Cargando…

Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice

Approved therapies for Fabry disease (FD) include migalastat, an oral pharmacological chaperone, and agalsidase beta and agalsidase alfa, 2 forms of enzyme replacement therapy. Broad tissue distribution may be beneficial for clinical efficacy in FD, which has severe manifestations in multiple organs...

Descripción completa

Detalles Bibliográficos
Autores principales: Wu, Yi Shuan, Khanna, Richie, Schmith, Virginia, Lun, Yi, Shen, Jin‐Song, Garcia, Anadina, Dungan, Leo, Perry, Anthony, Martin, Lukas, Tsai, Pai‐Chi, Hamler, Rick, Das, Anibh M., Schiffmann, Raphael, Johnson, Franklin K.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8453552/
https://www.ncbi.nlm.nih.gov/pubmed/33876577
http://dx.doi.org/10.1002/cpdd.941
_version_ 1784570298981416960
author Wu, Yi Shuan
Khanna, Richie
Schmith, Virginia
Lun, Yi
Shen, Jin‐Song
Garcia, Anadina
Dungan, Leo
Perry, Anthony
Martin, Lukas
Tsai, Pai‐Chi
Hamler, Rick
Das, Anibh M.
Schiffmann, Raphael
Johnson, Franklin K.
author_facet Wu, Yi Shuan
Khanna, Richie
Schmith, Virginia
Lun, Yi
Shen, Jin‐Song
Garcia, Anadina
Dungan, Leo
Perry, Anthony
Martin, Lukas
Tsai, Pai‐Chi
Hamler, Rick
Das, Anibh M.
Schiffmann, Raphael
Johnson, Franklin K.
author_sort Wu, Yi Shuan
collection PubMed
description Approved therapies for Fabry disease (FD) include migalastat, an oral pharmacological chaperone, and agalsidase beta and agalsidase alfa, 2 forms of enzyme replacement therapy. Broad tissue distribution may be beneficial for clinical efficacy in FD, which has severe manifestations in multiple organs. Here, migalastat and agalsidase beta biodistribution were assessed in mice and modeled using physiologically based pharmacokinetic (PBPK) analysis, and migalastat biodistribution was subsequently extrapolated to humans. In mice, migalastat concentration was highest in kidneys and the small intestine, 2 FD‐relevant organs. Agalsidase beta was predominantly sequestered in the liver and spleen (organs unaffected in FD). PBPK modeling predicted that migalastat 123 mg every other day resulted in concentrations exceeding the in vitro half‐maximal effective concentration in kidneys, small intestine, skin, heart, and liver in human subjects. However, extrapolation of mouse agalsidase beta concentrations to humans was unsuccessful. In conclusion, migalastat may distribute to tissues that are inaccessible to intravenous agalsidase beta in mice, and extrapolation of mouse migalastat concentrations to humans showed adequate tissue penetration, particularly in FD‐relevant organs.
format Online
Article
Text
id pubmed-8453552
institution National Center for Biotechnology Information
language English
publishDate 2021
publisher John Wiley and Sons Inc.
record_format MEDLINE/PubMed
spelling pubmed-84535522021-09-27 Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice Wu, Yi Shuan Khanna, Richie Schmith, Virginia Lun, Yi Shen, Jin‐Song Garcia, Anadina Dungan, Leo Perry, Anthony Martin, Lukas Tsai, Pai‐Chi Hamler, Rick Das, Anibh M. Schiffmann, Raphael Johnson, Franklin K. Clin Pharmacol Drug Dev Articles Approved therapies for Fabry disease (FD) include migalastat, an oral pharmacological chaperone, and agalsidase beta and agalsidase alfa, 2 forms of enzyme replacement therapy. Broad tissue distribution may be beneficial for clinical efficacy in FD, which has severe manifestations in multiple organs. Here, migalastat and agalsidase beta biodistribution were assessed in mice and modeled using physiologically based pharmacokinetic (PBPK) analysis, and migalastat biodistribution was subsequently extrapolated to humans. In mice, migalastat concentration was highest in kidneys and the small intestine, 2 FD‐relevant organs. Agalsidase beta was predominantly sequestered in the liver and spleen (organs unaffected in FD). PBPK modeling predicted that migalastat 123 mg every other day resulted in concentrations exceeding the in vitro half‐maximal effective concentration in kidneys, small intestine, skin, heart, and liver in human subjects. However, extrapolation of mouse agalsidase beta concentrations to humans was unsuccessful. In conclusion, migalastat may distribute to tissues that are inaccessible to intravenous agalsidase beta in mice, and extrapolation of mouse migalastat concentrations to humans showed adequate tissue penetration, particularly in FD‐relevant organs. John Wiley and Sons Inc. 2021-04-19 2021-09 /pmc/articles/PMC8453552/ /pubmed/33876577 http://dx.doi.org/10.1002/cpdd.941 Text en © 2021 Amicus Therapeutics Inc. Clinical Pharmacology in Drug Development published by Wiley Periodicals LLC on behalf of American College of Clinical Pharmacology https://creativecommons.org/licenses/by/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Articles
Wu, Yi Shuan
Khanna, Richie
Schmith, Virginia
Lun, Yi
Shen, Jin‐Song
Garcia, Anadina
Dungan, Leo
Perry, Anthony
Martin, Lukas
Tsai, Pai‐Chi
Hamler, Rick
Das, Anibh M.
Schiffmann, Raphael
Johnson, Franklin K.
Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title_full Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title_fullStr Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title_full_unstemmed Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title_short Migalastat Tissue Distribution: Extrapolation From Mice to Humans Using Pharmacokinetic Modeling and Comparison With Agalsidase Beta Tissue Distribution in Mice
title_sort migalastat tissue distribution: extrapolation from mice to humans using pharmacokinetic modeling and comparison with agalsidase beta tissue distribution in mice
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8453552/
https://www.ncbi.nlm.nih.gov/pubmed/33876577
http://dx.doi.org/10.1002/cpdd.941
work_keys_str_mv AT wuyishuan migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT khannarichie migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT schmithvirginia migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT lunyi migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT shenjinsong migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT garciaanadina migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT dunganleo migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT perryanthony migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT martinlukas migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT tsaipaichi migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT hamlerrick migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT dasanibhm migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT schiffmannraphael migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice
AT johnsonfranklink migalastattissuedistributionextrapolationfrommicetohumansusingpharmacokineticmodelingandcomparisonwithagalsidasebetatissuedistributioninmice