In vivo T-cell dynamics during immune reconstitution after hematopoietic stem cell gene therapy in adenosine deaminase severe combined immune deficiency

Selleri, Silvia; Brigida, Immacolata; Casiraghi, Maurizio; Scaramuzza, Samantha; Cappelli, Barbara; Cassani, Barbara; Ferrua, Francesca; Aker, Memet; Slavin, Shimon; Scarselli, Alessia; Cancrini, Caterina; Marktel, Sarah; Roncarolo, Maria Grazia; Aiuti, Alessandro

doi:10.1016/j.jaci.2011.03.004

Cited by 13 publications

(8 citation statements)

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“…Previously, transplant with autologous gene-corrected hematopoietic stem cells in 10 patients with ADA-SCID detoxified purine metabolites, increased T-cell counts, and normalized T-cell function during a clinical follow-up period ranging from 1.8 to 8 years. [16][17][18] Here, we expand on those data with long-term (2.3 to 13.4 years; median, 6.9 years) safety and efficacy results in those and 8 additional patients.…”

Section: Introductionmentioning

confidence: 99%

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Update on the safety and efficacy of retroviral gene therapy for immunodeficiency due to adenosine deaminase deficiency

Cicalese

Ferrua

Castagnaro

et al. 2016

Blood

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Section: Introductionmentioning

confidence: 99%

“…• Survival was 100% for 18 patients with ADA-SCID treated with genetically modified CD34 1 cells (2.3-13.4 years follow up; median, 6.9 years).…”

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confidence: 99%

Update on the safety and efficacy of retroviral gene therapy for immunodeficiency due to adenosine deaminase deficiency

Cicalese

Ferrua

Castagnaro

et al. 2016

Blood

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184

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“…The protocol for the purification of different cell subsets and qPCR for gene-corrected cells was performed as previously described. E4 The purity of CD19 + B cells was greater than 90%.…”

Section: Methodsmentioning

confidence: 96%

B-cell development and functions and therapeutic options in adenosine deaminase–deficient patients

Brigida

Sauer

Ferrua³

et al. 2014

Journal of Allergy and Clinical Immunology

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Background Adenosine deaminase (ADA) deficiency causes severe cellular and humoral immune defects and dysregulation because of metabolic toxicity. Alterations in B-cell development and function have been poorly studied. Enzyme replacement therapy (ERT) and hematopoietic stem cell (HSC) gene therapy (GT) are therapeutic options for patients lacking a suitable bone marrow (BM) transplant donor. Objective We sought to study alterations in B-cell development in ADA-deficient patients and investigate the ability of ERT and HSC-GT to restore normal B-cell differentiation and function. Methods Flow cytometry was used to characterize B-cell development in BM and the periphery. The percentage of gene-corrected B cells was measured by using quantitative PCR. B cells were assessed for their capacity to proliferate and release IgM after stimulation. Results Despite the severe peripheral B-cell lymphopenia, patients with ADA-deficient severe combined immunodeficiency showed a partial block in central BM development. Treatment with ERT or HSC-GT reverted most BM alterations, but ERT led to immature B-cell expansion. In the periphery transitional B cells accumulated under ERT, and the defect in maturation persisted long-term. HSC-GT led to a progressive improvement in B-cell numbers and development, along with increased levels of gene correction. The strongest selective advantage for ADA-transduced cells occurred at the transition from immature to naive cells. B-cell proliferative responses and differentiation to immunoglobulin secreting IgM after B-cell receptor and Toll-like receptor triggering were severely impaired after ERT and improved significantly after HSC-GT. Conclusions ADA-deficient patients show specific defects in B-cell development and functions that are differently corrected after ERT and HSC-GT.

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“…Real-time quantitative PCR (qPCR) for single-joint TCR excision circles (sjTRECs) was performed as described previously, 19 using GAPDH as a control to standardize DNA content. Briefly, amplification reactions were performed in a final volume of 25 L containing 50 ng of genomic DNA isolated from the different T-cell subsets, TaqMan universal PCR master mix (PerkinElmer/Applied Biosystems), and the appropriate primers and probes.…”

Section: Quantification Of Sjtrecsmentioning

confidence: 99%

IL-7 and IL-15 instruct the generation of human memory stem T cells from naive precursors

Cieri

Camisa

Cocchiarella

et al. 2013

Blood

503

522

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Key Points• Identification of the biologic requirements for memory stem T cell (T SCM ) generation and expansion from naive precursors ex vivo.• Differentiation, expansion, and genetic manipulation of human T SCM for cancer adoptive cellular therapy. Long-living memory stem T cells (T SCM) IntroductionAdaptive immunity is a potent and flexible system able to combat microbes and cancer cells. 1,2 In the presence of infections or cancer, antigen-specific lymphocytes expand and differentiate into effectors devoted to rapidly clearing the pathogen and memory cells able to persist long-term to patrol the entire organism for recurrence and minimal residual disease. 3,4 However, the mechanism and hierarchical differentiation path underlying the generation of memory precursors and terminal effector cells remain to be fully elucidated. 5 This process has been proposed to involve a self-renewing, stem cell-like memory T-cell subset capable of differentiating into effectors on antigen reencounter. 6,7 This T-cell subset, referred to as memory stem T cells (T SCM ), and initially described in mice, 8,9 begins to be unveiled in humans. 10 T SCM potential biodistribution and long-term persistence represent appealing features to overcome the current limitations of cancer adoptive immune-gene therapy. [11][12][13] At present, clinical-grade protocols able to obtain or preserve T SCM functional and phenotypic characteristics remain to be defined. We previously showed that costimulation of unselected T cells and culture with ␥-chain cytokines allow the preferential generation of gene-modified T cells with a functional central memory (T CM ) phenotype, superior to effector/effector memory (T EM ) counterparts for expansion potential and antitumor activity. 14,15 Compared with T CM and T EM lymphocytes, naive T cells (T N ) are endowed with the highest developmental plasticity and are unique in the ability to generate daughter cells with potential to enter the entire spectrum of immunologic memory, including T SCM . We thus hypothesized that, starting from naive precursors, we could differentiate and genetically engineer human T SCM . We report that IL-7 and IL-15 support the generation of postmitotic costimulated CD8 ϩ T cells with molecular and functional features of T SCM cells. These cells-defined by the expression of CD45RA, CD45R0, CD62L, CCR7, IL-7R␣, and CD95-can be identified among healthy subjects, are selectively enriched in hematopoietic stem cell transplant (HSCT) recipients, and reveal a phenotypic and functional profile distinct from that of T CM and T EM cells for extensive expansion capacity and ability Submitted May 22, 2012; accepted October 25, 2012. Prepublished online as Blood First Edition paper, November 15, 2012; DOI 10.1182 DOI 10. /blood-2012 There is an Inside Blood commentary on this article in this issue.The online version of this article contains a data supplement.The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this arti...

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In vivo T-cell dynamics during immune reconstitution after hematopoietic stem cell gene therapy in adenosine deaminase severe combined immune deficiency

Cited by 13 publications

References 46 publications

Update on the safety and efficacy of retroviral gene therapy for immunodeficiency due to adenosine deaminase deficiency

Update on the safety and efficacy of retroviral gene therapy for immunodeficiency due to adenosine deaminase deficiency

B-cell development and functions and therapeutic options in adenosine deaminase–deficient patients

IL-7 and IL-15 instruct the generation of human memory stem T cells from naive precursors

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