Cambridge Healthtech Institute’s 4th Annual

NASH and Fibrosis

Anti-Fibrotic Drug Discovery for Liver, Lung, Skin and Gut

October 19 - 20, 2022 EDT

The prevalence of fibrosis as a disease state, which is a culmination of chronic inflammation and the deposition of extracellular matrix (ECM) components, continues to grow as the population ages. In the liver, a form of fibrosis known as NASH (non-alcohol steatohepatitis) has become an area of increased drug development. However, recent late-stage clinical trial drug candidates proved unsuccessful. Cambridge Healthtech Institute's NASH and Fibrosis conference shines a spotlight on NASH to stay abreast of late-stage drug development as well as promising earlier stage research in liver fibrosis. But we also broaden our coverage to fibrosis in other organs especially lung (mainly idiopathic pulmonary fibrosis, IPF), skin and the gut. The role of immunology and inflammation and other disease processes or shared targets with fibrosis will also be explored.

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 D

FIBROSIS CONNECTIONS

2:05 pmWelcome Remarks
2:10 pm

Chairperson's Remarks

Bernard B. Allan, PhD, Senior Director & Head, Liver Research & GI Drug Discovery, Takeda Pharmaceuticals, Inc.

2:15 pm

The ExtraCellular Matrix (ECM) and Inflammatory Dermatological Disease: the ECM beyond Cutaneous Fibrosis

Vanessa M. Morales-Tirado, PhD, Principal Research Scientist I, Discovery Dermatology, Abbvie Bioresearch Center

The extracellular matrix is considered a common link in chronic diseases. Its physical and biochemical regulation are essential in normal tissue homeostasis and could also be the driving force in several diseases, including fibrosis and cancer. Herein, we explore and present recent findings in the ECM- immune system crosstalk in inflammatory skin diseases, such as psoriasis and hidradenitis suppurativa. 

2:45 pm

The Intestinal Fibrosis Drug Discovery Landscape

Bryan C. Fuchs, PhD, Senior Director & Research Therapeutic Area Head, GI & Liver Disease, Ferring Research Institute

Intestinal fibrosis is an area of increased attention and early activity in the pharmaceutical industry. It is defined as an excessive accumulation of scar tissue in the intestinal wall and is a common complication of inflammatory bowel diseases. I will review the biological pathways leading to intestinal fibrosis, including the different fibroblast subtypes in the intestine. I will also discuss points of intersection with other fibroproliferative diseases including potential targets, and touch upon the drug development landscape for intestinal fibrosis.

3:15 pm

A Lung-Regenerative, Caveolin-Targeted Peptide for IPF 

Cory M. Hogaboam, PhD, Professor, Medicine, Cedars-Sinai Medical Center

Caveolin-1 protein expression is decreased in IPF leading to the loss of caveolin-1-dependent regulation of cell membrane receptor localization and the amplification of intracellular signaling pathways, many of which drive organ fibrosis. To address this deficit in caveolin-1 in IPF, Lung Therapeutics has developed LTI-03, which is a seven amino acid sequence derived from the caveolin scaffolding domain (CSD) of caveolin-1 and is delivered by dry powder inhalation. LTI-03 targets multiple profibrotic signaling factors in primary IPF fibroblasts and basal-like cells. LTI-03 supports type II and type I alveolar epithelial cell survival in IPF precision cut lung slices. 

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

4:25 pm

FEATURED PRESENTATION: Scar-Associated Macrophages in NASH and Chronic Liver Disease

Kevin Hart, PhD, Associate Research Fellow, Inflammation and Immunology Research Unit, Pfizer Inc.

Macrophages serve as central regulators of hepatic homeostasis as well as orchestrators of the response to injury in liver disease.  We utilized human and murine liver single-cell RNA sequencing datasets to identify a unique subset of macrophages associated with fibrotic liver disease that localize to the fibrotic margins. In vitro and in vivo studies revealed regulatory cytokines that drive phenotypic and functional aspects of these scar-associated macrophages.

4:55 pm

Lanifibranor Therapy Improves Markers of Cardiometabolic Health in Patients with NASH and Fibrosis

Michael P. Cooreman, MD, CMO, Inventiva Pharma

Liver cirrhosis and cardiovascular disease are major causes of mortality in patients with NASH. The pan-PPAR agonist lanifibranor has shown efficacy on NASH resolution and fibrosis improvement (NATIVE study). Lanifibranor also improved a broad panel of markers of cardiometabolic health, incl. insulin resistance, lipid and glucose metabolism, systemic inflammation, blood pressure and hepatic steatosis. Lanifibranor therapy addresses hepatic injury and fibrosis as well as the metabolic-immune disease biology of NASH.

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

ROOM LOCATION: Back Bay D

CROSS-FIBROTIC TARGETS

7:55 am

Chairperson's Remarks

Cory M. Hogaboam, PhD, Professor, Medicine, Cedars-Sinai Medical Center

8:00 am

Selective Targeting of Matrix-Associated TGFb1 is an Attractive Approach for Anti-Fibrotic Therapy

Rohan Manohar, PhD, Associate Director, Fibrosis, Scholar Rock

TGFß inhibition remains a promising anti-fibrotic approach. However, inhibition of all 3 TGFß isoforms is associated with safety liabilities. Scholar Rock has identified a selective antibody that inhibits matrix-associated TGFß1 complexed with LTBP1 and 3, spares TGFß1 presented by immune cells, and reduces TGFß signaling and fibrosis in preclinical models of kidney disease. This LTBP-TGFß1 antibody may offer a safety profile that is better suited to treating chronic fibrotic indications.

