TY - JOUR A1 - Fernández-Rodríguez, Juana A1 - Quiles, Francisco A1 - Blanco, Ignacio A1 - Teulé, Alex A1 - Feliubadaló, Lídia A1 - del Valle, Jesús A1 - Salinas, Mónica A1 - Izquierdo, Ángel A1 - Darder, Esther A1 - Schindler, Detlev A1 - Capellá, Gabriel A1 - Brunet, Joan A1 - Lázaro, Conxi A1 - Angel Pujana, Miguel T1 - Analysis of SLX4/FANCP in non-BRCA1/2-mutated breast cancer families JF - BMC Cancer N2 - Background: Genes that, when mutated, cause Fanconi anemia or greatly increase breast cancer risk encode for proteins that converge on a homology-directed DNA damage repair process. Mutations in the SLX4 gene, which encodes for a scaffold protein involved in the repair of interstrand cross-links, have recently been identified in unclassified Fanconi anemia patients. A mutation analysis of SLX4 in German or Byelorussian familial cases of breast cancer without detected mutations in BRCA1 or BRCA2 has been completed, with globally negative results. Methods: The genomic region of SLX4, comprising all exons and exon-intron boundaries, was sequenced in 94 Spanish familial breast cancer cases that match a criterion indicating the potential presence of a highly-penetrant germline mutation, following exclusion of BRCA1 or BRCA2 mutations. Results: This mutational analysis revealed extensive genetic variation of SLX4, with 21 novel single nucleotide variants; however, none could be linked to a clear alteration of the protein function. Nonetheless, genotyping 10 variants (nine novel, all missense amino acid changes) in a set of controls (138 women and 146 men) did not detect seven of them. Conclusions: Overall, while the results of this study do not identify clearly pathogenic mutations of SLX4 contributing to breast cancer risk, further genetic analysis, combined with functional assays of the identified rare variants, may be warranted to conclusively assess the potential link with the disease. KW - SLX4 KW - Holliday junction reolvass KW - Fanconi-anemia subtype KW - susceptibility gene KW - helicase BRIP1 KW - ovarian cancer KW - DNA repair KW - mutations KW - protein KW - RAD51C Y1 - 2012 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-131772 VL - 12 IS - 84 ER - 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 -