Bi-Allelic UQCRFS1 Variants Are Associated with Mitochondrial Complex III Deficiency, Cardiomyopathy, and Alopecia Totalis.

Isolated complex III (CIII) deficiencies are among the least frequently diagnosed mitochondrial disorders. Clinical symptoms range from isolated myopathy to severe multi-systemic disorders with early death and disability. To date, we know of pathogenic variants in genes encoding five out of 10 subunits and five out of 13 assembly factors of CIII. Here we describe rare bi-allelic variants in the gene of a catalytic subunit of CIII, UQCRFS1, which encodes the Rieske iron-sulfur protein, in two unrelated individuals. Affected children presented with low CIII activity in fibroblasts, lactic acidosis, fetal bradycardia, hypertrophic cardiomyopathy, and alopecia totalis. Studies in proband-derived fibroblasts showed a deleterious effect of the variants on UQCRFS1 protein abundance, mitochondrial import, CIII assembly, and cellular respiration. Complementation studies via lentiviral transduction and overexpression of wild-type UQCRFS1 restored mitochondrial function and rescued the cellular phenotype, confirming UQCRFS1 variants as causative for CIII deficiency. We demonstrate that mutations in UQCRFS1 can cause mitochondrial disease, and our results thereby expand the clinical and mutational spectrum of CIII deficiencies.

The identification of pathogenic variants in BRCA1/2 negative, high risk, hereditary breast and/or ovarian cancer patients: High frequency of FANCM pathogenic variants.

NGS-based multiple gene panel resequencing in combination with a high resolution CGH-array was used to identify genetic risk factors for hereditary breast and/or ovarian cancer in 237 high risk patients who were previously tested negative for pathogenic BRCA1/2 variants. All patients were screened for pathogenic variants in 94 different cancer predisposing genes. We identified 32 pathogenic variants in 14 different genes (ATM, BLM, BRCA1, CDH1, CHEK2, FANCG, FANCM, FH, HRAS, PALB2, PMS2, PTEN, RAD51C and NBN) in 30 patients (12.7%). Two pathogenic BRCA1 variants that were previously undetected due to less comprehensive and sensitive methods were found. Five pathogenic variants are novel, three of which occur in genes yet unrelated to hereditary breast and/or ovarian cancer (FANCG, FH and HRAS). In our cohort we discovered a remarkably high frequency of truncating variants in FANCM (2.1%), which has recently been suggested as a susceptibility gene for hereditary breast cancer. Two patients of our cohort carried two different pathogenic variants each and 10 other patients in whom a pathogenic variant was confirmed also harbored a variant of unknown significance in a breast and ovarian cancer susceptibility gene. We were able to identify pathogenic variants predisposing for tumor formation in 12.3% of BRCA1/2 negative breast and/or ovarian cancer patients.

A tandem duplication of BRCA1 exons 1-19 through DHX8 exon 2 in four families with hereditary breast and ovarian cancer syndrome.

PURPOSE: The purpose of this study is to characterize a novel structural variant, a large duplication involving exons 1-19 of the BRCA1 gene in four independent families, and to provide diagnostically valuable information including the position of the breakpoints as well as clues to its clinical significance. METHODS: The duplication of exons 1-19 of the BRCA1 gene was initially detected by routine laboratory testing including MLPA analysis and next generation sequencing. For detailed characterization we performed array-comparative genome hybridization analysis, fluorescent in situ hybridization, next generation mapping, and long-distance PCR for break-point sequencing. RESULTS: Our data revealed a tandem duplication on chromosome 17 that encompassed 357 kb and included exons 1-19 of the BRCA1 gene and the genes NBR2, NBR1, TMEM106A, LOC100130581, ARL4D, MIR2117 up to parts of the DHX8 gene. This structural variant appeared as a tandem duplication with breakpoints in intron 19 of the BRCA1 gene and in intron 3 of the DHX8 gene (HGVS:chr17(hg19):g.41210776_41568516dup). Segregation analysis indicated that this structural rearrangement is phased in trans with a known pathogenic exon deletion of the BRCA1 gene in one family. CONCLUSIONS: The copy number variation initially recognized as duplication of exon 1-19 of the BRCA1 gene by MLPA analysis is a structural variation with breakpoints in the BRCA1 and DHX8 genes. Although currently to be classified as a variant of unknown significance, our family data indicates that this duplication may be a benign variation or at least of markedly reduced penetrance since it occurs in trans with another known fully pathogenic variant in the BRCA1 gene.

12q14 microdeletion syndrome: A family with short stature and Silver-Russell syndrome (SRS)-like phenotype and review of the literature.

