Cambridge Healthtech Institute's 2nd Annual

Neurodegeneration Targets

Drug Discovery for Progressive Central Nervous System Disorders

September 26 - 27, 2023 EDT

Cambridge Healthtech Institute's 2nd Annual Neurodegeneration Targets conference focuses on therapeutic candidates in clinical or earlier stage development that modulate molecules or cellular processes involved in neurodegenerative diseases, especially Alzheimer’s and Parkinson’s disease. Neurodegenerative diseases have a dearth of therapeutic options despite the prediction of their increasing US prevalence due to the country’s aging population. Drug discovery progress, however, is intensifying thanks to the rapid pace of scientific advances. While small molecule-based treatment options will be highlighted because they are critical for diseases with a high population burden, the agenda will likely also cover promising gene therapy, oligonucleotide, and targeted protein degradation (TPD) approaches. Join us to also discuss clinical development challenges in the neuro-field.

Tuesday, September 26

Registration and Morning Coffee7:00 am

Welcome Remarks7:55 am

TARGETING GLUCOCEROBROSIDASE (GCase) FOR PARKINSON'S DISEASE

8:00 am

Chairperson's Remarks

Magdalene M. Moran, PhD, President & CSO, Caraway Therapeutics

8:05 am

Discovery and Development of GCase Activator Furthest in Clinical Trials

Peter Lansbury, PhD, Founder, Lysosomal Therapeutics; Former Professor Neurology, Harvard Medical School

Low activity of the lysosomal enzyme glucocerebrosidase (GCase) is associated with increased rate of progression of Parkinson’s disease. Thus increasing GCase activity in the lysosome may slow progression of symptoms. This talk will cover ten years of work on the development of BIA-28, an allosteric activator of GCase: the design and optimization of the molecule, the analysis of its mechanism of action, and the biomarker response of GBA-PD patients to dosing over one month.

8:35 am

FEATURED PRESENTATION: Allosteric Activators of GCase

Matthias Alder, CEO, Gain Therapeutics, Inc.

Gain Therapeutics is leading the discovery and development of allosteric small molecule therapies. GT-02287 is an orally administered, brain-penetrant, allosteric modulator of GCase. Gain Therapeutics has generated an extensive preclinical data package in multiple in vitro and in vivo models demonstrating that GT-02287 restores GCase function and improves the survival of dopaminergic neurons in relevant brain regions, which leads to an increase in dopamine levels and an improvement of locomotor function in relevant animal models of Parkinson's disease. GT-02287 has completed preclinical development and is expected to enter clinical development in H2 2023.

9:05 am

Identifying Druggable Pockets in β-Glucocerebrosidase (GCase)

Chiara R. Valenzano, PhD, Senior Research Associate, Molecular Science, Astex Pharmaceuticals

Mutations in the lysosomal protein Gcase have been linked to increased risk for Parkinson’s Disease. Therapeutics aiming at enhancing GCase protein stability, trafficking and activity are therefore of high relevance. Fragment screening by X-ray crystallography and other biophysical methods enabled the identification of new potentially druggable sites on the GCase protein surface. Multiple assays were used to characterise compound binding and its effect on protein stability and trafficking of GCase to the lysosome.

Networking Coffee Break9:35 am

LEADS AND CLINICAL CANDIDATES

10:05 am

TREM2 Molecular Glues to Treat Neurodegenerative Diseases

Bhaumik A. Pandya, PhD, Director, Chemistry Vigil Neuroscience

Triggering receptor expressed in myeloid cells 2 (TREM2) is a lipid-sensing receptor that promotes the growth, migration, and anti-inflammatory effects of microglia that are upregulated within pathological microenvironments. Loss-of-function TREM2 variants impose genetic risk for Alzheimer’s disease (AD). Herein we highlight the activity and profile of Vigil’s first-in-class small molecule TREM2 agonists for treatment of neurodegenerative diseases.

10:35 am

Modulating Lysosomal Health for Combatting Neurodegeneration

Donato del Camino, PhD, Vice President of Research, Caraway Therapeutics

Alterations in lysosomal function cause detrimental effects including accumulations of toxic cellular waste. These defects have been implicated in diseases from lysosomal storage disorders to more common neurodegenerative disorders. Activating lysosomal function to clear toxic materials and defective cellular components provides a novel strategy for such disorders. Caraway will describe efforts to develop new therapeutics targeting lysosomal transmembrane proteins (TRPML1, TMEM175, ATP13A2) that have been genetically implicated in CNS diseases.

