DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome

Organ function depends on tissues adopting the correct architecture. However, insights into organ architecture are currently hampered by an absence of standardized quantitative 3D analysis. We aimed to develop a robust technology to visualize, digitalize, and segment the architecture of two tubular...

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Autores principales: Hankeova, Simona, Salplachta, Jakub, Zikmund, Tomas, Kavkova, Michaela, Van Hul, Noémi, Brinek, Adam, Smekalova, Veronika, Laznovsky, Jakub, Dawit, Feven, Jaros, Josef, Bryja, Vítězslav, Lendahl, Urban, Ellis, Ewa, Nemeth, Antal, Fischler, Björn, Hannezo, Edouard, Kaiser, Jozef, Andersson, Emma Rachel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2021
Materias:
Physics of Living Systems
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7909953/
https://www.ncbi.nlm.nih.gov/pubmed/33635272
http://dx.doi.org/10.7554/eLife.60916
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author Hankeova, Simona
Salplachta, Jakub
Zikmund, Tomas
Kavkova, Michaela
Van Hul, Noémi
Brinek, Adam
Smekalova, Veronika
Laznovsky, Jakub
Dawit, Feven
Jaros, Josef
Bryja, Vítězslav
Lendahl, Urban
Ellis, Ewa
Nemeth, Antal
Fischler, Björn
Hannezo, Edouard
Kaiser, Jozef
Andersson, Emma Rachel
author_facet Hankeova, Simona
Salplachta, Jakub
Zikmund, Tomas
Kavkova, Michaela
Van Hul, Noémi
Brinek, Adam
Smekalova, Veronika
Laznovsky, Jakub
Dawit, Feven
Jaros, Josef
Bryja, Vítězslav
Lendahl, Urban
Ellis, Ewa
Nemeth, Antal
Fischler, Björn
Hannezo, Edouard
Kaiser, Jozef
Andersson, Emma Rachel
author_sort Hankeova, Simona
collection PubMed
description Organ function depends on tissues adopting the correct architecture. However, insights into organ architecture are currently hampered by an absence of standardized quantitative 3D analysis. We aimed to develop a robust technology to visualize, digitalize, and segment the architecture of two tubular systems in 3D: double resin casting micro computed tomography (DUCT). As proof of principle, we applied DUCT to a mouse model for Alagille syndrome (Jag1(Ndr/Ndr) mice), characterized by intrahepatic bile duct paucity, that can spontaneously generate a biliary system in adulthood. DUCT identified increased central biliary branching and peripheral bile duct tortuosity as two compensatory processes occurring in distinct regions of Jag1(Ndr/Ndr) liver, leading to full reconstitution of wild-type biliary volume and phenotypic recovery. DUCT is thus a powerful new technology for 3D analysis, which can reveal novel phenotypes and provide a standardized method of defining liver architecture in mouse models.
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spelling pubmed-79099532021-03-01 DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome Hankeova, Simona Salplachta, Jakub Zikmund, Tomas Kavkova, Michaela Van Hul, Noémi Brinek, Adam Smekalova, Veronika Laznovsky, Jakub Dawit, Feven Jaros, Josef Bryja, Vítězslav Lendahl, Urban Ellis, Ewa Nemeth, Antal Fischler, Björn Hannezo, Edouard Kaiser, Jozef Andersson, Emma Rachel eLife Physics of Living Systems Organ function depends on tissues adopting the correct architecture. However, insights into organ architecture are currently hampered by an absence of standardized quantitative 3D analysis. We aimed to develop a robust technology to visualize, digitalize, and segment the architecture of two tubular systems in 3D: double resin casting micro computed tomography (DUCT). As proof of principle, we applied DUCT to a mouse model for Alagille syndrome (Jag1(Ndr/Ndr) mice), characterized by intrahepatic bile duct paucity, that can spontaneously generate a biliary system in adulthood. DUCT identified increased central biliary branching and peripheral bile duct tortuosity as two compensatory processes occurring in distinct regions of Jag1(Ndr/Ndr) liver, leading to full reconstitution of wild-type biliary volume and phenotypic recovery. DUCT is thus a powerful new technology for 3D analysis, which can reveal novel phenotypes and provide a standardized method of defining liver architecture in mouse models. eLife Sciences Publications, Ltd 2021-02-26 /pmc/articles/PMC7909953/ /pubmed/33635272 http://dx.doi.org/10.7554/eLife.60916 Text en © 2021, Hankeova et al http://creativecommons.org/licenses/by/4.0/ http://creativecommons.org/licenses/by/4.0/This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Physics of Living Systems
Hankeova, Simona
Salplachta, Jakub
Zikmund, Tomas
Kavkova, Michaela
Van Hul, Noémi
Brinek, Adam
Smekalova, Veronika
Laznovsky, Jakub
Dawit, Feven
Jaros, Josef
Bryja, Vítězslav
Lendahl, Urban
Ellis, Ewa
Nemeth, Antal
Fischler, Björn
Hannezo, Edouard
Kaiser, Jozef
Andersson, Emma Rachel
DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title_full DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title_fullStr DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title_full_unstemmed DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title_short DUCT reveals architectural mechanisms contributing to bile duct recovery in a mouse model for Alagille syndrome
title_sort duct reveals architectural mechanisms contributing to bile duct recovery in a mouse model for alagille syndrome
topic Physics of Living Systems
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7909953/
https://www.ncbi.nlm.nih.gov/pubmed/33635272
http://dx.doi.org/10.7554/eLife.60916
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