An in vivo model of somatic cell gene therapy for human severe combined immunodeficiency

Giuliana Ferrari; Silvano Rossini; Raffaella Giavazzi; Daniela Maggioni; Nadia Nobili; Monica Soldati; Grace Ungers; Fulvio Mavilio; Eli Gilboa; Claudio Bordignon

An in vivo model of somatic cell gene therapy for human severe combined immunodeficiency

Giuliana Ferrari, Silvano Rossini, Raffaella Giavazzi, Daniela Maggioni, Nadia Nobili, Monica Soldati, Grace Ungers, Fulvio Mavilio, Eli Gilboa, Claudio Bordignon

Research output: Contribution to journal › Article › peer-review

Abstract

Deficiency of adenosine deaminase (ADA) results in severe combined immunodeficiency (SCID), a candidate genetic disorder for somatic cell gene therapy. Peripheral blood lymphocytes from patients affected by ADA^- SCID were transduced with a retroviral vector for human ADA and injected into immunodeficient mice. Long-term survival of vector-transduced human cells was demonstrated in recipient animals. Expression of vector-derived ADA restored immune functions, as indicated by the presence in reconstituted animals of human immunoglobulin and antigen-specific T cells. Retroviral vector gene transfer, therefore, is necessary and sufficient for development of specific immune functions in vivo and has therapeutic potential to correct this lethal immunodeficiency.

Original language	English
Pages (from-to)	1363-1366
Number of pages	4
Journal	Science
Volume	251
Issue number	4999
Publication status	Published - Mar 15 1991

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title = "An in vivo model of somatic cell gene therapy for human severe combined immunodeficiency",

abstract = "Deficiency of adenosine deaminase (ADA) results in severe combined immunodeficiency (SCID), a candidate genetic disorder for somatic cell gene therapy. Peripheral blood lymphocytes from patients affected by ADA- SCID were transduced with a retroviral vector for human ADA and injected into immunodeficient mice. Long-term survival of vector-transduced human cells was demonstrated in recipient animals. Expression of vector-derived ADA restored immune functions, as indicated by the presence in reconstituted animals of human immunoglobulin and antigen-specific T cells. Retroviral vector gene transfer, therefore, is necessary and sufficient for development of specific immune functions in vivo and has therapeutic potential to correct this lethal immunodeficiency.",

author = "Giuliana Ferrari and Silvano Rossini and Raffaella Giavazzi and Daniela Maggioni and Nadia Nobili and Monica Soldati and Grace Ungers and Fulvio Mavilio and Eli Gilboa and Claudio Bordignon",

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T1 - An in vivo model of somatic cell gene therapy for human severe combined immunodeficiency

AU - Ferrari, Giuliana

AU - Rossini, Silvano

AU - Giavazzi, Raffaella

AU - Maggioni, Daniela

AU - Nobili, Nadia

AU - Soldati, Monica

AU - Ungers, Grace

AU - Mavilio, Fulvio

AU - Gilboa, Eli

AU - Bordignon, Claudio

PY - 1991/3/15

Y1 - 1991/3/15

N2 - Deficiency of adenosine deaminase (ADA) results in severe combined immunodeficiency (SCID), a candidate genetic disorder for somatic cell gene therapy. Peripheral blood lymphocytes from patients affected by ADA- SCID were transduced with a retroviral vector for human ADA and injected into immunodeficient mice. Long-term survival of vector-transduced human cells was demonstrated in recipient animals. Expression of vector-derived ADA restored immune functions, as indicated by the presence in reconstituted animals of human immunoglobulin and antigen-specific T cells. Retroviral vector gene transfer, therefore, is necessary and sufficient for development of specific immune functions in vivo and has therapeutic potential to correct this lethal immunodeficiency.

AB - Deficiency of adenosine deaminase (ADA) results in severe combined immunodeficiency (SCID), a candidate genetic disorder for somatic cell gene therapy. Peripheral blood lymphocytes from patients affected by ADA- SCID were transduced with a retroviral vector for human ADA and injected into immunodeficient mice. Long-term survival of vector-transduced human cells was demonstrated in recipient animals. Expression of vector-derived ADA restored immune functions, as indicated by the presence in reconstituted animals of human immunoglobulin and antigen-specific T cells. Retroviral vector gene transfer, therefore, is necessary and sufficient for development of specific immune functions in vivo and has therapeutic potential to correct this lethal immunodeficiency.

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M3 - Article

C2 - 1848369

AN - SCOPUS:0025811758

SN - 0036-8075

VL - 251

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JF - Science

IS - 4999

ER -

An in vivo model of somatic cell gene therapy for human severe combined immunodeficiency

Abstract

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