj, PhD, Senior Principal Scientist & Lab Head, Global Investigative Toxicology, Preclinical Safety, Sanofi

Marc Ferrer, PhD, Director of the 3D Tissue Bioprinting Laboratory, Division of Preclinical Innovation, National Center for Advancing Translational Sciences, National Institutes of Health (NIH)

Megan LaFollette, PhD, Executive Director, The 3Rs Collaborative

Topics to be covered:

  • Understanding the goals of the FDA Modernization Act – What are the gaps in preclinical research that can now be addressed by 3D models?
  • Using the right 3D Models to help the development of genomically-targeted therapeutics
  • Improving the predictive power of 3D Models​​
12:30 pm TCR & BCR Repertoire Analysis & Other Approaches for the Discovery of Drug Targets, Resistance Mechanisms & Biomarkers

Paul Diehl, PhD, COO, Cellecta, Inc

We will introduce a number of Cellecta technologies along with relevant data for drug & biomarker discovery and validation, including CRISPR functional screening, cell tracking tools, as well as the recently launched DriverMap™ Adaptive Immune Receptor (AIR) Profiling Assay that enables the identification of more clonotypes and their activation levels with greater sensitivity and reproducibility than other assays on the market.

Transition to Lunch1:00 pm

1:05 pm LUNCHEON PRESENTATION:Unlocking the Potential of Single-Cell Sequencing at Scale with Combinatorial Indexing

Jeff Barnes, Head, US Sales & Support, Scale Biosciences, Inc.

Combinatorial indexing technology enables cost-effective single-cell profiling and increased levels of throughput for larger, more complex single cell studies. Leveraging the cell as the reaction compartment, this method enables increased sample multiplexing and a reduced cost per cell, as well as a 2-day, instrument-free, accessible workflow. In this presentation, we will introduce the technology and outline its uses for applications such as scRNAseq, scATACseq, single-cell methylation and CRISPR guide enrichment.

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

AI/ML & MULTI-OMICS FOR TARGET DISCOVERY

2:15 pm

Chairperson's Remarks

Ran Kafri, PhD, Assistant Professor, Department of Molecular Genetics, University of Toronto

2:20 pm

The Power of Partnerships in Functional Genomics

Davide Gianni, PhD, Senior Director, Functional Genomics, AstraZeneca

I will be talking on how industry/public partnership can enable the development of functional genomics capabilities for target discovery. I will present a few case studies to exemplify this concept and discuss the challenges and opportunities we face in this field.

2:50 pm

Predicting Onset Age of Tumors from Inflammatory and Metabolic Measurements on Skin Biopsy-derived Fibroblasts

Ran Kafri, PhD, Assistant Professor, Department of Molecular Genetics, University of Toronto

Cornerstone to the development of cancer and other age-dependent disease are the downstream influences of systemic metabolism and inflam-ageing. Relying on skin biopsy-derived fibroblasts, we developed multivariate phenotypic readouts that quantify metabolic and inflammatory rates that are specific to the individual biopsy donor at the single cell level. We found that these cell assay readouts correlate with pharmacological (rapamycin) or life-style (weight gain) interventions that had occurred in the individuals past and predict the onset age of cancers in the individuals future. Skin fibroblasts derived from cancer-free individuals from Li Fraumeni patients that were subject to years-long clinical surveillance, predicted the specific (personalized) onset age of cancers that developed years post-biopsy.

3:20 pm

Using CRISPR/AI to Uncover Disease-Driving RNA Messages for Therapeutics Discovery

Chun-Hao Huang, PhD, Co-Founder & CEO, Algen Biotechnologies

Algen is a platform therapeutics and drug discovery company using the world’s leading CRISPR and AI to uncover disease-driving RNA messages to find treatments for cancer, inflammation, and other diseases. Spun out from Nobel Laureate Professor Jennifer Doudna's Lab, Algen aims to develop the world’s smartest drug discovery decision platform and data universe to create next-generation therapeutics.

Close of Conference3:50 pm