2011
DOI: 10.1016/j.ajhg.2011.04.003
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Human Mutations in NDE1 Cause Extreme Microcephaly with Lissencephaly

Abstract: Genes disrupted in human microcephaly (meaning "small brain") define key regulators of neural progenitor proliferation and cell-fate specification. In comparison, genes mutated in human lissencephaly (lissos means smooth and cephalos means brain) highlight critical regulators of neuronal migration. Here, we report two families with extreme microcephaly and grossly simplified cortical gyral structure, a condition referred to as microlissencephaly, and show that they carry homozygous frameshift mutations in NDE1… Show more

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Cited by 210 publications
(221 citation statements)
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“…The treatments specifically caused retarded cilia disassembly, long cilia, premature differentiation of NPCs, accompanied by reduced cell cycle progression, suggesting that mutations in these genes might underlie NPC depletion resulting in microcephaly (Fig 5A–D). A mutation in Nde‐1 causes microcephaly for which the underlying mechanism remains unclear (Alkuraya et al , 2011). Together, these data suggest that cilia disassembly, cell cycle progression, and neuronal differentiation are causally related to each other.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…The treatments specifically caused retarded cilia disassembly, long cilia, premature differentiation of NPCs, accompanied by reduced cell cycle progression, suggesting that mutations in these genes might underlie NPC depletion resulting in microcephaly (Fig 5A–D). A mutation in Nde‐1 causes microcephaly for which the underlying mechanism remains unclear (Alkuraya et al , 2011). Together, these data suggest that cilia disassembly, cell cycle progression, and neuronal differentiation are causally related to each other.…”
Section: Resultsmentioning
confidence: 99%
“…Recent studies have uncovered that the proper timing of cilium disassembly mediated by Nde‐1 and TcTex‐1 is critically regulated during cell cycle (Kim et al , 2011; Li et al , 2011; Maskey et al , 2015). Interestingly, mutations in Nde‐1 and microtubule and kinetochore components causing microcephaly and ciliary defects highlight a possible role for the cilium in regulating NPCs to control the number of neurons generated during brain development (Alkuraya et al , 2011; Hu et al , 2014; Waters et al , 2015). However, the biological significance of these spatiotemporally interlinked processes namely cilium disassembly, cell cycle re‐entry and neural progenitor cells (NPCs) differentiation, and the molecular mechanisms linking these cellular events together remain unclear.…”
Section: Introductionmentioning
confidence: 99%
“…In mouse models, ASPM has been shown to be involved in maintaining symmetric divisions of RG cells and in completing cytokinesis (Kouprina et al, 2005;Higgins et al, 2010). Mutation in Nde1, a centrosomal gene, is the cause of a disease called microlissencephaly, which is characterized by extreme microcephaly and grossly simplified cortical gyral structure (Alkuraya et al, 2011). In mice with Nde1 knocking out, RG cells exhibit dramatic defects in mitotic progression, orientation, and chromosome localization, as well as neuronal cell fate determination.…”
Section: Rg Cells and Neurodevelopmental Diseases Autosomal Recessivementioning
confidence: 99%
“…Microdeletions encompassing the human NDE1 gene have been to be one of the risk factors for microcephaly, mental retardation, and epilepsy (Hannes et al 2009). Furthermore, mutations in NDE1 result in extreme microcephaly and grossly simplified cortical gyral structure, a condition referred to as microlissencephaly (Alkuraya et al 2011;Bakircioglu et al 2011). Mutated NDE1 proteins were found to be unstable, incapable of binding cytoplasmic dynein, and did not localize properly to the centrosome.…”
Section: Microcephaly In Humans-diseases Of Interkinetic Nuclear Movementioning
confidence: 99%
“…In humans, mutations in NDE1 result in severe microcephaly (Alkuraya et al 2011;Bakircioglu et al 2011). Double knockout of Nde1 and Lis1 resulted in a marked reduction in brain size (80% decrease).…”
Section: Molecular Motors and The Cytoskeletonmentioning
confidence: 99%