Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.

LRRK2 gain-of-function is considered a major cause of Parkinson's disease (PD) in humans. However, pathogenicity of LRRK2 loss-of-function in animal models is controversial. Here we show that deletion of the entire zebrafish lrrk2 locus elicits a pleomorphic transient brain phenotype in materna...

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Autores principales: Stefano Suzzi, Reiner Ahrendt, Stefan Hans, Svetlana A Semenova, Avinash Chekuru, Paul Wirsching, Volker Kroehne, Saygın Bilican, Shady Sayed, Sylke Winkler, Sandra Spieß, Anja Machate, Jan Kaslin, Pertti Panula, Michael Brand
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Publicado: Public Library of Science (PLoS) 2021
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Acceso en línea:https://doaj.org/article/66a7d68b5aa74d34a2b220b852048894
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spelling oai:doaj.org-article:66a7d68b5aa74d34a2b220b8520488942021-12-02T20:03:20ZDeletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.1553-73901553-740410.1371/journal.pgen.1009794https://doaj.org/article/66a7d68b5aa74d34a2b220b8520488942021-09-01T00:00:00Zhttps://doi.org/10.1371/journal.pgen.1009794https://doaj.org/toc/1553-7390https://doaj.org/toc/1553-7404LRRK2 gain-of-function is considered a major cause of Parkinson's disease (PD) in humans. However, pathogenicity of LRRK2 loss-of-function in animal models is controversial. Here we show that deletion of the entire zebrafish lrrk2 locus elicits a pleomorphic transient brain phenotype in maternal-zygotic mutant embryos (mzLrrk2). In contrast to lrrk2, the paralog gene lrrk1 is virtually not expressed in the brain of both wild-type and mzLrrk2 fish at different developmental stages. Notably, we found reduced catecholaminergic neurons, the main target of PD, in specific cell populations in the brains of mzLrrk2 larvae, but not adult fish. Strikingly, age-dependent accumulation of monoamine oxidase (MAO)-dependent catabolic signatures within mzLrrk2 brains revealed a previously undescribed interaction between LRRK2 and MAO biological activities. Our results highlight mzLrrk2 zebrafish as a tractable tool to study LRRK2 loss-of-function in vivo, and suggest a link between LRRK2 and MAO, potentially of relevance in the prodromic stages of PD.Stefano SuzziReiner AhrendtStefan HansSvetlana A SemenovaAvinash ChekuruPaul WirschingVolker KroehneSaygın BilicanShady SayedSylke WinklerSandra SpießAnja MachateJan KaslinPertti PanulaMichael BrandPublic Library of Science (PLoS)articleGeneticsQH426-470ENPLoS Genetics, Vol 17, Iss 9, p e1009794 (2021)
institution DOAJ
collection DOAJ
language EN
topic Genetics
QH426-470
spellingShingle Genetics
QH426-470
Stefano Suzzi
Reiner Ahrendt
Stefan Hans
Svetlana A Semenova
Avinash Chekuru
Paul Wirsching
Volker Kroehne
Saygın Bilican
Shady Sayed
Sylke Winkler
Sandra Spieß
Anja Machate
Jan Kaslin
Pertti Panula
Michael Brand
Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
description LRRK2 gain-of-function is considered a major cause of Parkinson's disease (PD) in humans. However, pathogenicity of LRRK2 loss-of-function in animal models is controversial. Here we show that deletion of the entire zebrafish lrrk2 locus elicits a pleomorphic transient brain phenotype in maternal-zygotic mutant embryos (mzLrrk2). In contrast to lrrk2, the paralog gene lrrk1 is virtually not expressed in the brain of both wild-type and mzLrrk2 fish at different developmental stages. Notably, we found reduced catecholaminergic neurons, the main target of PD, in specific cell populations in the brains of mzLrrk2 larvae, but not adult fish. Strikingly, age-dependent accumulation of monoamine oxidase (MAO)-dependent catabolic signatures within mzLrrk2 brains revealed a previously undescribed interaction between LRRK2 and MAO biological activities. Our results highlight mzLrrk2 zebrafish as a tractable tool to study LRRK2 loss-of-function in vivo, and suggest a link between LRRK2 and MAO, potentially of relevance in the prodromic stages of PD.
format article
author Stefano Suzzi
Reiner Ahrendt
Stefan Hans
Svetlana A Semenova
Avinash Chekuru
Paul Wirsching
Volker Kroehne
Saygın Bilican
Shady Sayed
Sylke Winkler
Sandra Spieß
Anja Machate
Jan Kaslin
Pertti Panula
Michael Brand
author_facet Stefano Suzzi
Reiner Ahrendt
Stefan Hans
Svetlana A Semenova
Avinash Chekuru
Paul Wirsching
Volker Kroehne
Saygın Bilican
Shady Sayed
Sylke Winkler
Sandra Spieß
Anja Machate
Jan Kaslin
Pertti Panula
Michael Brand
author_sort Stefano Suzzi
title Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
title_short Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
title_full Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
title_fullStr Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
title_full_unstemmed Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
title_sort deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain.
publisher Public Library of Science (PLoS)
publishDate 2021
url https://doaj.org/article/66a7d68b5aa74d34a2b220b852048894
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