Molecular Therapy: Methods & Clinical Development (Sep 2023)

Scalable GMP-compliant gene correction of CD4+ T cells with IDLV template functionally validated in vitro and in vivo

  • Claudia Asperti,
  • Daniele Canarutto,
  • Simona Porcellini,
  • Francesca Sanvito,
  • Francesca Cecere,
  • Valentina Vavassori,
  • Samuele Ferrari,
  • Elisabetta Rovelli,
  • Luisa Albano,
  • Aurelien Jacob,
  • Lucia Sergi Sergi,
  • Elisa Montaldo,
  • Francesca Ferrua,
  • Luis Ignacio González-Granado,
  • Vassilios Lougaris,
  • Raffaele Badolato,
  • Andrea Finocchi,
  • Anna Villa,
  • Marina Radrizzani,
  • Luigi Naldini

Journal volume & issue
Vol. 30
pp. 546 – 557

Abstract

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Hyper-IgM1 is a rare X-linked combined immunodeficiency caused by mutations in the CD40 ligand (CD40LG) gene with a median survival of 25 years, potentially treatable with in situ CD4+ T cell gene editing with Cas9 and a one-size-fits-most corrective donor template. Here, starting from our research-grade editing protocol, we pursued the development of a good manufacturing practice (GMP)-compliant, scalable process that allows for correction, selection and expansion of edited cells, using an integrase defective lentiviral vector as donor template. After systematic optimization of reagents and conditions we proved maintenance of stem and central memory phenotypes and expression and function of CD40LG in edited healthy donor and patient cells recapitulating the physiological CD40LG regulation. We then documented the preserved fitness of edited cells by xenotransplantation into immunodeficient mice. Finally, we transitioned to large-scale manufacturing, and developed a panel of quality control assays. Overall, our GMP-compliant process takes long-range gene editing one step closer to clinical application with a reassuring safety profile.

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