Cambridge Healthtech Institute's 10th Annual

Antibodies Against Membrane Protein Targets – Part 2

Targeting GPCRs, Ion Channels, and Transporters

October 19 - 20, 2022 EDT

As the pharmaceutical and biotech industries increasingly shift attention to biologics, much more attention is being paid to the prospect of developing biotherapeutics against membrane-bound targets. For the large GPCR and ion channel target classes, biologics offer improved selectivity, an alternative for targets with known function that have not been amenable to small-molecule drugs, and the potential for using antibodies for the targeted delivery of therapeutics. However, for the field to advance, fundamental challenges in antigen quality and presentation, discovery methodologies, protein engineering, and the pace of discovery must be resolved. This two-part meeting provides a forum in which discovery biologists and protein engineers can come together to discuss next-generation strategies and technologies that will allow biologic drugs for these target families to advance into the clinic and beyond.

Wednesday, October 19

PLENARY KEYNOTE PROGRAM

ROOM LOCATION: Constitution A + B

11:00 am

Plenary Chairperson’s Remarks

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

11:05 am

PLENARY: Pirating Biology to Detect and Degrade Extracellular Proteins

James A. Wells, PhD, Professor, Departments of Pharmaceutical Chemistry and Cellular & Molecular Pharmacology, University of California, San Francisco

In contrast to intracellular PROTACs, approaches to degrade extracellular proteins are just emerging. I’ll describe our recent progress to harness natural mechanisms such as transmembrane E3 ligases to degrade extracellular proteins using fully genetically encoded bispecific antibodies we call AbTACs. We have also engineered a peptide ligase which can be tethered to cells to detect proteolysis events and target them with recombinant antibodies for greater selectivity for the tumor microenvironment.

11:50 am

PLENARY: Therapeutic Modalities for Neuroscience Diseases

Anabella Villalobos, PhD, Senior Vice President, Biotherapeutics & Medicinal Sciences, Biogen

Many effective medicines exist to treat neurological diseases, but medical need remains high. We have a unique multi-modality approach to discover novel therapies and our goal is to find the best modality regardless of biological target. With a multi-modality approach, we aim to expand target space, leverage synergies across modalities, and offer options to patients. Opportunities and challenges associated with small molecules, biologics, oligonucleotides, and gene therapy will be discussed.

Enjoy Lunch on Your Own12:35 pm

Refreshment Break in the Exhibit Hall with Poster Viewing (Grand Ballroom Foyer)1:25 pm

ROOM LOCATION: Back Bay C

TARGETING GPCRs

2:05 pmWelcome Remarks
2:10 pm

Chairperson’s Remarks

Christel Menet, PhD, CSO, Confo Therapeutics

2:15 pm

Autoantibody and Hormone Activation of the Thyrotropin G Protein-Coupled Receptor

Bryan Faust, PhD, Deal Analyst, Andreessen Horowitz, Bio + Health

The Thyrotropin receptor (TSHR) is a central regulator of growth and metabolism. Euthyroid states are marked by synthesis and secretion of thyroid hormones upon TSHR activation. However, aberrant TSHR activity plays a major etiological role in autoimmune thyroid diseases. How TSHR autoantibodies modulate receptor activity has remained elusive. Using cryo-EM, molecular dynamics, and signaling assays, we determined principles of TSHR activation and a hormone-mimicry mechanism employed by a patient-derived autoantibody. Our results suggest that ligands interacting with the TSHR extracellular domain (ECD) elicit their activity through steric constraint of ECD orientations.

2:45 pm

Identifying CCR5 Coreceptor Populations Permissive for HIV-1 Entry and Productive Infection: Implications for in vivo Studies

Yutaka Tagaya, MD, PhD, Head, Cell Biology Lab and Head, IHV Flow CORE, Institute of Human Virology, University of Maryland School of Medicine

This study aims to understand conformational states of the coreceptor CCR5. Based on CCR5 conformational changes, down-modulation, and trafficking rates, we were able to distinguish which among heterogeneous CCR5 subpopulations might best be targeted to inhibit HIV-1 entry. We assume that a decreased surface presence of a particular CCR5 subpopulation following infection means that it has been internalized due to HIV-1 entry and that it, therefore, represents a highly relevant target for antiretroviral therapies. Our work may lead to the future identification of better HIV-1 entry inhibitors of prophylactic or therapeutic efficacy and may contribute to future HIV-1 vaccine designs. 

