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首页 > Gene > Gene therapy for PIDs: progress, pitfalls and prospects.
Gene therapy for PIDs: progress, pitfalls and prospects.
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Substantial progress has been made in the past decade in treating several primary immunodeficiency disorders (PIDs) with gene therapy. Current approaches are based on ex-vivo transfer of therapeutic transgene via viral vectors to patient-derived autologous hematopoietic stem cells (HSCs) followed by transplantation back to the patient with or without conditioning. The overall outcome from all the clinical trials targeting different PIDs has been extremely encouraging but not without caveats. Malignant outcomes from insertional mutagenesis have featured prominently in the adverse events associated with these trials and have warranted intense pre-clinical investigation into defining the tendencies of different viral vectors for genomic integration. Coupled with issues pertaining to transgene expression, the therapeutic landscape has undergone a paradigm shift in determining safety, stability and efficacy of gene therapy approaches. In this review, we aim to summarize the progress made in the gene therapy trials targeting ADA-SCID, SCID-X1, CGD and WAS, review the pitfalls, and outline the recent advancements which are expected to further enhance favourable risk benefit ratios for gene therapeutic approaches in the future.

作者:Sayandip, Mukherjee;Adrian J, Thrasher

来源:Gene 2013 年 525卷 2期

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Gene therapy for PIDs: progress, pitfalls and prospects.
收藏
| 浏览:130
作者:
Sayandip, Mukherjee;Adrian J, Thrasher
来源:
Gene 2013 年 525卷 2期
标签:
ADA-SCID CGD DSB EF-1α ERT GALV GSH Gene therapy GvHD HLA HR HSCT HSCs IFN IL LCR LTR LVs MDS MLV MN NADPH NK cells PEG PGK PID PIDs ROS RVs SAE SCID SCID-X1 SFFV SIN T cell-acute lymphoblastic leukaemia T-ALL TALEN UCOE VSV-G WAS WASp Wiskott–Aldrich syndrome Wiskott–Aldrich syndrome protein X-linked neutropenia X-linked severe combined immunodeficiency X-linked thrombocytopenia XLN XLT ZFN adenosine deaminase deficiency-severe combined immunodeficiency chronic granulomatous disorder double strand break elongation factor 1α enzyme replacement therapy genomic safe harbour gibbon ape leukaemia virus graft versus host disease haematopoietic stem cell transplant haematopoietic stem cells homologous recombination human leukocyte antigen interferon interleukin lentiviral vectors locus control region long terminal repeat meganucleases miR microRNA murine leukaemia virus myelodysplastic syndrome natural killer cells nicotinamide adenine dinucleotide phosphate hydrogen phosphoglycerokinase polyethylene glycol primary immunodeficiency disorders reactive oxygen species retroviral vectors self-inactivating serious adverse event spleen focus-forming virus transcription activator-like effector nucleases ubiquitous chromatin opening element vesicular stomatitis virus-G protein zinc finger nuclease
Substantial progress has been made in the past decade in treating several primary immunodeficiency disorders (PIDs) with gene therapy. Current approaches are based on ex-vivo transfer of therapeutic transgene via viral vectors to patient-derived autologous hematopoietic stem cells (HSCs) followed by transplantation back to the patient with or without conditioning. The overall outcome from all the clinical trials targeting different PIDs has been extremely encouraging but not without caveats. Malignant outcomes from insertional mutagenesis have featured prominently in the adverse events associated with these trials and have warranted intense pre-clinical investigation into defining the tendencies of different viral vectors for genomic integration. Coupled with issues pertaining to transgene expression, the therapeutic landscape has undergone a paradigm shift in determining safety, stability and efficacy of gene therapy approaches. In this review, we aim to summarize the progress made in the gene therapy trials targeting ADA-SCID, SCID-X1, CGD and WAS, review the pitfalls, and outline the recent advancements which are expected to further enhance favourable risk benefit ratios for gene therapeutic approaches in the future.

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