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Automated tracking of mitotic spindle pole positions shows that LGN is required for spindle rotation but not orientation maintenance
Authors:Adam M Corrigan  Roshan L Shrestha  Ihsan Zulkipli  Noriko Hiroi  Yingjun Liu  Naoka Tamura  Bing Yang  Jessica Patel  Akira Funahashi  Athene Donald  Viji M Draviam
Affiliation:1.Department of Genetics; University of Cambridge; Cambridge, UK;2.Cavendish Laboratory; University of Cambridge; Cambridge, UK;3.Department of Biosciences and Informatics; Keio University; Yokohama, Japan;4.Department of Material Sciences; University of Cambridge; Cambridge, UK
Abstract:Spindle orientation defines the plane of cell division and, thereby, the spatial position of all daughter cells. Here, we develop a live cell microscopy-based methodology to extract spindle movements in human epithelial cell lines and study how spindles are brought to a pre-defined orientation. We show that spindles undergo two distinct regimes of movements. Spindles are first actively rotated toward the cells’ long-axis and then maintained along this pre-defined axis. By quantifying spindle movements in cells depleted of LGN, we show that the first regime of rotational movements requires LGN that recruits cortical dynein. In contrast, the second regime of movements that maintains spindle orientation does not require LGN, but is sensitive to 2ME2 that suppresses microtubule dynamics. Our study sheds first insight into spatially defined spindle movement regimes in human cells, and supports the presence of LGN and dynein independent cortical anchors for astral microtubules.
Keywords:mitosis  spindle orientation  microtubule
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