Luminal Mitosis Drives Epithelial Cell Dispersal within the Branching Ureteric Bud

Luminal Mitosis Drives Epithelial Cell Dispersal within the Branching Ureteric Bud

The ureteric bud is an epithelial tube that undergoes branching morphogenesis to form the renal collecting system. Although development of a normal kidney depends on proper ureteric bud morphogenesis, the cellular events underlying this process remain obscure. Here, we used time-lapse microscopy tog...

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Bibliographic Details
Published in:Developmental cell Vol. 27; no. 3; pp. 319 - 330
Main Authors: Packard, Adam, Georgas, Kylie, Michos, Odyssé, Riccio, Paul, Cebrian, Cristina, Combes, Alexander N., Ju, Adler, Ferrer-Vaquer, Anna, Hadjantonakis, Anna-Katerina, Zong, Hui, Little, Melissa H., Costantini, Frank
Format: Journal Article
Language:English
Published: United States Elsevier Inc 11-11-2013
Subjects:
Animals
Cell Movement
Epithelial Cells - cytology
Epithelial Cells - metabolism
Fluorescent Antibody Technique
Homeodomain Proteins - physiology
Kidney - cytology
Kidney - metabolism
Mice
Mice, Knockout
Mitosis - physiology
Morphogenesis
Ureter - cytology
Ureter - metabolism
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Summary:The ureteric bud is an epithelial tube that undergoes branching morphogenesis to form the renal collecting system. Although development of a normal kidney depends on proper ureteric bud morphogenesis, the cellular events underlying this process remain obscure. Here, we used time-lapse microscopy together with several genetic labeling methods to observe ureteric bud cell behaviors in developing mouse kidneys. We observed an unexpected cell behavior in the branching tips of the ureteric bud, which we term “mitosis-associated cell dispersal.” Premitotic ureteric tip cells delaminate from the epithelium and divide within the lumen; although one daughter cell retains a basal process, allowing it to reinsert into the epithelium at the site of origin, the other daughter cell reinserts at a position one to three cell diameters away. Given the high rate of cell division in ureteric tips, this cellular behavior causes extensive epithelial cell rearrangements that may contribute to renal branching morphogenesis. [Display omitted] •Most premitotic ureteric bud tip cells delaminate into the lumen before dividing•One daughter cell inherits a thin basal process and reinserts at the original site•The other daughter cell reinserts into the epithelium at a noncontiguous site•This form of cell movement results in extensive epithelial cell rearrangements Packard et al. use live imaging of genetically labeled individual cells in developing mouse kidneys to reveal an asymmetric mode of mitosis-coupled epithelial cell movement: dividing cells delaminate into the lumen and, although one daughter cell remains tethered to its original location, the other reinserts into the epithelium elsewhere.
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Current Address: Sanger Institute, Wellcome Trust Genome Campus, Hinxton, Cambridgeshire, CB10 1HH, UK
ISSN:1534-5807
1878-1551
DOI:10.1016/j.devcel.2013.09.001