Colloidal Particle-Induced Microstructural Transition in Cellulose/Ionic Liquid/Water Mixtures

During mammalian cerebral cortex development, the G1-phase of the cell cycle is known to lengthen, but it has been unclear which neural stem and progenitor cells are affected. In this paper, we develop a novel approach to determine cell-cycle parameters in specific classes of neural stem and progenitor cells, identified by molecular markers rather than location. We found that G1 lengthening was associated with the transition from stem cell-like apical progenitors to fate-restricted basal (intermediate) progenitors. Unexpectedly, expanding apical and basal progenitors exhibit a substantially longer S-phase than apical and basal progenitors committed to neuron production. Comparative genome-wide gene expression analysis of expanding versus committed progenitor cells revealed changes in key factors of cell-cycle regulation, DNA replication and repair and chromatin remodelling. Our findings suggest that expanding neural stem and progenitor cells invest more time during S-phase into quality control of replicated DNA than those committed to neuron production.

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Mutations in mouse Aspm (abnormal spindle-like microcephaly associated) cause not only microcephaly but also major defects in the germline

Pulvers

Bryk

Fish

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

185

187

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Mutations in ASPM (abnormal spindle-like microcephaly associated) cause primary microcephaly in humans, a disorder characterized by a major reduction in brain size in the apparent absence of nonneurological anomalies. The function of the Aspm protein in neural progenitor cell expansion, as well as its localization to the mitotic spindle and midbody, suggest that it regulates brain development by a cell division-related mechanism. Furthermore, evidence that positive selection affected ASPM during primate evolution has led to suggestions that such a function changed during primate evolution. Here, we report that in Aspm mutant mice, truncated Aspm proteins similar to those causing microcephaly in humans fail to localize to the midbody during M-phase and cause mild microcephaly. A human ASPM transgene rescues this phenotype but, interestingly, does not cause a gain of function. Strikingly, truncated Aspm proteins also cause a massive loss of germ cells, resulting in a severe reduction in testis and ovary size accompanied by reduced fertility. These germline effects, too, are fully rescued by the human ASPM transgene, indicating that ASPM is functionally similar in mice and humans. Our findings broaden the spectrum of phenotypic effects of ASPM mutations and raise the possibility that positive selection of ASPM during primate evolution reflects its function in the germline.evolution | cerebral cortex | fertility | neural stem cells | germ cells

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Pax6 is required for production and maintenance of progenitor cells in postnatal hippocampal neurogenesis

et al. 2005

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Neurogenesis is crucial for brain formation and continues to take place in certain regions of the postnatal brain including the subgranular zone (SGZ) of the hippocampal dentate gyrus (DG). Pax6 transcription factor is a key player for patterning the brain and promoting embryonic neurogenesis, and is also expressed in the SGZ. In the DG of wild-type rats, more than 90% of total BrdU-incorporated cells expressed Pax6 at 30 min time point after BrdU injection. Moreover, approximately 60% of Pax6 + cells in the SGZ exhibited as GFAP + cells with a radial glial phenotype and about 30% of Pax6 + cells exhibited as PSA-NCAM + cells in clusters. From BrdU labeling for 3 days, we found that cell proliferation was 30% decreased at postnatal stages in Pax6 -deficient rSey 2 /+ rat. BrdU pulse/chase experiments combined with marker staining revealed that PSA-NCAM + late progenitor cells increased at the expense of GFAP + early progenitors in rSey 2 /+ rat. Furthermore, expression of Wnt ligands in the SGZ was markedly reduced in rSey 2 /+ rat. Taken all together, an appropriate dosage of Pax6 is essential for production and maintenance of the GFAP + early progenitor cells in the postnatal hippocampal neurogenesis.

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Apoptosis Induced by Cadmium in Human Lymphoma U937 Cells through Ca2+-calpain and Caspase-Mitochondria- dependent Pathways

Li¹,

Kondo²,

Zhao³

et al. 2000

Journal of Biological Chemistry

223

135

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Role ofFabp7, a Downstream Gene of Pax6, in the Maintenance of Neuroepithelial Cells during Early Embryonic Development of the Rat Cortex

Arai¹,

Funatsu²,

et al. 2005

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Yoko Arai

Neural stem and progenitor cells shorten S-phase on commitment to neuron production

Mutations in mouse Aspm (abnormal spindle-like microcephaly associated) cause not only microcephaly but also major defects in the germline

Pax6 is required for production and maintenance of progenitor cells in postnatal hippocampal neurogenesis

Apoptosis Induced by Cadmium in Human Lymphoma U937 Cells through Ca2+-calpain and Caspase-Mitochondria- dependent Pathways

Role ofFabp7, a Downstream Gene of Pax6, in the Maintenance of Neuroepithelial Cells during Early Embryonic Development of the Rat Cortex

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