11:05 am

Targeting Pathogenic APOE4 in Alzheimer’s Disease and Other Neurodegenerative Diseases

Thomas Schaffer, PhD, Scientist & Program Lead, Neuroimmune Discovery Research, NextCure, Inc.

The APOE4 allele is the strongest genetic risk factor for late-onset Alzheimer’s disease and impacts multiple components of the pathophysiology associated with neurodegeneration. APOE4’s pathogenic nature is hypothesized to be mediated by a poorly-lipidated form that promotes and is associated with amyloid plaques. NextCure will provide an update on the development of a novel therapeutic that targets and removes pathogenic APOE, highlighting its unique mechanism and differentiation from amyloid-beta-targeting therapies.

Enjoy Lunch on Your Own11:35 am

DEGRADER STRATEGIES FOR NEURODEGENERATION CULPRITS

1:15 pm

Chairperson's Remarks

Laura Silvian, PhD, Senior Director, Physical Biochemistry, Biogen

1:20 pm

Targeted Protein Degradation of LRRK2

Alexia Kalogeropulou, PhD, Scientist, Degrader Platform, Foghorn Therapeutics

Leucine Rich Repeat Kinase 2 (LRRK2) is one of the most promising targets for Parkinson’s Disease. LRRK2 targeting strategies have primarily focused on Type 1 kinase inhibitors, which, however, have limitations as the inhibited protein can interfere with natural mechanisms which could lead to undesirable side effects. I present work I did in the Ciulli and Alessi laboratories at the Universtiy of Dundee on the development of LRRK2 Proteolysis Targeting Chimeras (PROTACs), as an alternative LRRK2 targeting strategy.

1:50 pm

AUTOphagy-TArgeting Chimera (AUTOTAC) for Neurodegeneration-Associated Aggregates

Chang Hoon Ji, PhD, Executive Director, Bio R&D Center, AUTOTAC Bio, Inc.

Targeted protein degradation allows targeting of undruggable proteins-of-interest for both research purposes and therapeutic applications. We developed the AUTOphagy-TArgeting Chimera (AUTOTAC) degrader platform, which employs bifunctional molecules composed of target-binding ligands linked to autophagy-targeting ligands that bind p62/Sequestosome-1/SQSTM1. AUTOTACs selectively degraded various high-molecular weight aggregates of amyloidogenic hallmark proteins in neurodegeneration at nanomolar DC50 values in vitro and in vivo, along with improvements in cognition, locomotion and behavior.

2:20 pm

FEATURED PRESENTATION: Tofersen, an Antisense Oligonucleotide for SOD1-ALS

Stephanie M. Fradette, PharmD, Senior Medical Director, Clinical Development, ALS Portfolio Head

I will present the efforts that led to the development of the first approved therapy for a genetic form of amyotrophic lateral sclerosis (ALS), which supported significant advancement of neurofilament as a biomarker and optimization of clinical trial design in ALS.

Panel Discussion2:50 pm

PANEL DISCUSSION

CNS Drug Development Challenges

PANEL MODERATOR:

Bhaumik A. Pandya, PhD, Director, Chemistry Vigil Neuroscience

PANELISTS:

Magdalene M. Moran, PhD, President & CSO, Caraway Therapeutics

Jessica Tome Garcia, PhD, Associate Director, Research Programs, The Michael J. Fox Foundation for Parkinson's Research

Dan Elbaum, PhD, CSO, QurAlis Corp

Samantha Zappia, Vice President- Regulatory Affairs & Quality, Regulatory Affairs & Quality, Vigil Neuroscience

  • Translational biomarkers including imaging agents
  • FDA guidance; clinical trial space in Alzheimer Disease  
  • Drug delivery challenges in Parkinson's and more 
  • Promising therapeutic modalities for various degenerative diseases​

Grand Opening Refreshment Break in the Exhibit Hall with Poster Viewing3:35 pm

THERAPEUTIC MODALITIES BEYOND SMALL MOLECULES

4:15 pm

A Tetravalent TREM2-Targeted Antibody for Alzheimer’s Disease

Zhiqiang An, PhD, Professor, Robert A. Welch Distinguished University Chair in Chemistry; Director, Texas Therapeutics Institute; Director, CPRIT Core for Antibody Drug Discovery; Vice President, Drug Discovery, University of Texas Health Science Center at Houston

TREM2 plays crucial roles in AD by regulating microglia migration toward and phagocytosis of amyloid plaques. By engineering a bivalent TREM2 agonist IgG1 to tetra-variable domain immunoglobulin (TVD-Ig), we increased the TREM2 activation by 100-fold in vitro. A bispecific Ab targeting TREM2 and transferrin receptor (Ab18 TVD-Ig/aTfR) improved Ab brain entry by 10-fold. Treatment of 5XFAD mice with Ab18 TVD-Ig/aTfR showed a considerable reduction of amyloid burden with increased microglia phagocytosis of amyloid plaques, improved synaptic and neuronal marker intensity, improved cognitive functions, and reduced tau hyperphosphorylation. This Ab engineering approach enables the development of potential TREM2-targeting therapies for AD.

