Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models

GM2 gangliosidosis disorders are a group of neurodegenerative diseases that result from a functional deficiency of the enzyme β-hexosaminidase A (HexA). HexA consists of an α- and β-subunit; a deficiency in either subunit results in Tay–Sachs Disease (TSD) or Sandhoff Disease (SD), respectively. Vir...

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Autores principales: Kot, Shalini, Karumuthil-Melethil, Subha, Woodley, Evan, Zaric, Violeta, Thompson, Patrick, Chen, Zhilin, Lykken, Erik, Keimel, John G., Kaemmerer, William F., Gray, Steven J., Walia, Jagdeep S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8268035/
https://www.ncbi.nlm.nih.gov/pubmed/34201771
http://dx.doi.org/10.3390/ijms22136751
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author Kot, Shalini
Karumuthil-Melethil, Subha
Woodley, Evan
Zaric, Violeta
Thompson, Patrick
Chen, Zhilin
Lykken, Erik
Keimel, John G.
Kaemmerer, William F.
Gray, Steven J.
Walia, Jagdeep S.
author_facet Kot, Shalini
Karumuthil-Melethil, Subha
Woodley, Evan
Zaric, Violeta
Thompson, Patrick
Chen, Zhilin
Lykken, Erik
Keimel, John G.
Kaemmerer, William F.
Gray, Steven J.
Walia, Jagdeep S.
author_sort Kot, Shalini
collection PubMed
description GM2 gangliosidosis disorders are a group of neurodegenerative diseases that result from a functional deficiency of the enzyme β-hexosaminidase A (HexA). HexA consists of an α- and β-subunit; a deficiency in either subunit results in Tay–Sachs Disease (TSD) or Sandhoff Disease (SD), respectively. Viral vector gene transfer is viewed as a potential method of treating these diseases. A recently constructed isoenzyme to HexA, called HexM, has the ability to effectively catabolize GM2 gangliosides in vivo. Previous gene transfer studies have revealed that the scAAV9-HEXM treatment can improve survival in the murine SD model. However, it is speculated that this treatment could elicit an immune response to the carrier capsid and “non-self”-expressed transgene. This study was designed to assess the immunocompetence of TSD and SD mice, and test the immune response to the scAAV9-HEXM gene transfer. HexM vector-treated mice developed a significant anti-HexM T cell response and antibody response. This study confirms that TSD and SD mouse models are immunocompetent, and that gene transfer expression can create an immune response in these mice. These mouse models could be utilized for investigating methods of mitigating immune responses to gene transfer-expressed “non-self” proteins, and potentially improve treatment efficacy.
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spelling pubmed-82680352021-07-10 Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models Kot, Shalini Karumuthil-Melethil, Subha Woodley, Evan Zaric, Violeta Thompson, Patrick Chen, Zhilin Lykken, Erik Keimel, John G. Kaemmerer, William F. Gray, Steven J. Walia, Jagdeep S. Int J Mol Sci Article GM2 gangliosidosis disorders are a group of neurodegenerative diseases that result from a functional deficiency of the enzyme β-hexosaminidase A (HexA). HexA consists of an α- and β-subunit; a deficiency in either subunit results in Tay–Sachs Disease (TSD) or Sandhoff Disease (SD), respectively. Viral vector gene transfer is viewed as a potential method of treating these diseases. A recently constructed isoenzyme to HexA, called HexM, has the ability to effectively catabolize GM2 gangliosides in vivo. Previous gene transfer studies have revealed that the scAAV9-HEXM treatment can improve survival in the murine SD model. However, it is speculated that this treatment could elicit an immune response to the carrier capsid and “non-self”-expressed transgene. This study was designed to assess the immunocompetence of TSD and SD mice, and test the immune response to the scAAV9-HEXM gene transfer. HexM vector-treated mice developed a significant anti-HexM T cell response and antibody response. This study confirms that TSD and SD mouse models are immunocompetent, and that gene transfer expression can create an immune response in these mice. These mouse models could be utilized for investigating methods of mitigating immune responses to gene transfer-expressed “non-self” proteins, and potentially improve treatment efficacy. MDPI 2021-06-23 /pmc/articles/PMC8268035/ /pubmed/34201771 http://dx.doi.org/10.3390/ijms22136751 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Kot, Shalini
Karumuthil-Melethil, Subha
Woodley, Evan
Zaric, Violeta
Thompson, Patrick
Chen, Zhilin
Lykken, Erik
Keimel, John G.
Kaemmerer, William F.
Gray, Steven J.
Walia, Jagdeep S.
Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title_full Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title_fullStr Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title_full_unstemmed Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title_short Investigating Immune Responses to the scAAV9-HEXM Gene Therapy Treatment in Tay–Sachs Disease and Sandhoff Disease Mouse Models
title_sort investigating immune responses to the scaav9-hexm gene therapy treatment in tay–sachs disease and sandhoff disease mouse models
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8268035/
https://www.ncbi.nlm.nih.gov/pubmed/34201771
http://dx.doi.org/10.3390/ijms22136751
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