TY - JOUR A1 - Farag, Heba Gamal A1 - Froehler, Sebastian A1 - Oexle, Konrad A1 - Ravindran, Ethiraj A1 - Schindler, Detlev A1 - Staab, Timo A1 - Huebner, Angela A1 - Kraemer, Nadine A1 - Chen, Wei A1 - Kaindl, Angela M. T1 - Abnormal centrosome and spindle morphology in a patient with autosomal recessive primary microcephaly type 2 due to compound heterozygous WDR62 gene mutation JF - Orphanet Journal of Rare Diseases N2 - Background: Autosomal recessive primary microcephaly (MCPH) is a rare neurodevelopmental disease with severe microcephaly at birth due to a pronounced reduction in brain volume and intellectual disability. Biallelic mutations in the WD repeat-containing protein 62 gene WDR62 are the genetic cause of MCPH2. However, the exact underlying pathomechanism of MCPH2 remains to be clarified. Methods/results: We characterized the clinical, radiological, and cellular features that add to the human MCPH2 phenotype. Exome sequencing followed by Sanger sequencing in a German family with two affected daughters with primary microcephaly revealed in the index patient the compound heterozygous mutations c. 1313G>A (p.R438H) / c.2864-2867delACAG (p.D955Afs*112) of WDR62, the second of which is novel. Radiological examination displayed small frontal lobes, corpus callosum hypoplasia, simplified hippocampal gyration, and cerebellar hypoplasia. We investigated the cellular phenotype in patient-derived lymphoblastoid cells and compared it with that of healthy female controls. WDR62 expression in the patient's immortalized lymphocytes was deranged, and mitotic spindle defects as well as abnormal centrosomal protein localization were apparent. Conclusion: We propose that a disruption of centrosome integrity and/or spindle organization may play an important role in the development of microcephaly in MCPH2. KW - cell division KW - intellectual disability KW - missense mutations KW - protein KW - malformations KW - establishment KW - cytokinesis KW - genome KW - midbody KW - database KW - maintenance KW - families KW - microcephaly KW - WDR62 mutation Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-123505 SN - 1750-1172 VL - 8 IS - 178 ER - TY - JOUR A1 - Gaubatz, Stefan A1 - Esterlechner, Jasmina A1 - Reichert, Nina A1 - Iltzsche, Fabian A1 - Krause, Michael A1 - Finkernagel, Florian T1 - LIN9, a Subunit of the DREAM Complex, Regulates Mitotic Gene Expression and Proliferation of Embryonic Stem Cells JF - PLoS ONE N2 - The DREAM complex plays an important role in regulation of gene expression during the cell cycle. We have previously shown that the DREAM subunit LIN9 is required for early embryonic development and for the maintenance of the inner cell mass in vitro. In this study we examined the effect of knocking down LIN9 on ESCs. We demonstrate that depletion of LIN9 alters the cell cycle distribution of ESCs and results in an accumulation of cells in G2 and M and in an increase of polyploid cells. Genome-wide expression studies showed that the depletion of LIN9 results in downregulation of mitotic genes and in upregulation of differentiation-specific genes. ChIP-on chip experiments showed that mitotic genes are direct targets of LIN9 while lineage specific markers are regulated indirectly. Importantly, depletion of LIN9 does not alter the expression of pluripotency markers SOX2, OCT4 and Nanog and LIN9 depleted ESCs retain alkaline phosphatase activity. We conclude that LIN9 is essential for proliferation and genome stability of ESCs by activating genes with important functions in mitosis and cytokinesis. KW - cell cycle KW - cell division KW - cell differentation KW - DNA-binding proteins KW - gene expression KW - gene regulation KW - gene targeting KW - microarrays KW - pluripotency Y1 - 2013 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-96922 ER -