AI Article Synopsis
- A phase 1/2 study followed 12 patients who received gene-modified T cells and underwent bone marrow transplantation to control graft-versus-host disease.
- Circulating gene-modified T cells (GMCs) were detected in 4 patients more than 10 years post-transplant, but variations in quantification methods indicated possible deletions in the HSV-tk gene.
- Unique retroviral insertion sites were identified in GMCs that could be cloned in the lab, suggesting that selective survival advantages may have shaped the characteristics of the persistent GMCs over time.
Article Abstract
In our previous phase 1/2 study aimed at controlling graft-versus-host disease, 12 patients received Herpes simplex virus thymidine kinase (HSV-tk(+))/neomycin phosphotransferase (NeoR(+))-expressing donor gene-modified T cells (GMCs) and underwent an HLA-identical sibling T-cell-depleted bone marrow transplantation (BMT). This study's objective was to follow up, to quantify, and to characterize persistently circulating GMCs more than 10 years after BMT. Circulating GMCs remain detectable in all 4 evaluable patients. However, NeoR- and HSV-tk-polymerase chain reaction (PCR) differently quantified in vivo counts, suggesting deletions within the HSV-tk gene. Further experiments, including a novel "transgene walking" PCR method, confirmed the presence of deletions. The deletions were unique, patient-specific, present in most circulating GMCs expressing NeoR, and shown to occur at time of GMC production. Unique patient-specific retroviral insertion sites (ISs) were found in all GMCs capable of in vitro expansion/cloning as well. These findings suggest a rare initial gene deletion event and an in vivo survival advantage of rare GMC clones resulting from an anti-HSV-tk immune response and/or ganciclovir treatment. In conclusion, we show that donor mature T cells infused with a T-cell-depleted graft persist in vivo for more than a decade. These cells, containing transgene deletions and subjected to significant in vivo selection, represent a small fraction of T cells infused at transplantation.
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| http://dx.doi.org/10.1182/blood-2007-04-087346 | DOI Listing |
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