Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow

L. J. Fairbairn; L. S. Lashford; E. Spooncer; R. H. Mcdermott; G. Lebens; J. E. Arrand; J. R. Arrand; I. Bellantuono; R. Holt; C. E. Hatton; A. Cooper; G. T N Besley; J. E. Wraith; D. S. Anson; J. J. Hopwood; T. M. Dexter

doi:10.1073/pnas.93.5.2025

Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow

L. J. Fairbairn, L. S. Lashford, E. Spooncer, R. H. Mcdermott, G. Lebens, J. E. Arrand, J. R. Arrand, I. Bellantuono, R. Holt, C. E. Hatton, A. Cooper, G. T N Besley, J. E. Wraith, D. S. Anson, J. J. Hopwood, T. M. Dexter

Hopwood Centre For Neurobiology

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

41 Citations (Scopus)

Abstract

Allogeneic bone marrow transplantation is the most effective treatment for Hurler syndrome but, since this therapy is not available to all patients, we have considered an alternative approach based on transfer and expression of the normal gene in autologous bone marrow. A retroviral vector carrying the full-length cDNA for α-L-iduronidase has been constructed and used to transduce bone marrow from patients with this disorder. Various gene-transfer protocols have been assessed including the effect of intensive schedules of exposure of bone marrow to viral supernatant and the influence of growth factors. With these protocols, we have demonstrated successful gene transfer into primitive CD34⁺ cells and subsequent enzyme expression in their maturing progeny. Also, by using long-term bone marrow cultures, we have demonstrated high levels of enzyme expression sustained for several months. The efficiency of gene transfer has been assessed by PCR analysis of hemopoietic colonies as 25-56%. No advantage has been demonstrated for the addition of growth factors or intensive viral exposure schedules. The enzyme is secreted into the medium and functional localization has been demonstrated by reversal of the phenotypic effects of lysosomal storage in macrophages. This work suggests that retroviral gene transfer into human bone marrow may offer the prospect for gene therapy of Hurler syndrome in young patients without a matched sibling donor.

Original language	English
Pages (from-to)	2025-2030
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	93
Issue number	5
DOIs	https://doi.org/10.1073/pnas.93.5.2025
Publication status	Published or Issued - 5 Mar 1996

Keywords

autosomal recessive
gene therapy
mucopolysaccharidosis type 1

ASJC Scopus subject areas

General

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10.1073/pnas.93.5.2025

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Fairbairn, L. J., Lashford, L. S., Spooncer, E., Mcdermott, R. H., Lebens, G., Arrand, J. E., Arrand, J. R., Bellantuono, I., Holt, R., Hatton, C. E., Cooper, A., Besley, G. T. N., Wraith, J. E., Anson, D. S., Hopwood, J. J., & Dexter, T. M. (1996). Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow. Proceedings of the National Academy of Sciences of the United States of America, 93(5), 2025-2030. https://doi.org/10.1073/pnas.93.5.2025

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title = "Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow",

abstract = "Allogeneic bone marrow transplantation is the most effective treatment for Hurler syndrome but, since this therapy is not available to all patients, we have considered an alternative approach based on transfer and expression of the normal gene in autologous bone marrow. A retroviral vector carrying the full-length cDNA for α-L-iduronidase has been constructed and used to transduce bone marrow from patients with this disorder. Various gene-transfer protocols have been assessed including the effect of intensive schedules of exposure of bone marrow to viral supernatant and the influence of growth factors. With these protocols, we have demonstrated successful gene transfer into primitive CD34+ cells and subsequent enzyme expression in their maturing progeny. Also, by using long-term bone marrow cultures, we have demonstrated high levels of enzyme expression sustained for several months. The efficiency of gene transfer has been assessed by PCR analysis of hemopoietic colonies as 25-56%. No advantage has been demonstrated for the addition of growth factors or intensive viral exposure schedules. The enzyme is secreted into the medium and functional localization has been demonstrated by reversal of the phenotypic effects of lysosomal storage in macrophages. This work suggests that retroviral gene transfer into human bone marrow may offer the prospect for gene therapy of Hurler syndrome in young patients without a matched sibling donor.",

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Fairbairn, LJ, Lashford, LS, Spooncer, E, Mcdermott, RH, Lebens, G, Arrand, JE, Arrand, JR, Bellantuono, I, Holt, R, Hatton, CE, Cooper, A, Besley, GTN, Wraith, JE, Anson, DS, Hopwood, JJ & Dexter, TM 1996, 'Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow', Proceedings of the National Academy of Sciences of the United States of America, vol. 93, no. 5, pp. 2025-2030. https://doi.org/10.1073/pnas.93.5.2025

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AU - Fairbairn, L. J.

AU - Lashford, L. S.

AU - Spooncer, E.

AU - Mcdermott, R. H.

AU - Lebens, G.

AU - Arrand, J. E.

AU - Arrand, J. R.

AU - Bellantuono, I.

AU - Holt, R.

AU - Hatton, C. E.

AU - Cooper, A.

AU - Besley, G. T N

AU - Wraith, J. E.

AU - Anson, D. S.

AU - Hopwood, J. J.

AU - Dexter, T. M.

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N2 - Allogeneic bone marrow transplantation is the most effective treatment for Hurler syndrome but, since this therapy is not available to all patients, we have considered an alternative approach based on transfer and expression of the normal gene in autologous bone marrow. A retroviral vector carrying the full-length cDNA for α-L-iduronidase has been constructed and used to transduce bone marrow from patients with this disorder. Various gene-transfer protocols have been assessed including the effect of intensive schedules of exposure of bone marrow to viral supernatant and the influence of growth factors. With these protocols, we have demonstrated successful gene transfer into primitive CD34+ cells and subsequent enzyme expression in their maturing progeny. Also, by using long-term bone marrow cultures, we have demonstrated high levels of enzyme expression sustained for several months. The efficiency of gene transfer has been assessed by PCR analysis of hemopoietic colonies as 25-56%. No advantage has been demonstrated for the addition of growth factors or intensive viral exposure schedules. The enzyme is secreted into the medium and functional localization has been demonstrated by reversal of the phenotypic effects of lysosomal storage in macrophages. This work suggests that retroviral gene transfer into human bone marrow may offer the prospect for gene therapy of Hurler syndrome in young patients without a matched sibling donor.

AB - Allogeneic bone marrow transplantation is the most effective treatment for Hurler syndrome but, since this therapy is not available to all patients, we have considered an alternative approach based on transfer and expression of the normal gene in autologous bone marrow. A retroviral vector carrying the full-length cDNA for α-L-iduronidase has been constructed and used to transduce bone marrow from patients with this disorder. Various gene-transfer protocols have been assessed including the effect of intensive schedules of exposure of bone marrow to viral supernatant and the influence of growth factors. With these protocols, we have demonstrated successful gene transfer into primitive CD34+ cells and subsequent enzyme expression in their maturing progeny. Also, by using long-term bone marrow cultures, we have demonstrated high levels of enzyme expression sustained for several months. The efficiency of gene transfer has been assessed by PCR analysis of hemopoietic colonies as 25-56%. No advantage has been demonstrated for the addition of growth factors or intensive viral exposure schedules. The enzyme is secreted into the medium and functional localization has been demonstrated by reversal of the phenotypic effects of lysosomal storage in macrophages. This work suggests that retroviral gene transfer into human bone marrow may offer the prospect for gene therapy of Hurler syndrome in young patients without a matched sibling donor.

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KW - mucopolysaccharidosis type 1

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Long-term in vitro correction of α-L-iduronidase deficiency (Hurler syndrome) in human bone marrow

Abstract

Keywords

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