The transfer of genetically engineered lymphocytes in melanoma patients: a Phase I dose escalation study

BackgroundGenetically engineered T cells have broadened the opportunity for use of T cell immunotherapy in cancer patients. The possibility of improving T cell efficacy via introduction of additional genes potentially gives them an advantage over TIL. Studies in adoptive T cell transfer suggest that...

Full description

Saved in:
Bibliographic Details
Published in:Journal for immunotherapy of cancer 2015-11, Vol.3 (Suppl 2), p.P168-P168, Article P168
Main Authors: Regan, Courtney, Nishimura, Michael, Le Poole, I Caroline, Godellas, Constantine, Stiff, Patrick, Garrett-Mayer, Elizabeth, Li, Mingli, Shirai, Keisuke, Eby, Jonathan, Embree, Heather, Dropulic, Boro, Clark, Ann Lau, Hutchens, Kelli, Clark, Joseph I
Format: Article
Language:English
Subjects:
Care and treatment
Cellular therapy
Clinical trials
Genetic engineering
Health aspects
Immunotherapy
Innovations
Lymphocytes
Melanoma
Methods
Molecular targeted therapy
Patient outcomes
Poster Presentation
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:BackgroundGenetically engineered T cells have broadened the opportunity for use of T cell immunotherapy in cancer patients. The possibility of improving T cell efficacy via introduction of additional genes potentially gives them an advantage over TIL. Studies in adoptive T cell transfer suggest that persistence is fundamental to the efficacy of this therapy. This Phase I clinical trial uses TCR TIL 1383I transduced T cells to target the tyrosinase antigen on melanoma cells. Two of the objectives in this clinical trial in stage IV melanoma patients include measuring persistence and monitoring the behavior of tumor-reactive T cells in vivo.MethodsStage IV melanoma patients must have tumors that are positive for both HLA-A2 and tyrosinase on pathologic review. Peripheral blood mononuclear cells (PBMCs) are isolated from the patients and activated with anti-hCD3, rhIL2 and rhIL15. These PBMCs are transduced with lentivirus encoding the TIL 1383I TCR and expanded to treatment numbers. The transduced cells are suspended in 5% human albumin and infused over 30 minutes. The infusion is preceded by lymphodepletion with fludarabine and cyclophosphamide and followed with low dose IL-2 for one week. A modified CD34 cassette in the vector enables monitoring of the transduced T cells in the patient's PBMC post-infusion. PBMCs, complete metabolic panels, lactate dehydrogenase, and complete blood counts are collected on days 1, 3, 5, 7, 14, 25, 35 and monthly up to 3 months, and then every 1-3 months as clinically indicated. Physical exams, toxicity assessment, whole body PET/CT or CT scans, Audiology and Ophthalmologic exams are performed pretreatment and at 4 weeks post infusion and as clinically indicated every 1-3 months afterwards.The presence of transduced T cells at each time point is measured by staining with anti-CD34 mAb and analyzed using a BD LSRFortessa flow cytometer.ConclusionThis study is open to accrual at Loyola University Medical Center and is in the process of expanding to other institutions. We have successfully completed treatment in 3 of 55 screened patients, with goal accrual of 24 patients. Results to date confirm that infused genetically engineered TIL 1383I TCR transduced T cells are detectable more than 6 months after infusion and demonstrate activity. We plan to move forward with a Phase II study.
ISSN:2051-1426
2051-1426
DOI:10.1186/2051-1426-3-S2-P168