Pompe disease gene therapy

Barry J. Byrne; Darin J. Falk; Christina A. Pacak; Sushrusha Nayak; Roland W. Herzog; Melissa E. Elder; Shelley W. Collins; Thomas J. Conlon; Nathalie Clement; Brian D. Cleaver; Denise A. Cloutier; Stacy L. Porvasnik; Saleem Islam; Mai K. Elmallah; Anatole Martin; Barbara K. Smith; David D. Fuller; Lee Ann Lawson; Cathryn S. Mah

doi:10.1093/hmg/ddr174

Pompe disease gene therapy

Barry J. Byrne, Darin J. Falk, Christina A. Pacak, Sushrusha Nayak, Roland W. Herzog, Melissa E. Elder, Shelley W. Collins, Thomas J. Conlon, Nathalie Clement, Brian D. Cleaver, Denise A. Cloutier, Stacy L. Porvasnik, Saleem Islam, Mai K. Elmallah, Anatole Martin, Barbara K. Smith, David D. Fuller, Lee Ann Lawson, Cathryn S. Mah

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75 Scopus citations

Abstract

Pompe disease is an autosomal recessive metabolic myopathy caused by the deficiency of the lysosomal enzyme acid alpha-glucosidase and results in cellular lysosomal and cytoplasmic glycogen accumulation. A wide spectrum of disease exists from hypotonia and severe cardiac hypertrophy in the first few months of life due to severe mutations to a milder form with the onset of symptoms in adulthood. In either condition, the involvement of several systems leads to progressive weakness and disability. In early-onset severe cases, the natural history is characteristically cardiorespiratory failure and death in the first year of life. Since the advent of enzyme replacement therapy (ERT), the clinical outcomes have improved. However, it has become apparent that a new natural history is being defined in which some patients have substantial improvement following ERT, while others develop chronic disability reminiscent of the late-onset disease. In order to improve on the current clinical outcomes in Pompe patients with diminished clinical response to ERT, we sought to address the cause and potential for the treatment of disease manifestations which are not amenable to ERT. In this review, we will focus on the preclinical studies that are relevant to the development of a gene therapy strategy for Pompe disease, and have led to the first clinical trial of recombinant adeno-associated virus-mediated gene-based therapy for Pompe disease. We will cover the preliminary laboratory studies and rationale for a clinical trial, which is based on the treatment of the high rate of respiratory failure in the early-onset patients receiving ERT.

Original language	English (US)
Article number	ddr174
Pages (from-to)	R61-R68
Journal	Human molecular genetics
Volume	20
DOIs	https://doi.org/10.1093/hmg/ddr174
State	Published - Apr 2011
Externally published	Yes

Bibliographical note

Funding Information:
This work was supported by grants from the National Institutes of Health [NHLBI P01 HL59412-06, NIDDK P01 DK58327-03, 1R01HD052682-01A1, NHLBI-1F32HL095282-01A1 (D.J.F.) and the NHLBI Gene Therapy Resource Program]. B.J.B., C.A.P., D.D.F., C.S.M., The Johns Hopkins University and the University of Florida could be entitled to patent royalties for inventions described in this manuscript.

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Byrne, B. J., Falk, D. J., Pacak, C. A., Nayak, S., Herzog, R. W., Elder, M. E., Collins, S. W., Conlon, T. J., Clement, N., Cleaver, B. D., Cloutier, D. A., Porvasnik, S. L., Islam, S., Elmallah, M. K., Martin, A., Smith, B. K., Fuller, D. D., Lawson, L. A., & Mah, C. S. (2011). Pompe disease gene therapy. Human molecular genetics, 20, R61-R68. Article ddr174. https://doi.org/10.1093/hmg/ddr174

