The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans

BACKGROUND: We know very little about the genetic factors affecting susceptibility to drug-induced central nervous system (CNS) toxicities, and this has limited our ability to optimally utilize existing drugs or to develop new drugs for CNS disorders. For example, haloperidol is a potent dopamine an...

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Autores principales: Zheng, Ming, Zhang, Haili, Dill, David L., Clark, J. David, Tu, Susan, Yablonovitch, Arielle L., Tan, Meng How, Zhang, Rui, Rujescu, Dan, Wu, Manhong, Tessarollo, Lino, Vieira, Wilfred, Gottesman, Michael M., Deng, Suhua, Eberlin, Livia S., Zare, Richard N., Billard, Jean-Martin, Gillet, Jean-Pierre, Li, Jin Billy, Peltz, Gary
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4315575/
https://www.ncbi.nlm.nih.gov/pubmed/25647612
http://dx.doi.org/10.1371/journal.pmed.1001782
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author Zheng, Ming
Zhang, Haili
Dill, David L.
Clark, J. David
Tu, Susan
Yablonovitch, Arielle L.
Tan, Meng How
Zhang, Rui
Rujescu, Dan
Wu, Manhong
Tessarollo, Lino
Vieira, Wilfred
Gottesman, Michael M.
Deng, Suhua
Eberlin, Livia S.
Zare, Richard N.
Billard, Jean-Martin
Gillet, Jean-Pierre
Li, Jin Billy
Peltz, Gary
author_facet Zheng, Ming
Zhang, Haili
Dill, David L.
Clark, J. David
Tu, Susan
Yablonovitch, Arielle L.
Tan, Meng How
Zhang, Rui
Rujescu, Dan
Wu, Manhong
Tessarollo, Lino
Vieira, Wilfred
Gottesman, Michael M.
Deng, Suhua
Eberlin, Livia S.
Zare, Richard N.
Billard, Jean-Martin
Gillet, Jean-Pierre
Li, Jin Billy
Peltz, Gary
author_sort Zheng, Ming
collection PubMed
description BACKGROUND: We know very little about the genetic factors affecting susceptibility to drug-induced central nervous system (CNS) toxicities, and this has limited our ability to optimally utilize existing drugs or to develop new drugs for CNS disorders. For example, haloperidol is a potent dopamine antagonist that is used to treat psychotic disorders, but 50% of treated patients develop characteristic extrapyramidal symptoms caused by haloperidol-induced toxicity (HIT), which limits its clinical utility. We do not have any information about the genetic factors affecting this drug-induced toxicity. HIT in humans is directly mirrored in a murine genetic model, where inbred mouse strains are differentially susceptible to HIT. Therefore, we genetically analyzed this murine model and performed a translational human genetic association study. METHODS AND FINDINGS: A whole genome SNP database and computational genetic mapping were used to analyze the murine genetic model of HIT. Guided by the mouse genetic analysis, we demonstrate that genetic variation within an ABC-drug efflux transporter (Abcb5) affected susceptibility to HIT. In situ hybridization results reveal that Abcb5 is expressed in brain capillaries, and by cerebellar Purkinje cells. We also analyzed chromosome substitution strains, imaged haloperidol abundance in brain tissue sections and directly measured haloperidol (and its metabolite) levels in brain, and characterized Abcb5 knockout mice. Our results demonstrate that Abcb5 is part of the blood-brain barrier; it affects susceptibility to HIT by altering the brain concentration of haloperidol. Moreover, a genetic association study in a haloperidol-treated human cohort indicates that human ABCB5 alleles had a time-dependent effect on susceptibility to individual and combined measures of HIT. Abcb5 alleles are pharmacogenetic factors that affect susceptibility to HIT, but it is likely that additional pharmacogenetic susceptibility factors will be discovered. CONCLUSIONS: ABCB5 alleles alter susceptibility to HIT in mouse and humans. This discovery leads to a new model that (at least in part) explains inter-individual differences in susceptibility to a drug-induced CNS toxicity.
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spelling pubmed-43155752015-02-13 The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans Zheng, Ming Zhang, Haili Dill, David L. Clark, J. David Tu, Susan Yablonovitch, Arielle L. Tan, Meng How Zhang, Rui Rujescu, Dan Wu, Manhong Tessarollo, Lino Vieira, Wilfred Gottesman, Michael M. Deng, Suhua Eberlin, Livia S. Zare, Richard N. Billard, Jean-Martin Gillet, Jean-Pierre Li, Jin Billy Peltz, Gary PLoS Med Research Article BACKGROUND: We know very little about the genetic factors affecting susceptibility to drug-induced central nervous system (CNS) toxicities, and this has limited our ability to optimally utilize existing drugs or to develop new drugs for CNS disorders. For example, haloperidol is a potent dopamine antagonist that is used to treat psychotic disorders, but 50% of treated patients develop characteristic extrapyramidal symptoms caused by haloperidol-induced toxicity (HIT), which limits its clinical utility. We do not have any information about the genetic factors affecting this drug-induced toxicity. HIT in humans is directly mirrored in a murine genetic model, where inbred mouse strains are differentially susceptible to HIT. Therefore, we genetically analyzed this murine model and performed a translational human genetic association study. METHODS AND FINDINGS: A whole genome SNP database and computational genetic mapping were used to analyze the murine genetic model of HIT. Guided by the mouse genetic analysis, we demonstrate that genetic variation within an ABC-drug efflux transporter (Abcb5) affected susceptibility to HIT. In situ hybridization results reveal that Abcb5 is expressed in brain capillaries, and by cerebellar Purkinje cells. We also analyzed chromosome substitution strains, imaged haloperidol abundance in brain tissue sections and directly measured haloperidol (and its metabolite) levels in brain, and characterized Abcb5 knockout mice. Our results demonstrate that Abcb5 is part of the blood-brain barrier; it affects susceptibility to HIT by altering the brain concentration of haloperidol. Moreover, a genetic association study in a haloperidol-treated human cohort indicates that human ABCB5 alleles had a time-dependent effect on susceptibility to individual and combined measures of HIT. Abcb5 alleles are pharmacogenetic factors that affect susceptibility to HIT, but it is likely that additional pharmacogenetic susceptibility factors will be discovered. CONCLUSIONS: ABCB5 alleles alter susceptibility to HIT in mouse and humans. This discovery leads to a new model that (at least in part) explains inter-individual differences in susceptibility to a drug-induced CNS toxicity. Public Library of Science 2015-02-03 /pmc/articles/PMC4315575/ /pubmed/25647612 http://dx.doi.org/10.1371/journal.pmed.1001782 Text en © 2015 Zheng 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
Zheng, Ming
Zhang, Haili
Dill, David L.
Clark, J. David
Tu, Susan
Yablonovitch, Arielle L.
Tan, Meng How
Zhang, Rui
Rujescu, Dan
Wu, Manhong
Tessarollo, Lino
Vieira, Wilfred
Gottesman, Michael M.
Deng, Suhua
Eberlin, Livia S.
Zare, Richard N.
Billard, Jean-Martin
Gillet, Jean-Pierre
Li, Jin Billy
Peltz, Gary
The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title_full The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title_fullStr The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title_full_unstemmed The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title_short The Role of Abcb5 Alleles in Susceptibility to Haloperidol-Induced Toxicity in Mice and Humans
title_sort role of abcb5 alleles in susceptibility to haloperidol-induced toxicity in mice and humans
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4315575/
https://www.ncbi.nlm.nih.gov/pubmed/25647612
http://dx.doi.org/10.1371/journal.pmed.1001782
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