Measles Virus Envelope Pseudotyped Lentiviral Vectors Transduce Quiescent Human HSCs at an Efficiency Without Precedent

Overview

Journal Blood Adv

Specialty Hematology

Date 2018 Jan 4

PMID 29296856

Citations 24

Authors

Camille Levy

Fouzia Amirache

Anais Girard-Gagnepain

Cecilia Frecha

Francisco J Roman-Rodriguez

Ornellie Bernadin

Caroline Costa

Didier Negre

Alejandra Gutierrez-Guerrero

Lenard S Vranckx

Isabelle Clerc

Naomi Taylor

Lars Thielecke

Kerstin Cornils

Juan A Bueren

Paula Rio

Rik Gijsbers

Francois-Loic Cosset

Els Verhoeyen

Affiliations

Soon will be listed here.

Abstract

Hematopoietic stem cell (HSC)-based gene therapy trials are now moving toward the use of lentiviral vectors (LVs) with success. However, one challenge in the field remains: efficient transduction of HSCs without compromising their stem cell potential. Here we showed that measles virus glycoprotein-displaying LVs (hemagglutinin and fusion protein LVs [H/F-LVs]) were capable of transducing 100% of early-acting cytokine-stimulated human CD34 (hCD34) progenitor cells upon a single application. Strikingly, these H/F-LVs also allowed transduction of up to 70% of nonstimulated quiescent hCD34 cells, whereas conventional vesicular stomatitis virus G (VSV-G)-LVs reached 5% at the most with H/F-LV entry occurring exclusively through the CD46 complement receptor. Importantly, reconstitution of NOD/SCIDγc (NSG) mice with H/F-LV transduced prestimulated or resting hCD34 cells confirmed these high transduction levels in all myeloid and lymphoid lineages. Remarkably, for resting CD34 cells, secondary recipients exhibited increasing transduction levels of up to 100%, emphasizing that H/F-LVs efficiently gene-marked HSCs in the resting state. Because H/F-LVs promoted ex vivo gene modification of minimally manipulated CD34 progenitors that maintained stemness, we assessed their applicability in Fanconi anemia, a bone marrow (BM) failure with chromosomal fragility. Notably, only H/F-LVs efficiently gene-corrected minimally stimulated hCD34 cells in unfractionated BM from these patients. These H/F-LVs improved HSC gene delivery in the absence of cytokine stimulation while maintaining their stem cell potential. Thus, H/F-LVs will facilitate future clinical applications requiring HSC gene modification, including BM failure syndromes, for which treatment has been very challenging up to now.

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