AI Article Synopsis
- Gene therapy offers a compelling alternative to traditional stem cell transplants for treating primary immunodeficiency disorder by using a patient's own stem cells, which reduces the risk of immune complications.
- Preliminary clinical trials on treating X-linked chronic granulomatous disorder (X-CGD) show promise, but challenges like poor cell engraftment and transgene silencing limit long-term benefits.
- The chapter discusses a protocol employing induced pluripotent stem cells from X-CGD mice to test new gene therapy vectors with improved safety features before advancing to human clinical trials.
Article Abstract
Gene therapy presents an attractive alternative to allogeneic haematopoietic stem cell transplantation (HSCT) for treating patients suffering from primary immunodeficiency disorder (PID). The conceptual advantage of gene correcting a patient's autologous HSCs lies in minimizing or completely avoiding immunological complications arising from allogeneic transplantation while conferring the same benefits of immune reconstitution upon long-term engraftment. Clinical trials targeting X-linked chronic granulomatous disorder (X-CGD) have shown promising results in this context. However, long-term clinical benefits in these patients have been limited by issues of poor engraftment of gene-transduced cells coupled with transgene silencing and vector induced clonal proliferation. Novel vectors incorporating safety features such as self-inactivating (SIN) mutations in the long terminal repeats (LTRs) along with synthetic promoters driving lineage-restricted sustainable expression of the gp91phox transgene are expected to resolve the current pitfalls and require rigorous preclinical testing. In this chapter, we have outlined a protocol in which X-CGD mouse model derived induced pluripotent stem cells (iPSCs) have been utilized to develop a platform for investigating the efficacy and safety profiles of novel vectors prior to clinical evaluation.
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| http://dx.doi.org/10.1007/978-1-62703-761-7_28 | DOI Listing |
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