2024
DOI: 10.1101/2024.01.30.578046
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Hepatoblast iterative apicobasal polarization is regulated by extracellular matrix remodeling

Julien Delpierre,
José Ignacio Valenzuela,
Matthew Bovyn
et al.

Abstract: Hepatocytes have a unique multiaxial polarity with several apical and basal surfaces. The prevailing model for the emergence of this multipolarity and the coordination of lumen formation between adjacent hepatocytes is based on asymmetric cell division. Here, investigating polarity generation in liver cell progenitors, the hepatoblasts, during liver development in vivo and in vitro, we found that this model cannot explain the observed dynamics of apical lumen formation in the embryonic liver. Instead, we ident… Show more

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Cited by 2 publications
(3 citation statements)
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“…This symmetry breaking could indeed result from pre-existing mechanical asymmetries of the biological system, or asymmetries caused by biological signalling during lumenogenesis. In the early, spherical stage of a forming bile canaliculus [ 35 ], the junction belt constitutes an example of such a mechanical asymmetry [ 21 ], but it remains unknown whether and how this asymmetry is coupled to the sphere-to-tube transition of the bile canaliculus. Moreover, as noted above, during the later extension of tubular bile canaliculi, anisotropic mechanics help to guide the bile canaliculi via anisotropic tension [ 18 ] and support them via apical bulkheads [ 21 , 29 ].…”
Section: Mechanics Of Non-spherical Luminamentioning
confidence: 99%
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“…This symmetry breaking could indeed result from pre-existing mechanical asymmetries of the biological system, or asymmetries caused by biological signalling during lumenogenesis. In the early, spherical stage of a forming bile canaliculus [ 35 ], the junction belt constitutes an example of such a mechanical asymmetry [ 21 ], but it remains unknown whether and how this asymmetry is coupled to the sphere-to-tube transition of the bile canaliculus. Moreover, as noted above, during the later extension of tubular bile canaliculi, anisotropic mechanics help to guide the bile canaliculi via anisotropic tension [ 18 ] and support them via apical bulkheads [ 21 , 29 ].…”
Section: Mechanics Of Non-spherical Luminamentioning
confidence: 99%
“…Hepatocytes from mice and rats also form pressurised lumina in culture [ 21 , 32 , 33 ]. In vivo , these structures extend and connect to form the bile canaliculi network [ 34 , 35 ], which transports bile from the hepatocytes that produce it to the bile ducts which eventually drain the bile into the intestine. As in MDCK cysts, the apical surfaces of hepatocytes face the lumen [ 36 ].…”
Section: Introductionmentioning
confidence: 99%
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