Literature DB >> 28860115

Afadin orients cell division to position the tubule lumen in developing renal tubules.

Lei Gao1, Zhufeng Yang1, Chitkale Hiremath1, Susan E Zimmerman1, Blake Long1, Paul R Brakeman2, Keith E Mostov3, David M Bryant4, Katherine Luby-Phelps5, Denise K Marciano6.   

Abstract

In many types of tubules, continuity of the lumen is paramount to tubular function, yet how tubules generate lumen continuity in vivo is not known. We recently found that the F-actin-binding protein afadin is required for lumen continuity in developing renal tubules, though its mechanism of action remains unknown. Here, we demonstrate that afadin is required for lumen continuity by orienting the mitotic spindle during cell division. Using an in vitro 3D cyst model, we find that afadin localizes to the cell cortex adjacent to the spindle poles and orients the mitotic spindle. In tubules, cell division may be oriented relative to two axes: longitudinal and apical-basal. Unexpectedly, in vivo examination of early-stage developing nephron tubules reveals that cell division is not oriented in the longitudinal (or planar-polarized) axis. However, cell division is oriented perpendicular to the apical-basal axis. Absence of afadin in vivo leads to misorientation of apical-basal cell division in nephron tubules. Together, these results support a model whereby afadin determines lumen placement by directing apical-basal spindle orientation, resulting in a continuous lumen and normal tubule morphogenesis.
© 2017. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  Afadin; Kidney development; Lumen; Mouse; Nephron; Polarity; Tubulogenesis

Mesh:

Substances:

Year:  2017        PMID: 28860115      PMCID: PMC5665479          DOI: 10.1242/dev.148908

Source DB:  PubMed          Journal:  Development        ISSN: 0950-1991            Impact factor:   6.868


  41 in total

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2.  Genome engineering using CRISPR-Cas9 system.

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Authors:  Kenji Mandai; Yoshiyuki Rikitake; Yohei Shimono; Yoshimi Takai
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5.  Luminal mitosis drives epithelial cell dispersal within the branching ureteric bud.

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Journal:  Dev Cell       Date:  2013-10-31       Impact factor: 12.270

6.  The Rap1-Rgl-Ral signaling network regulates neuroblast cortical polarity and spindle orientation.

Authors:  Ana Carmena; Aljona Makarova; Stephan Speicher
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7.  Orientation of spindle axis and distribution of plasma membrane proteins during cell division in polarized MDCKII cells.

Authors:  S Reinsch; E Karsenti
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8.  JAM-A associates with ZO-2, afadin, and PDZ-GEF1 to activate Rap2c and regulate epithelial barrier function.

Authors:  Ana C Monteiro; Ronen Sumagin; Carl R Rankin; Giovanna Leoni; Michael J Mina; Dirk M Reiter; Thilo Stehle; Terence S Dermody; Stacy A Schaefer; Randy A Hall; Asma Nusrat; Charles A Parkos
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  17 in total

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Review 2.  Division orientation: disentangling shape and mechanical forces.

Authors:  Tara M Finegan; Dan T Bergstralh
Journal:  Cell Cycle       Date:  2019-05-21       Impact factor: 4.534

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Journal:  Curr Opin Genet Dev       Date:  2021-12-17       Impact factor: 5.578

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5.  Spatial transcriptional mapping of the human nephrogenic program.

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Journal:  Dev Cell       Date:  2021-08-23       Impact factor: 13.417

Review 6.  Apical-basal polarity and the control of epithelial form and function.

Authors:  Clare E Buckley; Daniel St Johnston
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7.  Telophase correction refines division orientation in stratified epithelia.

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Review 8.  Adhesion GPCRs in Kidney Development and Disease.

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9.  mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division.

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10.  Cyto-nuclear shuttling of afadin is required for rapid estradiol-mediated modifications of histone H3.

Authors:  Katherine J Sellers; Iain A Watson; Rahel E Gresz; Pooja Raval; Deepak P Srivastava
Journal:  Neuropharmacology       Date:  2018-09-27       Impact factor: 5.250
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