EXTON, PA, USA I September 19, 2017 I Morphotek®, Inc., a subsidiary of Eisai Inc., announced today that it will present preclinical data on its investigational antibody-drug conjugate (ADC) MORAb-202 at the 8th Annual World ADC being held September 20-22 at the Sheraton San Diego Marina in San Diego, CA.  The presentation will take place on Thursday, September 21 at 1:30 p.m. PT during the “Practical Lessons Learned from Preclinical ADC Development” session.

MORAb-202 is a novel ADC that uses a cathepsin-cleavable linker to combine investigational farletuzumab with a microtubule inhibitor payload, eribulin*.  Farletuzumab is a humanized antibody targeting human folate receptor alpha (FRA) and has been studied in clinical trials for FRA-expressing tumors.  FRA expression is observed in a large number of cancers, including endometrial, gastric, non-small cell lung, ovarian and triple-negative breast, but is largely absent from normal tissue.  Eribulin mesylate (Halaven®) is approved in the U.S. for the treatment of patients with metastatic breast cancer who have previously received at least two chemotherapeutic regimens for metastatic disease, including an anthracycline and a taxane in either the adjuvant or metastatic setting.

*Any ADC employing eribulin as a payload is investigational and has not been approved by regulatory authorities.  For more information on Halaven® (eribulin mesylate), please see www.halaven.com or contact Eisai’s Medical Information toll-free number 1.888.274.2378.

“We are pleased to have this opportunity to present MORAb-202 at the upcoming 8th Annual World ADC,” said Nicholas Nicolaides, President and CEO of Morphotek. “Based on the preclinical data to be presented, we are excited to begin transitioning MORAb-202 into the clinical development stage later this year.”

Morphotek will also present three posters on Wednesday, September 20:

  • MORAb-202, a novel antibody-drug conjugate comprised of farletuzumab conjugated with eribulin, exhibits long-lasting targeted antitumor activity and payload-mediated bystander effects on the tumor microenvironment (Poster #29);
  • Eribulin, a novel microtubule-targeting payload for antibody-drug conjugate development (Poster #28); and
  • Site-specific conjugation to native & engineered lysines in IgG by transglutaminase (Poster #5).

In April 2017, Morphotek launched an ADC Services business that leverages its proprietary REsidue-SPEcific Conjugation Technology (RESPECT™) and eribulin-linker platform to assist clients with development of a site-specific bioconjugate-ready monoclonal antibody and ADC through in vivo safety and efficacy validation.  Additional services include manufacture of GMP clinical trial material, conducting GLP toxicology studies and development of IHC companion diagnostics for patient screening.  For more information on Morphotek’s ADC Services business and RESPECT platform, please visit us at Booth #2 at the 8th Annual World ADC or contact adcservices@morphotek.com.

About Morphotek
Morphotek®, Inc., a subsidiary of Eisai Inc., is a clinical-stage biotechnology company focused on developing novel classes of biological-based products to treat cancer, inflammatory and infectious diseases.  Our mission is to develop novel targeted therapies that attack underlying disease pathways, and in oncology indications, that can overcome the immunosuppressive effects by tumors on immune-mediated experimental therapies.  Our diverse pipeline includes clinical-stage monoclonal antibodies to lead targets folate receptor alpha, mesothelin and endosialin, as well as antibody-drug conjugates and bispecific antibodies to undisclosed targets in preclinical development.  Our mission is supported by proprietary cutting-edge technologies in antibody engineering, manufacturing and screening optimization platforms, along with our expertise in developing diagnostics to support patient selection and therapeutic strategy.  For more information, please visit www.morphotek.com.

About Eisai Inc.

At Eisai Inc., human health care (hhc) is our goal. We give our first thought to patients and their families, and helping to increase the benefits health care provides. As the U.S. pharmaceutical subsidiary of Tokyo-based Eisai Co., Ltd., we have a passionate commitment to patient care that is the driving force behind our efforts to discover and develop innovative therapies to help address unmet medical needs.

Eisai is a fully integrated pharmaceutical business that operates in two global business groups: oncology and neurology (dementia-related diseases and neurodegenerative diseases). Each group functions as an end-to-end global business with discovery, development, and marketing capabilities. Our U.S. headquarters, commercial and clinical development organizations are located in New Jersey; our discovery labs are in Massachusetts and Pennsylvania; and our global demand chain organization resides in Maryland and North Carolina. To learn more about Eisai Inc., please visit us at www.eisai.com/US and follow us on Twitter and LinkedIn.

About Halaven® (eribulin mesylate) Injection
Halaven® (eribulin mesylate) is a microtubule dynamics inhibitor indicated for the treatment of patients with:

  • Metastatic breast cancer who have previously received at least two chemotherapeutic regimens for the treatment of metastatic disease.  Prior therapy should have included an anthracycline and a taxane in either the adjuvant or metastatic setting.
  • Unresectable or metastatic liposarcoma who have received a prior anthracycline-containing regimen.

The antibody drug conjugate (ADC) employing eribulin as a payload is investigational and has not been approved by regulatory authorities.

Discovered and developed by Eisai, eribulin is a synthetic analog of halichondrin B, a natural product that was isolated from the marine sponge Halichondria okadai.  First in the halichondrin class, Halaven is a microtubule dynamics inhibitor.  Eribulin is believed to work primarily via a tubulin-based mechanism that causes prolonged and irreversible mitotic blockage, ultimately leading to apoptotic cell death.  Additionally, in preclinical studies of human breast cancer, eribulin demonstrated complex effects on the tumor biology of surviving cancer cells, including increases in vascular perfusion resulting in reduced tumor hypoxia, and changes in the expression of genes in tumor specimens associated with a change in phenotype, promoting the epithelial phenotype, opposing the mesenchymal phenotype.  Eribulin has also been shown to decrease the migration and invasiveness of human breast cancer cells.

SOURCE: Morphotek