8:30 am

Targeting Transforming Growth Factor beta (TGFß) Pathway Safely for Fibrosis Diseases

Min Lu, PhD, Director & Head, Fibrosis, Morphic Therapeutic

TGFß isoforms, 1, 2, and 3, are master profibrogenic cytokines in many tissues. However, they are pleiotropic factors that are involved in development, immune homeostasis, and cell cycle regulation, which poses safety challenges to develop successful therapies for fibrosis indications. Recently, inhibition of TGFß via isoform-specific antibodies or local inhibition of TGFß activation have demonstrated the therapeutic potential of the selective targeting of TGFß family members.

9:00 am

Targeting Galectin-3 Inhibition in IPF via Inhaled GB0139

Rob Slack, PhD, Director of Pharmacology, Galecto, Inc.

Galectin-3 is a ß-galactoside-binding lectin highly expressed in fibrotic tissue of diverse etiologies and has been shown to play a key role in lung and liver fibrosis. Galecto, Inc. has developed several high affinities and selective galectin-3 inhibitors including the inhaled small molecule GB0139 that is currently undergoing clinical investigation in IPF. This talk will focus on the translational pharmacology of GB0139 and its potential as an anti-fibrotic therapy.

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 D

IN-PERSON INTERACTIVE DISCUSSION:

Quantifying Fibrosis

Michael P. Cooreman, MD, CMO, Inventiva Pharma

Bryan C. Fuchs, PhD, Senior Director & Research Therapeutic Area Head, GI & Liver Disease, Ferring Research Institute

Vanessa M. Morales-Tirado, PhD, Principal Research Scientist I, Discovery Dermatology, Abbvie Bioresearch Center

  • Markers for initial diagnosis 
  • Measuring treatment response 
  • Which is best for what?: AI, imaging, lab tests, histology scoring, more?​

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

LIVER & LUNG FIBROSIS

11:00 am

Phase III Development of Resmetirom, a Thyroid Hormone Receptor Beta Agonist, for the Treatment of NASH with Significant Fibrosis

Rebecca A. Taub, MD, CMO and President of R&D, Madrigal Pharmaceuticals

I will discuss Madrigal’s lead candidate, resmetirom, a once daily, oral, thyroid hormone receptor (THR)-β selective agonist designed to target key underlying causes of NASH in the liver. Resmetirom is currently being evaluated in two Phase 3 clinical studies (MAESTRO-NASH and MAESTRO-NAFLD-1) designed to demonstrate multiple benefits in patients with NASH. MAESTRO-NAFLD-1 has completed with positive results.

11:30 am

Innovating in NASH Cirrhosis: Belapectin, a Galectin-3 Inhibitor for Preventing Esophageal Varices in Patients with NASH Cirrhosis

Pol F. Boudes, CMO, Galectin Therapeutics

Belapectin is a polycarbohydrate candidate drug for liver cirrhosis due to NASH and, in combination with a PD-1 inhibitor, for advanced/metastatic head and neck cancers. Belapectin is in Phase 2b/3 and Phase 2, respectively. Belapectin is a galectin-3 inhibitor and disrupts the galectin-3 fibrosome that plays a major role in these diseases. Belapectin targets and acts primarily on activated macrophages that invade the liver in cirrhosis and the tumor microenvironment in advanced cancers.

12:00 pm

Discovery and Preclinical Validation of Therapeutic Leads with Novel MOAs for NASH and IPF

Anjali Pandey, PhD, Senior Vice President, Nonclinical R&D, Chemistry, Aria Pharmaceuticals

We identified ten novel MOAs with predicted efficacy in NASH and twenty novel MOAs for IPF. This process took 15 weeks and 12 weeks, respectively, from program start to in vivo results, identifying lead molecule TXR-612 for NASH and TXR-1002 and TXR-1007 for IPF. Preclinical results have demonstrated significant safety and efficacy in NASH and IPF.

Enjoy Lunch on Your Own12:30 pm

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

TARGETING ADVANCED FIBROSIS AND REGENERATION

2:10 pm

Chairperson's Remarks

Vanessa M. Morales-Tirado, PhD, Principal Research Scientist I, Discovery Dermatology, Abbvie Bioresearch Center

2:15 pm

Targeting Claudin-1 for the Treatment of Fibrotic Diseases

Thomas F. Baumert, Founder, Alentis Therapeutics AG

Tissue fibrosis is a driver of end-stage organ failure and cancer. Using highly specific monoclonal antibodies and patient-derived models, we uncovered Claudin-1 as a target for treatment of liver fibrosis. Targeting non-junctional CLDN1 reverted inflammation-induced hepatocyte pro-fibrogenic signaling and cell fate and suppressed the pro-fibrogenic differentiation of myofibroblasts. Safety studies of a fully humanized antibody in non-human primates did not reveal any significant adverse events. Antifibrotic effects across lung and kidney fibrosis models have confirmed a role of Claudin-1 as a target for fibrosis across organs. The clinical development of Claudin-1-targeting therapies for fibrotic diseases in patients is ongoing.

Close of Conference2:45 pm