Xeroderma pigmentosum: clues to understanding cancer initiation

AbstractXeroderma pigmentosum (XP) type C is a rare autosomal recessive disorder that occurs because of inactivation of the xeroderma pigmentosum group C (XPC) protein, which is an important DNA damage recognition protein involved in DNA nucleotide excision repair (NER). This defect, which prevents removal of a wide array of direct and indirect DNA lesions, is associated with a decrease in catalase activity. As a novel photoprotective approach, lentivirus-mediated catalase overexpression in XPC human keratinocytes results in a marked decrease in sunburn cell formation, caspase-3 activation, and p53 accumulation following UVB irradiation. While not correcting the gene defect, indirect gene therapy using antioxidant enzymes may be helpful in limiting photosensitivity in XP type C, as well as in other monogenic/polygenic photosensitive disorders characterized by reactive oxygen species (ROS) accumulation. Hypoxia-inducible factor-1 (HIF-1), a major transcription factor sensitive to oxygen levels, responds to various stress factors. As a common stressor of skin, UVB induces a biphasic HIF-1a variation through ROS generation in keratinocytes. HIF-1a has an important regulator effect on the expression of XPC protein and other NER genes, indicating indirect regulation of NER by ROS. The intrinsic genomic instability arising in XP type C provides a good opportunity to investigate the complex molecular mechanisms underlying the Warburg effect (the shift of mito-chondrial metabolism towards glycolysis). Overall, the monogenic disorder XP type C is a powerful tool for studying photoprotection and cancer

Expanding the Clinical and Genetic Spectrum of KRT1, KRT2 and KRT10 Mutations in Keratinopathic Ichthyosis

Twenty-six families with keratinopathic ichthyoses (epidermolytic ichthyosis, superficial epidermolytic ichthyosis or congenital reticular ichthyosiform erythroderma) were studied. Epidermolytic ichthyosis is caused by mutations in the genes KRT1 or KRT10, mutations in the gene KRT2 lead to superficial epidermolytic ichthyosis, and congenital reticular ichthyosiform erythroderma is caused by frameshift mutations in the genes KRT10 or KRT1, which lead to the phenomenon of revertant mosaicism. In this study mutations were found in KRT1, KRT2 and KRT10, including 7 mutations that are novel pathogenic variants. Novel clinical features found in patients with congenital reticular ichthyosiform erythroderma are described, such as mental retardation, spasticity, facial dysmorphisms, symblepharon and malposition of the 4th toe

Invest Ophthalmol Vis Sci

PURPOSE. Albinism is a group of genetic disorders that includes several conditions related to a defect in melanin production. There is a broad phenotypic and genotypic variability between the different forms. The aim of this study was to assess the ophthalmologic characteristics according to patients' genotypes in a cohort followed in the Reference Center for oculocutaneous albinism (OCA) of Bordeaux University Hospital, France.METHODS. A retrospective observational study was conducted in a cohort of patients with OCA seen in consultation in the ophthalmology department between 2017 and 2021 in whom a genetic analysis was performed.RESULTS. In total, 127 patients with OCA were included in this study and matched with the results of the genetic analysis. In the population aged over 6 years, there was no statistical difference in binocular visual acuity between the OCA1, OCA2, and OCA4 forms (P = 0.27). There was difference in ametropia between the three forms (P = 0.003). A twoby-two comparison using the Bonferroni correction showed a significant difference in ametropia between the OCA2 and OCA4 forms (P = 0.007) and between the OCA1 and OCA2 forms (P = 0.0075). Regardless of the form, most patients (75.4%) had grade 4 foveal hypoplasia. There was no association between the grade of foveal hypoplasia and the gene involved (P = 0.87).CONCLUSIONS. We described a genotype-phenotype correlation for the three most represented forms of albinism in our cohort. This study allowed assessing the degree of visual deficiency in young children with OCA

