Molecular Therapy: Methods & Clinical Development (Dec 2023)

Production of therapeutic levels of human FIX-R338L by engineered B cells using GMP-compatible medium

  • Marion David,
  • Davide Monteferrario,
  • Gaëlle Saviane,
  • Caroline Jeanneau,
  • Irène Marchetti,
  • Coralie F. Dupont,
  • Céline Dumont,
  • Jason D. Fontenot,
  • Maurus de la Rosa,
  • David Fenard

Journal volume & issue
Vol. 31
p. 101111

Abstract

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B cells can differentiate into plasmablast and plasma cells, capable of producing antibodies for decades. Gene editing using zinc-finger nucleases (ZFN) enables the engineering of B cells capable of secreting sustained and high levels of therapeutic proteins. In this study, we established an advanced in vitro good manufacturing practice-compatible culturing system characterized by robust and consistent expansion rate, high viability, and efficient B cell differentiation. Using this process, an optimized B cell editing protocol was developed by combining ZFN/adeno-associated virus 6 technology to achieve site-specific insertion of the human factor IX R338L Padua into the silent TRAC locus. In vitro analysis revealed high levels of secreted human immunoglobulins and human factor IX-Padua. Following intravenous infusion in a mouse model, human plasma cells were detected in spleen and bone marrow, indicating successful and potentially long-term engraftment in vivo. Moreover, high levels of human immunoglobin and therapeutic levels of human factor IX-Padua were detected in mouse plasma, correlating with 15% of normal human factor IX activity. These data suggest that the proposed process promotes the production of functional and differentiated engineered B cells. In conclusion, this study represents an important step toward the development of a manufacturing platform for potential B cell-derived therapeutic products.

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