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Transfer of the ADA gene into human ADA-deficient T lymphocytes reconstitutes specific immune function

Authors :
Nadia Nobili
Giuliana Ferrari
Silvano Rossini
Raffaella Giavazzi
Fulvio Mavilio
Claudio Bordignon
Daniela Maggioni
Angela Garofalo
Ferrari, Giuliana
Rossini, S.
Nobili, N.
Maggioni, D.
Garofalo, A.
Giavazzi, R.
Mavilio, F.
Bordignon, Claudio
Source :
Europe PubMed Central, Scopus-Elsevier
Publication Year :
1992

Abstract

Peripheral blood lymphocytes obtained from a patient affected by adenosine deaminase (ADA) deficiency and severe combined immunodeficiency were infected with a retroviral vector containing two copies of a human ADA minigene, and injected into bg/nu/xid (BNX) immunodeficient mice. Six to 10 weeks after injection, human T cells were cloned from the spleens of recipient animals and analyzed for proliferative potential, T-cell surface markers, expression of ADA activity, integration of retroviral sequences, T-cell receptor (TCR) beta gene rearrangement, and specificity of antigen recognition. Efficient gene transfer and expression restored proliferative potential in vitro and long-term survival in vivo. All clonable human T lymphocytes obtained from the spleen of recipient animals had high levels of vector-derived ADA enzyme activity and showed predominantly the CD4+ phenotype. Retroviral integrations and TCR-beta gene rearrangements demonstrated the presence of a variety of different clones in the spleens of recipient mice. Furthermore, the combined analyses of vector integration and TCR rearrangement provided evidence that a circulating progenitor cell was transduced by the retroviral vector, giving rise to different and functional TCRs. Evaluation of antigen-specificity demonstrated both alloreactive and foreign antigen specific immune responses. These results suggest that restoration of enzyme activity in human ADA-deficient peripheral blood T cells by retroviral-mediated ADA gene transfer allows in vivo survival and reconstitution of specific immune functions. Therefore, retroviral vector-mediated gene transfer into circulating mononuclear cells could be successful not only in maintaining the metabolic homeostasis, but also for the development of a functional immune repertoire. This is a fundamental prerequisite for the usage of genetically engineered peripheral blood lymphocytes for somatic cell gene therapy of ADA deficiency.

Details

Language :
English
Database :
OpenAIRE
Journal :
Europe PubMed Central, Scopus-Elsevier
Accession number :
edsair.doi.dedup.....778d0d607be7cc9f0cba3acfa845cd41