International Teaching Programme

Nicolaides-Baraitser syndrome (NBS) is an infrequently described condition, thus far reported in five cases. In order to delineate the phenotype and its natural history in more detail, we gathered data on 18 hitherto unreported patients through a multi-center collaborative study, and follow-up data of the earlier reported patients. A detailed comparison of the 23 patients is provided. NBS is a distinct and recognizable entity, and probably has been underdiagnosed until now. Main clinical features are severe mental retardation with absent or limited speech, seizures, short stature, sparse hair, typical facial characteristics, brachydactyly, prominent finger joints and broad distal phalanges. Some of the features are progressive with time. The main differential diagnosis is Coffin-Siris syndrome. There is no important gender difference in occurrence and frequency of the syndrome, and all cases have been sporadic thus far. Microarray analysis performed in 14 of the patients gave normal results. Except for the progressive nature there are no clues to the cause. (C) 2009 Wiley-Liss, Inc

A comprehensive molecular study on Coffin-Siris and Nicolaides-Baraitser syndromes identifies a broad molecular and clinical spectrum converging on altered chromatin remodeling

Chromatin remodeling complexes are known to modify chemical marks on histones or to induce conformational changes in the chromatin in order to regulate transcription. De novo dominant mutations in different members of the SWI/SNF chromatin remodeling complex have recently been described in individuals with Coffin-Siris (CSS) and Nicolaides-Baraitser (NCBRS) syndromes. Using a combination of whole-exome sequencing, NGS-based sequencing of 23 SWI/SNF complex genes, and molecular karyotyping in 46 previously undescribed individuals with CSS and NCBRS, we identified a de novo 1-bp deletion (c.677delG, p.Gly226Glufs*53) and a de novo missense mutation (c.914G>T, p.Cys305Phe) in PHF6 in two individuals diagnosed with CSS. PHF6 interacts with the nucleosome remodeling and deacetylation (NuRD) complex implicating dysfunction of a second chromatin remodeling complex in the pathogenesis of CSS-like phenotypes. Altogether, we identified mutations in 60% of the studied individuals (28/46), located in the genes ARID1A, ARID1B, SMARCB1, SMARCE1, SMARCA2, and PHF6. We show that mutations in ARID1B are the main cause of CSS, accounting for 76% of identified mutations. ARID1B and SMARCB1 mutations were also found in individuals with the initial diagnosis of NCBRS. These individuals apparently belong to a small subset who display an intermediate CSS/NCBRS phenotype. Our proposed genotype-phenotype correlations are important for molecular screening strategie

16p11.2 600 kb Duplications confer risk for typical and atypical Rolandic epilepsy

Rolandic epilepsy (RE) is the most common idiopathic focal childhood epilepsy. Its molecular basis is largely unknown and a complex genetic etiology is assumed in the majority of affected individuals. The present study tested whether six large recurrent copy number variants at 1q21, 15q11.2, 15q13.3, 16p11.2, 16p13.11 and 22q11.2 previously associated with neurodevelopmental disorders also increase risk of RE. Our association analyses revealed a significant excess of the 600 kb genomic duplication at the 16p11.2 locus (chr16: 29.5-30.1 Mb) in 393 unrelated patients with typical (n = 339) and atypical (ARE; n = 54) RE compared with the prevalence in 65 046 European population controls (5/393 cases versus 32/65 046 controls; Fisher's exact test P = 2.83 × 10−6, odds ratio = 26.2, 95% confidence interval: 7.9-68.2). In contrast, the 16p11.2 duplication was not detected in 1738 European epilepsy patients with either temporal lobe epilepsy (n = 330) and genetic generalized epilepsies (n = 1408), suggesting a selective enrichment of the 16p11.2 duplication in idiopathic focal childhood epilepsies (Fisher's exact test P = 2.1 × 10−4). In a subsequent screen among children carrying the 16p11.2 600 kb rearrangement we identified three patients with RE-spectrum epilepsies in 117 duplication carriers (2.6%) but none in 202 carriers of the reciprocal deletion. Our results suggest that the 16p11.2 duplication represents a significant genetic risk factor for typical and atypical R

