The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease

Pompe disease is an inherited lysosomal storage disorder that results from a deficiency in acid α-glucosidase (GAA) activity due to mutations in the GAA gene. Pompe disease is characterized by accumulation of lysosomal glycogen primarily in heart and skeletal muscles, which leads to progressive musc...

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Autores principales: Khanna, Richie, Powe, Allan C., Lun, Yi, Soska, Rebecca, Feng, Jessie, Dhulipala, Rohini, Frascella, Michelle, Garcia, Anadina, Pellegrino, Lee J., Xu, Su, Brignol, Nastry, Toth, Matthew J., Do, Hung V., Lockhart, David J., Wustman, Brandon A., Valenzano, Kenneth J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4103853/
https://www.ncbi.nlm.nih.gov/pubmed/25036864
http://dx.doi.org/10.1371/journal.pone.0102092
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author Khanna, Richie
Powe, Allan C.
Lun, Yi
Soska, Rebecca
Feng, Jessie
Dhulipala, Rohini
Frascella, Michelle
Garcia, Anadina
Pellegrino, Lee J.
Xu, Su
Brignol, Nastry
Toth, Matthew J.
Do, Hung V.
Lockhart, David J.
Wustman, Brandon A.
Valenzano, Kenneth J.
author_facet Khanna, Richie
Powe, Allan C.
Lun, Yi
Soska, Rebecca
Feng, Jessie
Dhulipala, Rohini
Frascella, Michelle
Garcia, Anadina
Pellegrino, Lee J.
Xu, Su
Brignol, Nastry
Toth, Matthew J.
Do, Hung V.
Lockhart, David J.
Wustman, Brandon A.
Valenzano, Kenneth J.
author_sort Khanna, Richie
collection PubMed
description Pompe disease is an inherited lysosomal storage disorder that results from a deficiency in acid α-glucosidase (GAA) activity due to mutations in the GAA gene. Pompe disease is characterized by accumulation of lysosomal glycogen primarily in heart and skeletal muscles, which leads to progressive muscle weakness. We have shown previously that the small molecule pharmacological chaperone AT2220 (1-deoxynojirimycin hydrochloride, duvoglustat hydrochloride) binds and stabilizes wild-type as well as multiple mutant forms of GAA, and can lead to higher cellular levels of GAA. In this study, we examined the effect of AT2220 on mutant GAA, in vitro and in vivo, with a primary focus on the endoplasmic reticulum (ER)-retained P545L mutant form of human GAA (P545L GAA). AT2220 increased the specific activity of P545L GAA toward both natural (glycogen) and artificial substrates in vitro. Incubation with AT2220 also increased the ER export, lysosomal delivery, proteolytic processing, and stability of P545L GAA. In a new transgenic mouse model of Pompe disease that expresses human P545L on a Gaa knockout background (Tg/KO) and is characterized by reduced GAA activity and elevated glycogen levels in disease-relevant tissues, daily oral administration of AT2220 for 4 weeks resulted in significant and dose-dependent increases in mature lysosomal GAA isoforms and GAA activity in heart and skeletal muscles. Importantly, oral administration of AT2220 also resulted in significant glycogen reduction in disease-relevant tissues. Compared to daily administration, less-frequent AT2220 administration, including repeated cycles of 4 or 5 days with AT2220 followed by 3 or 2 days without drug, respectively, resulted in even greater glycogen reductions. Collectively, these data indicate that AT2220 increases the specific activity, trafficking, and lysosomal stability of P545L GAA, leads to increased levels of mature GAA in lysosomes, and promotes glycogen reduction in situ. As such, AT2220 may warrant further evaluation as a treatment for Pompe disease.
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spelling pubmed-41038532014-07-21 The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease Khanna, Richie Powe, Allan C. Lun, Yi Soska, Rebecca Feng, Jessie Dhulipala, Rohini Frascella, Michelle Garcia, Anadina Pellegrino, Lee J. Xu, Su Brignol, Nastry Toth, Matthew J. Do, Hung V. Lockhart, David J. Wustman, Brandon A. Valenzano, Kenneth J. PLoS One Research Article Pompe disease is an inherited lysosomal storage disorder that results from a deficiency in acid α-glucosidase (GAA) activity due to mutations in the GAA gene. Pompe disease is characterized by accumulation of lysosomal glycogen primarily in heart and skeletal muscles, which leads to progressive muscle weakness. We have shown previously that the small molecule pharmacological chaperone AT2220 (1-deoxynojirimycin hydrochloride, duvoglustat hydrochloride) binds and stabilizes wild-type as well as multiple mutant forms of GAA, and can lead to higher cellular levels of GAA. In this study, we examined the effect of AT2220 on mutant GAA, in vitro and in vivo, with a primary focus on the endoplasmic reticulum (ER)-retained P545L mutant form of human GAA (P545L GAA). AT2220 increased the specific activity of P545L GAA toward both natural (glycogen) and artificial substrates in vitro. Incubation with AT2220 also increased the ER export, lysosomal delivery, proteolytic processing, and stability of P545L GAA. In a new transgenic mouse model of Pompe disease that expresses human P545L on a Gaa knockout background (Tg/KO) and is characterized by reduced GAA activity and elevated glycogen levels in disease-relevant tissues, daily oral administration of AT2220 for 4 weeks resulted in significant and dose-dependent increases in mature lysosomal GAA isoforms and GAA activity in heart and skeletal muscles. Importantly, oral administration of AT2220 also resulted in significant glycogen reduction in disease-relevant tissues. Compared to daily administration, less-frequent AT2220 administration, including repeated cycles of 4 or 5 days with AT2220 followed by 3 or 2 days without drug, respectively, resulted in even greater glycogen reductions. Collectively, these data indicate that AT2220 increases the specific activity, trafficking, and lysosomal stability of P545L GAA, leads to increased levels of mature GAA in lysosomes, and promotes glycogen reduction in situ. As such, AT2220 may warrant further evaluation as a treatment for Pompe disease. Public Library of Science 2014-07-18 /pmc/articles/PMC4103853/ /pubmed/25036864 http://dx.doi.org/10.1371/journal.pone.0102092 Text en © 2014 Khanna et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Khanna, Richie
Powe, Allan C.
Lun, Yi
Soska, Rebecca
Feng, Jessie
Dhulipala, Rohini
Frascella, Michelle
Garcia, Anadina
Pellegrino, Lee J.
Xu, Su
Brignol, Nastry
Toth, Matthew J.
Do, Hung V.
Lockhart, David J.
Wustman, Brandon A.
Valenzano, Kenneth J.
The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title_full The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title_fullStr The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title_full_unstemmed The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title_short The Pharmacological Chaperone AT2220 Increases the Specific Activity and Lysosomal Delivery of Mutant Acid Alpha-Glucosidase, and Promotes Glycogen Reduction in a Transgenic Mouse Model of Pompe Disease
title_sort pharmacological chaperone at2220 increases the specific activity and lysosomal delivery of mutant acid alpha-glucosidase, and promotes glycogen reduction in a transgenic mouse model of pompe disease
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4103853/
https://www.ncbi.nlm.nih.gov/pubmed/25036864
http://dx.doi.org/10.1371/journal.pone.0102092
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