3:15 pm Diversity, Resolution, Throughput: Leveraging Synergistic Approaches for Antibody Discovery Against Membrane Targets

Mariya Shapiro, PhD, Scientist II, Team Lead, Single B Cell Discovery, Abveris, A Division of Twist Bioscience

To enable antibody discovery against challenging targets on tight timelines, efficient yet effective approaches are needed for screening, functional characterization, and lead candidate selection. This presentation will distill lessons from dozens of cell surface target campaigns, leveraging function-forward discovery workflows paired with the broad epitopic diversity of hyperimmune mouse models and high-throughput tools for downstream validation to accelerate progression from target to clinic.

Dessert Break in the Exhibit Hall with Poster Viewing (Grand Ballroom)3:45 pm

4:25 pm

The Discovery of Agonistic Therapeutic Antibodies against GPCRs

Christel Menet, PhD, CSO, Confo Therapeutics

ConfoBodies, single-domain antibody fragments from camelids (VHH) stabilize a desired conformational state of a GPCR and enable conformation-directed drug screening. We will show the unique potential of ConfoBody-stabilized GPCR conformations to facilitate de novo discovery of therapeutic antibodies exhibiting full agonist pharmacology to human GPCRs.

4:55 pm

Selective Anti-GPCR Antibodies for Fibrosis and Cancer

Kiyoshi Takayama, PhD, Founder & President, Research Center, NB Health Laboratory Co. Ltd.

The GPCRs for lipid mediators such as prostaglandins and lysophosphatidic acid are promising targets for various diseases. The generation of therapeutic mAb targeting GPCR for lipid mediators is more difficult than mAb for chemokine and peptide GPCRs. NBHL established MoGRAA discovery engine which unlocks the generation of mAbs targeting lipid mediator GPCR. MoGRAA discovery engine includes proprietary DNA immunization and a unique single-cell analysis. In addition, the various profiling including functional assay, specificity test, and phenotypic assay are crucial steps. We will introduce mAbs targeting Prostaglandin E2 and lysophosphatidic acid receptors for cancer and fibrosis as case studies.

5:25 pm

Designing Discovery Strategies to Maximize Molecular Recognition to Find Agonist Antibodies

Mas Handa, PhD, Director, Antibody Discovery, Merck & Co.

GPCR agonist antibody discovery is challenging due to the complexities of receptor activation. Leveraging partners, we employed non-traditional discovery approaches to create an agonist antibody. Chicken immunization for antibody diversity provided an interaction capable of activating a GPCR that no other rodent or human phage display derived antibodies could in the same epitope region—delivering an agonist mAb with robust pharmacodynamic activity, good pharmacokinetics, and minimal pre-development sequence liabilities.

Dinner Short Course Registration*5:55 pm

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

Close of Day9:00 pm

Thursday, October 20

Registration and Morning Coffee (Grand Ballroom Foyer)7:30 am

7:55 am

Chairperson’s Remarks

Catherine Hutchings, PhD, Independent Consultant

ROOM LOCATION: Back Bay C

SPECIAL PRESENTATION

8:00 am

Pipeline Update for Antibody-Based Therapeutics against GPCR, Ion Channel, and Transporter Targets

Catherine Hutchings, PhD, Independent Consultant

Multi-pass transmembrane proteins represent some of the most important drug target classes across a wide range of therapeutic areas. An update on antibody-based therapeutics in the GPCR, ion channel, and transporter pipeline will be provided outlining the breadth and diversity of the target landscape, progress in preclinical and clinical development, including next-generation modalities.

