Xcell Biosciences and Labcorp Achieve Key Data Milestones in Cell and Gene Therapy Collaboration

Results generated to date serve as basis for new IP filings and conference presentations, and have led to an expansion of the collaboration beyond CAR T cells

SAN FRANCISCO--()--Xcell Biosciences Inc. (Xcellbio), an instrumentation company focused on cell and gene therapy applications, today announced it has achieved key milestones in its R&D collaboration with Labcorp, a global leader of innovative and comprehensive laboratory services, aimed at driving innovation in the development and validation of cell and gene therapies. Those milestones include jointly generated results that have supported new intellectual property filings and data presented at scientific meetings.

The collaboration between Xcellbio and Labcorp, announced last year, was established to facilitate joint projects focused on improving the safety and efficacy of cell and gene therapies. The projects included in the collaboration use Xcellbio’s proprietary AVATAR platform to metabolically reprogram tumor-targeting CAR T cells to enhance their potency and persistence in the suppressive solid tumor microenvironment (TME). The function of these cells is being tested on Xcellbio’s TME-reprogrammed tumor cell lines, which serve as a more physiologically representative platform for tumor-killing assays compared to standard tumor cell lines.

The collaboration has yielded data readouts that have been jointly submitted in intellectual property filings and publicly presented through two posters at the 2023 annual meeting of the American Association for Cancer Research. These data include demonstrations of enhanced CAR T cell expansion, viral transduction, and potency as a result of utilizing the AVATAR platform. The observations were initially made in vitro and are now being validated through in vivo mouse studies to confirm the efficacy and translatability of the findings.

“Our work with Labcorp has demonstrated a significant leap in understanding how metabolic conditioning can dramatically affect cell therapy behavior, particularly within the solid tumor microenvironment,” said James Lim, Ph.D., Co-Founder and Chief Scientific Officer at Xcellbio, who is leading the study. “These preclinical studies are designed to assess the safety and efficacy of cell and gene therapies to support future programs that would develop or validate therapies for use in patients.”

Recently, the collaboration has expanded to include the exploration of cell types beyond CAR T cells to accelerate the discovery and development of novel therapies. Labcorp will use Xcellbio’s AVATAR platform to support the development of cell-based potency assays that incorporate critical TME factors, as well as the clinical manufacture of therapeutic cells that are metabolically reprogrammed for enhanced in vivo potency.

“We are thrilled with the outcomes achieved so far through our collaboration with Xcellbio and the significant strides we have made together in advancing cell and gene therapy research,” said Maryland Franklin, Ph.D., Vice President and Enterprise Head of Cell and Gene Therapy at Labcorp. “The expansion of our partnership to include other cell types further showcases our shared commitment to driving innovation in therapeutic development."

About Xcell Biosciences

Xcellbio is driven by its mission to enhance the performance of cell and gene-based therapies. The AVATAR platform addresses the cell therapy development continuum from early discovery through GMP manufacture. The company’s commercial instruments and AI-driven software allow researchers to achieve novel insights into immune and tumor biology, assess the potency of candidate therapies in a physiologically relevant environment, and metabolically reprogram therapeutic cells for enhanced function to improve patient outcomes. Based in San Francisco, Xcellbio can be found online at www.xcellbio.com.

Contacts

For Xcellbio
Colin Sanford
colin@bioscribe.com

Social Media Profiles

Contacts

For Xcellbio
Colin Sanford
colin@bioscribe.com