We report here on the first family with short stature and Silver-Russell-like phenotype due to a microdeletion in 12q14.3. The Netchine-Harbison clinical scoring system was used for the clinical diagnosis of Silver-Russell syndrome (SRS). The three affected first-degree relatives (index patient, mother and brother) presented with prenatal and postnatal growth retardation, feeding difficulties, a prominent forehead and a failure to thrive, but did not show relative macrocephaly. In addition, our index patient showed dysmorphic facial features, periodically increased sweating, and scoliosis. Learning problems and cardiac arrhythmia presented as additional features of her brother. Using high-resolution array-CGH, heterozygosity for a 1.67 Mb deletion in 12q14.3 was detected in the index patient. The heterozygous loss was confirmed by MLPA in the index patient and the other two affected family members. The deletion includes the genes HMGA2, LLPH, TMBIM4, IRAK3, HELB, GRIP1, and the pseudogene RPSAP52. We conclude from these results and from the data of other patients reported in the literature that haploinsufficiency of HMGA2 leads to the short stature in this family.

NCAM2 deletion in a boy with macrocephaly and autism: Cause, association or predisposition?

UNLABELLED: We report on an 8-year-old boy with autism spectrum disorder (ASD), speech delay, behavioural problems, disturbed sleep and macrosomia including macrocephaly carrying a microdeletion that contains the entire NCAM2 gene and no other functional genes. Other family members with the microdeletion show a large skull circumference but do not exhibit any symptoms of autism spectrum disorder. Among many ASD-candidate genes, NCAM2 has been assumed to play a pivotal role in the development of ASD because of its function in the outgrowth and bundling of neurites. Our reported case raises the questions whether the NCAM2-deletion is the true cause of the ASD or only a risk factor and whether there might be any connection in NCAM2 with skull-size KEY WORDS: autism spectrum disorder, macrocephaly, neural cell adhesion molecule 2 protein (NCAM2), array comparative genomic hybridization (microarray).

Efeito anticárie do flúor associado ao trimetafosfato de sódio / Anticaries effect of fluoride associated with sodium trimetaphosphate

Objetivo: Estudar o efeito anticárie da adição de trimetafosfato de sódio (TMP) aos compostos fluoretados (dentifrícios, vernizes e soluções) para prevenção e tratamento de lesões de cárie através de uma revisão de literatura. Materiais e Métodos: Foram selecionados artigos de pesquisa e revisões sistemáticas da literatura mais relevantes sobre o assunto publicados na língua inglesa, desde 1968 até 2015, pesquisados no PubMed. As palavras-chave utilizadas foram: trimetafosfato de sódio, cárie dentária e fluoretos.Resultados: Foram apresentados os principais resultados de trabalhos de pesquisa sobre o TMP quando associado aos dentifrícios, vernizes e soluções para bochechos e estudos clínicos longitudinais. Conclusão: Os estudos in vitro e in situ mostram que o trimetafosfato de sódio pode potencializar a eficácia do flúor na prevenção e tratamento da cárie dentária, porém ainda faltam estudos para entender o mecanismo de ação do TMP, além de estudos clínicos para comprovar sua eficácia e indicação.

Objective: The aim of this work was to study the anticaries effect of adding sodium trimeta phosphate (TMP) to fluoride compounds (tooth pastes, varnishes and mouthrinse)for prevention and treatment of caries lesions with a review of the literature. Materials and Methods: The most relevant research articles and systematic reviews on the subject published in English, were selected from 1968 to 2015, browsed on Pubmed. The key words used were: sodium trimetaphosphate, dental caries and fluorides. Results: Themain results of research articles on the TMP associated with dentifrices, varnishes and mouthrinses and longitudinal clinical studies were presented. Conclusion: In situ and in vitro studies have shown that TMP might increase the effectiveness of fluoride in the prevention and treatment of caries, but there are few studies that explain its mechanism of action, as well as clinical studies to demonstrate its anticaries effect and indication.

Prevalence of BRCA1/2 germline mutations in 21†401 families with breast and ovarian cancer.