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abstract = "Pompe disease is an autosomal recessive metabolic myopathy caused by the deficiency of the lysosomal enzyme acid alpha-glucosidase and results in cellular lysosomal and cytoplasmic glycogen accumulation. A wide spectrum of disease exists from hypotonia and severe cardiac hypertrophy in the first few months of life due to severe mutations to a milder form with the onset of symptoms in adulthood. In either condition, the involvement of several systems leads to progressive weakness and disability. In early-onset severe cases, the natural history is characteristically cardiorespiratory failure and death in the first year of life. Since the advent of enzyme replacement therapy (ERT), the clinical outcomes have improved. However, it has become apparent that a new natural history is being defined in which some patients have substantial improvement following ERT, while others develop chronic disability reminiscent of the late-onset disease. In order to improve on the current clinical outcomes in Pompe patients with diminished clinical response to ERT, we sought to address the cause and potential for the treatment of disease manifestations which are not amenable to ERT. In this review, we will focus on the preclinical studies that are relevant to the development of a gene therapy strategy for Pompe disease, and have led to the first clinical trial of recombinant adeno-associated virus-mediated gene-based therapy for Pompe disease. We will cover the preliminary laboratory studies and rationale for a clinical trial, which is based on the treatment of the high rate of respiratory failure in the early-onset patients receiving ERT.",

author = "Byrne, {Barry J.} and Falk, {Darin J.} and Pacak, {Christina A.} and Sushrusha Nayak and Herzog, {Roland W.} and Elder, {Melissa E.} and Collins, {Shelley W.} and Conlon, {Thomas J.} and Nathalie Clement and Cleaver, {Brian D.} and Cloutier, {Denise A.} and Porvasnik, {Stacy L.} and Saleem Islam and Elmallah, {Mai K.} and Anatole Martin and Smith, {Barbara K.} and Fuller, {David D.} and Lawson, {Lee Ann} and Mah, {Cathryn S.}",

note = "Funding Information: This work was supported by grants from the National Institutes of Health [NHLBI P01 HL59412-06, NIDDK P01 DK58327-03, 1R01HD052682-01A1, NHLBI-1F32HL095282-01A1 (D.J.F.) and the NHLBI Gene Therapy Resource Program]. B.J.B., C.A.P., D.D.F., C.S.M., The Johns Hopkins University and the University of Florida could be entitled to patent royalties for inventions described in this manuscript.",

year = "2011",

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doi = "10.1093/hmg/ddr174",

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volume = "20",

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AU - Falk, Darin J.

AU - Pacak, Christina A.

AU - Nayak, Sushrusha

AU - Herzog, Roland W.

AU - Elder, Melissa E.

AU - Collins, Shelley W.

AU - Conlon, Thomas J.

AU - Clement, Nathalie

AU - Cleaver, Brian D.

AU - Cloutier, Denise A.

AU - Porvasnik, Stacy L.

AU - Islam, Saleem

AU - Elmallah, Mai K.

AU - Martin, Anatole

AU - Smith, Barbara K.

AU - Fuller, David D.

AU - Lawson, Lee Ann

AU - Mah, Cathryn S.

N1 - Funding Information: This work was supported by grants from the National Institutes of Health [NHLBI P01 HL59412-06, NIDDK P01 DK58327-03, 1R01HD052682-01A1, NHLBI-1F32HL095282-01A1 (D.J.F.) and the NHLBI Gene Therapy Resource Program]. B.J.B., C.A.P., D.D.F., C.S.M., The Johns Hopkins University and the University of Florida could be entitled to patent royalties for inventions described in this manuscript.

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N2 - Pompe disease is an autosomal recessive metabolic myopathy caused by the deficiency of the lysosomal enzyme acid alpha-glucosidase and results in cellular lysosomal and cytoplasmic glycogen accumulation. A wide spectrum of disease exists from hypotonia and severe cardiac hypertrophy in the first few months of life due to severe mutations to a milder form with the onset of symptoms in adulthood. In either condition, the involvement of several systems leads to progressive weakness and disability. In early-onset severe cases, the natural history is characteristically cardiorespiratory failure and death in the first year of life. Since the advent of enzyme replacement therapy (ERT), the clinical outcomes have improved. However, it has become apparent that a new natural history is being defined in which some patients have substantial improvement following ERT, while others develop chronic disability reminiscent of the late-onset disease. In order to improve on the current clinical outcomes in Pompe patients with diminished clinical response to ERT, we sought to address the cause and potential for the treatment of disease manifestations which are not amenable to ERT. In this review, we will focus on the preclinical studies that are relevant to the development of a gene therapy strategy for Pompe disease, and have led to the first clinical trial of recombinant adeno-associated virus-mediated gene-based therapy for Pompe disease. We will cover the preliminary laboratory studies and rationale for a clinical trial, which is based on the treatment of the high rate of respiratory failure in the early-onset patients receiving ERT.

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ER -

Pompe disease gene therapy

Abstract

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