1. Post-Transcriptional Genetic Silencing of
- Author
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Erica B, Esrick, Leslie E, Lehmann, Alessandra, Biffi, Maureen, Achebe, Christian, Brendel, Marioara F, Ciuculescu, Heather, Daley, Brenda, MacKinnon, Emily, Morris, Amy, Federico, Daniela, Abriss, Kari, Boardman, Radia, Khelladi, Kit, Shaw, Helene, Negre, Olivier, Negre, Sarah, Nikiforow, Jerome, Ritz, Sung-Yun, Pai, Wendy B, London, Colleen, Dansereau, Matthew M, Heeney, Myriam, Armant, John P, Manis, and David A, Williams
- Subjects
Adult ,Male ,Adolescent ,Genetic Vectors ,Down-Regulation ,Pilot Projects ,Anemia, Sickle Cell ,Genetic Therapy ,Transplantation, Autologous ,Repressor Proteins ,Young Adult ,Gene Knockdown Techniques ,Humans ,Female ,RNA Interference ,gamma-Globins ,RNA, Small Interfering ,Child ,Fetal Hemoglobin - Abstract
Sickle cell disease is characterized by hemolytic anemia, pain, and progressive organ damage. A high level of erythrocyte fetal hemoglobin (HbF) comprising α- and γ-globins may ameliorate these manifestations by mitigating sickle hemoglobin polymerization and erythrocyte sickling.We enrolled patients with sickle cell disease in a single-center, open-label pilot study. The investigational therapy involved infusion of autologous CD34+ cells transduced with the BCH-BB694 lentiviral vector, which encodes a short hairpin RNA (shRNA) targetingAs of October 2020, six patients had been followed for at least 6 months after receiving BCH-BB694 gene therapy; median follow-up was 18 months (range, 7 to 29). All patients had engraftment, and adverse events were consistent with effects of the preparative chemotherapy. All the patients who could be fully evaluated achieved robust and stable HbF induction (percentage HbF/(F+S) at most recent follow-up, 20.4 to 41.3%), with HbF broadly distributed in red cells (F-cells 58.9 to 93.6% of untransfused red cells) and HbF per F-cell of 9.0 to 18.6 pg per cell. Clinical manifestations of sickle cell disease were reduced or absent during the follow-up period.This study validates BCL11A inhibition as an effective target for HbF induction and provides preliminary evidence that shmiR-based gene knockdown offers a favorable risk-benefit profile in sickle cell disease. (Funded by the National Institutes of Health; ClinicalTrials.gov number, NCT03282656).
- Published
- 2020