Author
Listed:
- Kagayaki Kato
(Laboratory for Morphogenetic Signaling, RIKEN Center for Developmental Biology
Present address: Department of Imaging Science, Center for Novel Science Initiatives, National Institutes of Natural Sciences, Myodaiji-Cho, Okazaki, Aichi 444-8787, Japan)
- Bo Dong
(Laboratory for Morphogenetic Signaling, RIKEN Center for Developmental Biology
Present address: College of Marine Life Sciences, Ocean University of China, No. 5 Yushan Road, Qingdao 266003, China)
- Housei Wada
(Laboratory for Morphogenetic Signaling, RIKEN Center for Developmental Biology)
- Miho Tanaka-Matakatsu
(Feinberg School of Medicine, Northwestern University)
- Yoshimasa Yagi
(Graduate School of Science, Nagoya University)
- Shigeo Hayashi
(Laboratory for Morphogenetic Signaling, RIKEN Center for Developmental Biology
Kobe University Graduate School of Science)
Abstract
Connection of tubules into larger networks is the key process for the development of circulatory systems. In Drosophila development, tip cells of the tracheal system lead the migration of each branch and connect tubules by adhering to each other and simultaneously changing into a torus-shape. We show that as adhesion sites form between fusion cells, myosin and microtubules form polarized bundles that connect the new adhesion site to the cells’ microtubule-organizing centres, and that E-cadherin and retrograde recycling endosomes are preferentially deposited at the new adhesion site. We demonstrate that microtubules help balancing tip cell contraction, which is driven by myosin, and is required for adhesion and tube fusion. We also show that retrograde recycling and directed secretion of a specific matrix protein into the fusion-cell interface promote fusion. We propose that microtubule bundles connecting these cell–cell interfaces coordinate cell contractility and apical secretion to facilitate tube fusion.
Suggested Citation
Kagayaki Kato & Bo Dong & Housei Wada & Miho Tanaka-Matakatsu & Yoshimasa Yagi & Shigeo Hayashi, 2016.
"Microtubule-dependent balanced cell contraction and luminal-matrix modification accelerate epithelial tube fusion,"
Nature Communications, Nature, vol. 7(1), pages 1-11, September.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11141
DOI: 10.1038/ncomms11141
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