A Solve-RD ClinVar-based reanalysis of 1522 index cases from ERN-ITHACA reveals common pitfalls and misinterpretations in exome sequencing

Purpose Within the Solve-RD project (https://solve-rd.eu/), the European Reference Network for Intellectual disability, TeleHealth, Autism and Congenital Anomalies aimed to investigate whether a reanalysis of exomes from unsolved cases based on ClinVar annotations could establish additional diagnoses. We present the results of the “ClinVar low-hanging fruit” reanalysis, reasons for the failure of previous analyses, and lessons learned. Methods Data from the first 3576 exomes (1522 probands and 2054 relatives) collected from European Reference Network for Intellectual disability, TeleHealth, Autism and Congenital Anomalies was reanalyzed by the Solve-RD consortium by evaluating for the presence of single-nucleotide variant, and small insertions and deletions already reported as (likely) pathogenic in ClinVar. Variants were filtered according to frequency, genotype, and mode of inheritance and reinterpreted. Results We identified causal variants in 59 cases (3.9%), 50 of them also raised by other approaches and 9 leading to new diagnoses, highlighting interpretation challenges: variants in genes not known to be involved in human disease at the time of the first analysis, misleading genotypes, or variants undetected by local pipelines (variants in off-target regions, low quality filters, low allelic balance, or high frequency). Conclusion The “ClinVar low-hanging fruit” analysis represents an effective, fast, and easy approach to recover causal variants from exome sequencing data, herewith contributing to the reduction of the diagnostic deadlock

Clinical and molecular study of oculocutaneous albinism : development of molecular diagnosis tools and search for new genes

Notre travail s’est intéressé à l’albinisme oculocutané en étudiant ses aspects clinico- moléculaires. Malgré l’analyse approfondie des gènes connus d’albinisme oculocutané, 15 % des patients restent sans mutation identifiée indiquant que les mutations sont situées dans des régions géniques non analysées par les techniques classiques de diagnostic moléculaire, ou qu’il existe d’autres gènes d’albinisme oculocutané. Nous avons établi une base de données clinico- biologiques décrivant les caractéristiques de plus de 400 patients analysés. Des outils de diagnostic moléculaire ont été développés à la recherche de mutations situées dans les introns et les régions régulatrices et de réarrangements géniques. Différentes stratégies ont également été utilisées pour rechercher des gènes candidats. La puce à façon a permis l’identification de grands réarrangements dans les gènes TYR, OCA2 et SLC45A2 et un réarrangement complexe du gène OCA2 chez 2 patients non apparentés. L'analyse de gènes candidats nous a permis d'identifier, chez 5 patients non apparentés présentant un albinisme oculocutané non syndromique, des mutations dans le gène SLC24A5, très récemment associé à l’AOC6. Le séquençage d’exome de 6 patients a mis en évidence des gènes candidats pour lesquels des analyses complémentaires sont poursuivies afin de confirmer leur implication dans la pathogenèse de l’AOC.Les résultats de ce travail permettent de redéfinir les aspects cliniques et moléculaires de l’AOC, d’identifier de nouveaux mécanismes moléculaires à l’origine de l’AOC ainsi que des gènes candidats dont la fonction dans le développement pigmentaire reste à élucider. L’identification de nouveaux gènes impliqués dans l’AOC pourrait permettre de mieux comprendre et de mieux prendre en charge les patients avec un AOC.Our work focused on oculocutaneous albinism (OCA) by studying its clinical and molecular aspects. Despite a thorough analysis of the known genes involved in oculocutaneous albinism, 15% of patients remain without diagnostic at the molecular level indicating that mutations are located in unexplored regions and are undetected by standard techniques or that other genes are involved in albinism. We established a clinicomolecular database describing more than 400 patients and developped molecular tools in order to improve molecular diagnostic including a custom high resolution array-CGH dedicated to the four OCA genes (TYR, OCA2, TYRP1 and SLC45A2). We also used different strategies to identify new genes. Array-CGH allows us to detect large deletion in TYR, OCA2 and SLC45A2 and a complexe rearrangement in OCA2 in 2 unrelated patients. We identified, in 5 patients presenting with a non syndromic OCA, mutations in SLC24A5, recently associated with OCA6. Exome sequencing of 6 different patients allows us to identify candidate genes, for which further studies are required to confirm their involvement in OCA pathogenesis. The results of this work allowed us to delineate clinical and genetics aspects of more than 400 OCA patients and to identify new molecular mechanisms leading to OCA and candidates genes for which exact nature of their functions has to be understood. Giving the complexity of pigmentary system development and its regulation, identification of new genes leading to OCA could help to better understand OCA and take care of patient