TARGETING ION CHANNELS

8:30 am

Cryo-EM Structures of the Leak Channel NALCN Bound to its Auxiliary Subunits Reveal an Unexpected Architecture and Insights into Gating and Disease Mutation

Marc Kschonsak, PhD, Senior Scientist, Structural Biology, Genentech

The NALCN leak channel regulates the resting membrane potential of many neurons. NALCN modulates locomotion, circadian rhythm and respiration, and mutations in NALCN cause severe neuro-developmental disorders. We determined the structure of the NALCN channelosome, an approximately 1-MDa complex consisting of NALCN and four auxiliary subunits. Our findings provide a blueprint to understand the physiology of NALCN and a foundation for drug discovery to treat NALCN channelopathies.

9:00 am

KEYNOTE PRESENTATION: Ion Channel Signaling Complexes and Their Potential for Biotherapeutic Targeting

James Trimmer, PhD, Distinguished Professor, Physiology and Membrane Biology, University of California, Davis

Selective ion channel modulators (naturally occurring neurotoxins and synthetic small molecule inhibitors) do not exist for most ion channels. I will detail how renewable and recombinant antibodies can be used to control ion channel function. I will focus on the different forms of renewable and recombinant antibodies that have been used and the mechanisms by which they modulate ion channel function, including those that are expressed intracellularly as genetically-encoded intrabodies.  

Interactive Discussions9:30 am

Interactive 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 conference website's Interactive Discussions page for a complete listing of topics and descriptions.

ROOM LOCATION: Back Bay C

IN-PERSON INTERACTIVE DISCUSSION:

Characterization of Antibodies Against Membrane Proteins

Joseph Rucker, PhD, Vice President, Research and Development, Integral Molecular, Inc.

  • Affinity and Kinetics: Useful approaches for characterizing antibody binding
  • Epitopes: Different techniques for epitope mapping; binning versus mapping; why do epitopes matter?
  • Specificity: Understanding off-target binding
  • Cell Function: Integrating functional assays into antibody discovery and development​

Coffee Break in the Exhibit Hall with Poster Viewing (Grand Ballroom)10:15 am

11:00 am

Discovery and Development of Therapeutic Antibodies against Ion Channels

Sara Bonetti, PhD, Scientist, Salipro Biotech AB, Sweden

Membrane proteins are important drug targets (GPCRs, ion channels), yet are notoriously difficult to work with. We’ll present the direct extraction of ion channels from crude cells as well as case studies on Salipro-embedded ion channels (e.g. TRPV3) for phage display, immunization, B cell sorting, and antibody characterization with SPR and high-resolution cryoEM.

11:30 am

Co-Structures of TRPA1 with Small-Molecule Ligands Reveal Multiple Binding Sites, Biased Agonism, and Mechanism of Antagonism

Alexis Rohou, PhD, Principal Scientist and Director of CryoEM, Structural Biology, Genentech

Transient receptor potential ankyrin 1 (TRPA1), a nonselective calcium channel highly expressed in primary sensory neurons and involved in the induction of airway inflammation and hyperreactivity, is a target for inhibition in asthma. Our structural studies using cryoEM have unveiled the binding sites and mechanisms of action of two distinct chemical series of antagonists. In addition, we characterized a non-covalent agonist and found that it elicits pain responses that are distinct from those of previously described agonists, correlating with differentiated conducting states and desensitization.

12:00 pm

Development of High-Affinity Nanobodies Specific for NaV1.4 and NaV1.5 Voltage-Gated Sodium Channel Isoforms

Katharine Wright, PhD, Senior Scientist, Discovery Chemistry, Merck

Voltage-gated sodium channels are responsible for the rapid rise of action potentials in excitable tissues, and NaVchannel mutations have been implicated in several human genetic diseases. We generated high-affinity anti-NaV nanobodies that recognize the NaV1.4 and NaV1.5 channel isoforms. Our work lays the foundation for developing Nbs as anti-NaV reagents to capture NaVs from cell lysates and as molecular visualization agents for NaVs.

