Genome editing for scalable production of alloantigen‐free lentiviral vectors for in vivo gene therapy

Lentiviral vectors (LV) are powerful and versatile vehicles for gene therapy. However, their complex biological composition challenges large‐scale manufacturing and raises concerns for in vivo applications, because particle components and contaminants may trigger immune responses

Lentiviral vectors (LV) are powerful and versatile vehicles for gene therapy. However, their complex biological composition challenges large‐scale manufacturing and raises concerns for in vivo applications, because particle components and contaminants may trigger immune responses. Here, we show that producer cell‐derived polymorphic class‐I major histocompatibility complexes (MHC‐I) are incorporated into the LV surface and trigger allogeneic T‐cell responses. By disrupting the beta‐2 microglobulin gene in producer cells, we obtained MHC‐free LV with substantially reduced immunogenicity. We introduce this targeted editing into a novel stable LV packaging cell line, carrying single‐copy inducible vector components, which can be reproducibly converted into high‐yield LV producers upon site‐specific integration of the LV genome of interest. These LV efficiently transfer genes into relevant targets and are more resistant to complement‐mediated inactivation, because of reduced content of the vesicular stomatitis virus envelope glycoprotein G compared to vectors produced by transient transfection. Altogether, these advances support scalable manufacturing of alloantigen‐free LV with higher purity and increased complement resistance that are better suited for in vivo gene therapy.

EMBO Molecular Medicine .

http://embomolmed.embopress.org/content/early/2017/08/23/emmm.201708148


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