4:45 pm

Expanding RNAi Therapeutics to the Central Nervous System with Lipophilic Conjugates

Jayaprakash K. Nair, PhD, Vice President, Research, Chemistry and Delivery Sciences, Alynylam Pharmaceuticals

Novel delivery solutions are needed to expand the reach of RNAi therapeutics beyond the liver and especially address disorders of the central nervous system. I show that an RNAi therapeutic targeting amyloid precursor protein (APP) mRNA, is able to reduce APP protein expression and thereby reduce both the extracellular b-amyloid as well as intracellular bCTF, a pathogenic metabolite of APP. An overview of our progress on optimization of siRNA conjugated with 2'-O-hexadecyl and delivery to the CNS will be presented.

5:15 pm

Recent Advances in the Development of Splice Switching Oligonucleotides for CNS Diseases

Dan Elbaum, PhD, CSO, QurAlis Corp

The recent clinical success of Nusinersen and Tofersen has spurred increased efforts to discover and develop intrathecally-delivered antisense oligonucleotides for the treatment of CNS diseases. This talk will detail recent advances on splice switching oligonucleotides targeting STMN2 and introduce QurAlis’ FlexASO platform.

Welcome Reception in the Exhibit Hall with Poster Viewing5:45 pm

Close of Day6:45 pm

Wednesday, September 27

Registration and Morning Coffee7:30 am

EARLY DISCOVERY

7:55 am

Chairperson's Remarks

Bhaumik A. Pandya, PhD, Director, Chemistry Vigil Neuroscience

8:00 am

Discovery-Based Decisions for Advancing a Small Molecule Neuroscience Portfolio

Laura Silvian, PhD, Senior Director, Physical Biochemistry, Biogen

This presentation covers principles for decision-making and advancing a neuroscience-focused portfolio from small molecule biophysics perspective.

8:30 am

IN-PERSON GROUP DISCUSSION 5A: Early Discovery in Neurodegeneration

Jeffrey Martin, PhD, Scientist II, Drug Discovery, Biogen

Laura Silvian, PhD, Senior Director, Physical Biochemistry, Biogen

  • Promising biomarkers for early-stage research
  • Models for CNS diseases (animal models, iPSC systems)
  • PK/PD relationships​
  • Speed introductions (if time allows)
9:00 am

Selective Inhibition of Caspase-6 for the Treatment of Tauopathy

Andrew J. Ambrose, PhD, Postdoctoral Fellow, Laboratory of Michelle Arkin, Pharmaceutical Chemistry, University of California, San Francisco

We have reported the discovery and characterization of a novel and specific Caspase-6 inhibitor. This talk will focus on emerging results regarding our second-generation compound in immortalized and iPSC-based tauopathy models. I will also discuss a highly caspase-6 specific cleavage site near the N-terminus of tau that generates a tau fragment which emerging results suggest is more aggregation-prone than full length tau and the tau fragments generated by other caspases.

9:30 am

Targeting PINK-1 for Mitochondrial Quality Control

Rishi Rakhit, PhD, Director, Translational Medicine, Mitokinin

PINK1 is a central regulator of mitochondrial quality control. Mutations in its gene result in Parkinson’s disease (PD). I will provide updates on MTK458, a molecule we identified that selectively binds PINK1 and promotes mitophagy. MTK458 treatment also drives clearance of pathologic alpha-synuclein, which is known to induce mitochondrial dysfunction, in both in vitro and in vivo models. We have also developed new proprietary assays to probe target engagement and efficacy in vivo. I'll discuss one such assay for the PINK1-pathway marker pS65 ubiquitin (pUb), which we used to show that pUb is increased in idiopathic Parkinson's disease patient samples and decreased following MTK458 treatment in multiple species.

Coffee Break in the Exhibit Hall with Poster Viewing10:00 am

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.

Close of Neurodegeneration Targets Conference12:15 pm