Abstract
Centrosomes are important organizers of microtubules within animal cells. They comprise a pair of centrioles surrounded by the pericentriolar material, which nucleates and organizes the microtubules. To maintain centrosome numbers, centrioles must duplicate once and only once per cell cycle. During S-phase, a single new 'daughter' centriole is built orthogonally on one side of each radially symmetric 'mother' centriole. Mis-regulation of duplication can result in the simultaneous formation of multiple daughter centrioles around a single mother centriole, leading to centrosome amplification, a hallmark of cancer. It remains unclear how a single duplication site is established. It also remains unknown whether this site is pre-defined or randomly positioned around the mother centriole. Here, we show that within Drosophila syncytial embryos daughter centrioles preferentially assemble on the side of the mother facing the nuclear envelope, to which the centrosomes are closely attached. This positional preference is established early during duplication and remains stable throughout daughter centriole assembly, but is lost in centrosomes forced to lose their connection to the nuclear envelope. This shows that non-centrosomal cues influence centriole duplication and raises the possibility that these external cues could help establish a single duplication site.
Highlights
Centrosomes are important microtubule organizing centres (MTOCs) within animal cells, best known for organizing the mitotic spindle poles during cell division [1]
We have shown that during the mitotic nuclear cycles in Drosophila syncytial embryos, daughter centrioles preferentially assemble on the side of their mother that faces the nuclear envelope
This preferential positioning is lost when centrosomes are detached from the nuclear envelope, raising the intriguing possibility that crosstalk between nuclearenvelope-related factors and the centriole duplication machinery may help instruct centriole duplication
Summary
Centrosomes are important microtubule organizing centres (MTOCs) within animal cells, best known for organizing the mitotic spindle poles during cell division [1]. They typically comprise an older ‘mother’ and younger ‘daughter’ pair of barrel-shaped microtubule-based centrioles. The mother centriole templates the assembly of the daughter centriole in a process called centriole duplication [4,5,6] This occurs after cell division, when each daughter inherits a single centrosome containing a disengaged mother–daughter centriole pair. The two centrosomes each organize one pole of the bipolar spindle and towards the end of mitosis the centrioles disengage in preparation for a new round of duplication in the following cell cycle
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