Clinical and molecular study of oculocutaneous albinism : development of molecular diagnosis tools and search for new genes

Notre travail s’est intéressé à l’albinisme oculocutané en étudiant ses aspects clinico- moléculaires. Malgré l’analyse approfondie des gènes connus d’albinisme oculocutané, 15 % des patients restent sans mutation identifiée indiquant que les mutations sont situées dans des régions géniques non analysées par les techniques classiques de diagnostic moléculaire, ou qu’il existe d’autres gènes d’albinisme oculocutané. Nous avons établi une base de données clinico- biologiques décrivant les caractéristiques de plus de 400 patients analysés. Des outils de diagnostic moléculaire ont été développés à la recherche de mutations situées dans les introns et les régions régulatrices et de réarrangements géniques. Différentes stratégies ont également été utilisées pour rechercher des gènes candidats. La puce à façon a permis l’identification de grands réarrangements dans les gènes TYR, OCA2 et SLC45A2 et un réarrangement complexe du gène OCA2 chez 2 patients non apparentés. L'analyse de gènes candidats nous a permis d'identifier, chez 5 patients non apparentés présentant un albinisme oculocutané non syndromique, des mutations dans le gène SLC24A5, très récemment associé à l’AOC6. Le séquençage d’exome de 6 patients a mis en évidence des gènes candidats pour lesquels des analyses complémentaires sont poursuivies afin de confirmer leur implication dans la pathogenèse de l’AOC.Les résultats de ce travail permettent de redéfinir les aspects cliniques et moléculaires de l’AOC, d’identifier de nouveaux mécanismes moléculaires à l’origine de l’AOC ainsi que des gènes candidats dont la fonction dans le développement pigmentaire reste à élucider. L’identification de nouveaux gènes impliqués dans l’AOC pourrait permettre de mieux comprendre et de mieux prendre en charge les patients avec un AOC.Our work focused on oculocutaneous albinism (OCA) by studying its clinical and molecular aspects. Despite a thorough analysis of the known genes involved in oculocutaneous albinism, 15% of patients remain without diagnostic at the molecular level indicating that mutations are located in unexplored regions and are undetected by standard techniques or that other genes are involved in albinism. We established a clinicomolecular database describing more than 400 patients and developped molecular tools in order to improve molecular diagnostic including a custom high resolution array-CGH dedicated to the four OCA genes (TYR, OCA2, TYRP1 and SLC45A2). We also used different strategies to identify new genes. Array-CGH allows us to detect large deletion in TYR, OCA2 and SLC45A2 and a complexe rearrangement in OCA2 in 2 unrelated patients. We identified, in 5 patients presenting with a non syndromic OCA, mutations in SLC24A5, recently associated with OCA6. Exome sequencing of 6 different patients allows us to identify candidate genes, for which further studies are required to confirm their involvement in OCA pathogenesis. The results of this work allowed us to delineate clinical and genetics aspects of more than 400 OCA patients and to identify new molecular mechanisms leading to OCA and candidates genes for which exact nature of their functions has to be understood. Giving the complexity of pigmentary system development and its regulation, identification of new genes leading to OCA could help to better understand OCA and take care of patient