PURPOSE: To characterise the prevalence of pathogenic germline mutations in BRCA1 and BRCA2 in families with breast cancer (BC) and ovarian cancer (OC) history. PATIENTS AND METHODS: Data from 21 401 families were gathered between 1996 and 2014 in a clinical setting in the German Consortium for Hereditary Breast and Ovarian Cancer, comprising full pedigrees with cancer status of all individual members at the time of first counselling, and BRCA1/2 mutation status of the index patient. RESULTS: The overall BRCA1/2 mutation prevalence was 24.0% (95% CI 23.4% to 24.6%). Highest mutation frequencies were observed in families with at least two OCs (41.9%, 95% CI 36.1% to 48.0%) and families with at least one breast and one OC (41.6%, 95% CI 40.3% to 43.0%), followed by male BC with at least one female BC or OC (35.8%; 95% CI 32.2% to 39.6%). In families with a single case of early BC (<36 years), mutations were found in 13.7% (95% CI 11.9% to 15.7%). Postmenopausal unilateral or bilateral BC did not increase the probability of mutation detection. Occurrence of premenopausal BC and OC in the same woman led to higher mutation frequencies compared with the occurrence of these two cancers in different individuals (49.0%; 95% CI 41.0% to 57.0% vs 31.5%; 95% CI 28.0% to 35.2%). CONCLUSIONS: Our data provide guidance for healthcare professionals and decision-makers to identify individuals who should undergo genetic testing for hereditary breast and ovarian cancer. Moreover, it supports informed decision-making of counselees on the uptake of genetic testing.

Variants in TSPYL1 are not associated with sudden infant death syndrome in a cohort of deceased infants from Switzerland.

Sudden infant death syndrome (SIDS) is currently the major cause of an unexpected and unexplained death of infants in the first year of lifetime in industrialized countries. Besides environmental factors also genetic factors have been identified as risk factors for SIDS. Notably, the mutation c.457dupG (p.Glu153Glyfs*17) in the TSPYL1 gene has been reported to cause autosomal recessive sudden infant death with dysgenesis of the testes syndrome (SIDDT) in an Old Order Amish community in Pennsylvania. The purpose of this study was to analyze whether variants of TSPYL1 are associated with the sudden infant death syndrome (SIDS) in the area of Europe from which the Amish descended. Mutation analysis of the entire TSPYL1 gene was performed in a cohort of 165 SIDS cases with mostly Swiss ethnic origin, in comparison to 163 German controls. Eight known polymorphisms were detected, none of which was significantly associated with SIDS. One deceased girl was heterozygous for the hitherto unreported TSPYL1 variant c.106C>G (p.Leu36Val), and two affected girls were heterozygous for the rare known TSPYL1 variant rs140756663 (c.1098C>A, p.Phe366Leu). In addition, one deceased boy was heterozygous for the rare common silent nucleotide substitution c.718C>T (p.Leu240Leu, rs150144081), while one control was heterozygous for the rare silent nucleotide substitution rs56190632 (c.760C>T; p.Leu254Leu). In silico analyses predicted a likely non-pathogenic effect for p.Leu36Val and p.Phe366Leu, respectively, although protein features might be affected. The Amish founder mutation was not detected in the analyzed SIDS cases and controls. Mutations and polymorphisms in the TSPYL1 gene were not associated with SIDS in a cohort of 165 deceased Swiss infants.

Dissecting the genotype in syndromic intellectual disability using whole exome sequencing in addition to genome-wide copy number analysis.

When a known microimbalance affecting multiple genes is detected in a patient with syndromic intellectual disability, it is usually presumed causative for all observed features. Whole exome sequencing (WES) allows questioning this assumption. In this study of three families with children affected by unexplained syndromic intellectual disability, genome-wide copy number and subsequent analyses revealed a de novo maternal 1.1 Mb microdeletion in the 14q32 imprinted region causing a paternal UPD(14)-like phenotype, and two inherited 22q11.21 microduplications of 2.5 or 2.8 Mb. In patient 1 carrying the 14q32 microdeletion, tall stature and renal malformation were unexplained by paternal UPD(14), and there was no altered DLK1 expression or unexpected methylation status. By WES and filtering with a mining tool, a novel FBN1 missense variant was found in patient 1 and his mother, who both showed clinical features of Marfan syndrome by thorough anthropometric assessment, and a novel EYA1 missense variant as a probable cause of the renal malformation in the patient. In patient 2 with the 22q11.21 microduplication syndrome, skin hypo- and hyperpigmentation and two malignancies were only partially explained. By WES, compound heterozygous BLM stop founder mutations were detected causing Bloom syndrome. In male patient 3 carrying a 22q11.21 microduplication inherited from his unaffected father, WES identified a novel missense variant in the OPHN1 X-linked intellectual disability gene inherited from the unaffected mother as a possible additional cause for developmental delay. Thus, WES seems warranted in patients carrying microdeletions or microduplications, who have unexplained clinical features or microimbalances inherited from an unaffected parent.