12:30 pm When in vitro Libraries are Better than Immunization: Drug-Like Binders Directly from Semi-Synthetic Antibody Libraries

Andrew Bradbury, MB BS, PhD, Chief Scientific Officer, Specifica

The Specifica Generation-3 Library Platform is based on highly developable clinical scaffolds, into which natural CDRs purged of sequence liabilities are embedded. The platform directly yields highly diverse, high affinity, developable, drug-like antibodies, as potent as those from immune sources, with minimal need for downstream optimization. This talk will discuss extension of the Platform to VHH libraries and lead antibody improvement, with simultaneous enhancement of both affinity and developability.

Transition to Lunch1:00 pm

1:10 pm LUNCHEON PRESENTATION:Simultaneous Quantification of Absolute Concentration and Affinities of Membrane Protein Targets without Purification

Molly Coseno, PhD, Field Applications Specialist, Sales and Business Development, Fluidic Analytics

We introduce a membrane protein affinity and concentration assay for working with unpurified membrane proteins in a native lipid-bilayer environment. To demonstrate our approach, we determined both the concentration of endogenous HER2 from a breast cancer cell line and its affinity to trastuzumab, a therapeutic antibody. The method only takes a few hours to complete and has the potential to be expanded from cell lines to tissues and tumor biopsies.

Refreshment Break in the Hall with Poster Viewing (Grand Ballroom)1:40 pm

TARGETING TRANSPORTERS

2:10 pm

Chairperson’s Remarks

Rosemary Cater, PhD, Postdoctoral Researcher, Physiology & Cellular Biophysics, Columbia University

2:15 pm

Structural Insights into the Inhibition of Glycine Reuptake to Inform Design of GlyT1 Inhibitors

Roger Dawson, PhD, CEO, Linkster Therapeutics AG

Prolonged glycine signaling has long been a therapeutic goal to improve cognitive impairment and the negative symptoms in patients with schizophrenia. Partially effective, it remained unclear how inhibitors of the glycine transporter 1 (GlyT1) bind to restore normal levels of glycine. Using structure biology, we create an understanding of the binding mode of a benzoylpiperazine chemotype inhibitor bound to GlyT1 and enable the rational design of novel chemotypes.

2:45 pm

Structural Basis of MFSD2A-Mediated Omega-3 Fatty Acid Transport across the Blood-Brain Barrier

Rosemary Cater, PhD, Postdoctoral Researcher, Physiology & Cellular Biophysics, Columbia University

Docosahexaenoic acid is an essential omega-3 fatty acid that is transported across the blood-brain barrier by MFSD2A. Here we solved the cryo-EM structure of MFSD2A in complex with an Fab and lysolipid substrate. Together with functional assays and molecular dynamics simulations, this structure reveals details of how MFSD2A interacts with substrates and releases them into the membrane through a lateral gate. These findings have the potential to aid the delivery of neurotherapeutics into the brain.

3:15 pm

Bioelectronic Measurement of Target Engagement to a Membrane-Bound Transporter

William Martinez, PhD, Co-Founder & CEO, Avalor Therapeutics

The ability to detect and characterize drug binding to SLC transporters is of growing interest in academic and industrial drug discovery labs. However, SLC purification and binding characterization to SLC targets of interest are extremely challenging; therefore, very few targeted discovery programs have been able to move forward into meaningful preclinical studies in this particular space. Here, we selected MCT1, an SLC target of interest in the oncology field, as a case study to demonstrate initial proof-of-principle to perform label-free measurement of target engagement to integral MCT1 in its native cell membrane environment. This work emerged from a collaboration between Amgen and Nanotech Bio.

Close of Conference3:45 pm





Please click here to return to the agenda for Antibodies Against Membrane Protein Targets - Part 1


For more details on the conference, please contact:

Kent Simmons

Senior Conference Director

Cambridge Healthtech Institute

Phone: (+1) 207-329-2964

Email: ksimmons@healthtech.com

 

For sponsorship information, please contact:

Kristin Skahan

Senior Business Development Manager

Cambridge Healthtech Institute

Phone: (+1) 781-972-5431

Email: kskahan@healthtech.com