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Human microcephaly ASPM protein is a spindle pole-focusing factor that functions redundantly with CDK5RAP2

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ABSTRACT Nonsense mutations in the ASPM gene have been most frequently identified among familial microcephaly patients. Depletion of the Drosophila orthologue (asp) causes spindle pole unfocusing during mitosis in multiple… Click to show full abstract

ABSTRACT Nonsense mutations in the ASPM gene have been most frequently identified among familial microcephaly patients. Depletion of the Drosophila orthologue (asp) causes spindle pole unfocusing during mitosis in multiple cell types. However, it remains unknown whether human ASPM has a similar function. Here, by performing CRISPR-based gene knockout (KO) and RNA interference combined with auxin-inducible degron, we show that ASPM functions in spindle pole organisation during mitotic metaphase redundantly with another microcephaly protein, CDK5RAP2 (also called CEP215), in human tissue culture cells. Deletion of the ASPM gene alone did not affect spindle morphology or mitotic progression. However, when the pericentriolar material protein CDK5RAP2 was depleted in ASPM KO cells, spindle poles were unfocused during prometaphase, and anaphase onset was significantly delayed. The phenotypic analysis of CDK5RAP2-depleted cells suggested that the pole-focusing function of CDK5RAP2 is independent of its known function to localise the kinesin-14 motor HSET (also known as KIFC1) or activate the γ-tubulin complex. Finally, a hypomorphic mutation identified in ASPM microcephaly patients similarly caused spindle pole unfocusing in the absence of CDK5RAP2, suggesting a possible link between spindle pole disorganisation and microcephaly. Summary: Mutations in the ASPM or CDK5RAP2 gene have been identified in familial microcephaly patients. We show that ASPM and CDK5RAP2 redundantly focus mitotic spindle poles in human tissue culture cells.

Keywords: protein; pole focusing; microcephaly; spindle pole; cdk5rap2; gene

Journal Title: Journal of Cell Science
Year Published: 2017

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