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3. Molecular and clinical profile of patients referred as Noonan or Noonan-like syndrome in Greece: a cohort of 86 patients

Author

Papadopoulos, G. Papadopoulou, A. Kosma, K. Papadimitriou, A. Papaevangelou, V. Kanaka-Gantenbein, C. Bountouvi, E. Kitsiou-Tzeli, S. and Papadopoulos, G. Papadopoulou, A. Kosma, K. Papadimitriou, A. Papaevangelou, V. Kanaka-Gantenbein, C. Bountouvi, E. Kitsiou-Tzeli, S.

Abstract

Noonan syndrome (NS) is an autosomal dominant disorder characterized by clinical and genetic heterogeneity. It belongs to a wider group of pathologies, known as Rasopathies, due to the implication of genes encoding components of the Ras/MAPK signalling pathway. Recording the genetic alterations across populations helps assessing specific features to specific genes which is essential for better disease’s recognition, prognosis and monitoring. Herein, we report the clinical and molecular data of a Greek cohort comprising of 86 NS or NS-like patients admitted at a single tertiary Centre in Athens, Greece. The analysis was performed using Sanger and next-generation sequencing, comprising 14 different genes. The mutational rates of the confirmed NS-associated genes in the Greek NS population are as follows: PTPN11 32.5%; RIT1 5.8%; SOS1 4.7%; BRAF 1.2%; CBL 1.2%; KRAS 1.2%; MAP2K1 1.2%; RAF1 1.2%; SHOC2 1.2%, corresponding to 50% of positivity in total NS population. The genotype–phenotype analysis showed statistically significant differences in craniofacial dysmorphisms (p = 0.005) and pulmonary valve stenosis (PS) (p < 0.001) frequencies between patients harbouring a pathogenic variant and patients without pathogenic variant in any of the tested genes. Patients with at least a pathogenic variant had 6.71 times greater odds to develop PS compared to pathogenic variant-negative patients (OR = 6.71, 95%; CI = (2.61, 17.27)). PTPN11 positive patients showed higher frequency of epicanthal folds (p = 0.004), ptosis (p = 0.001) and coarseness (p = 0.001) and lower frequency of neurological findings (p = 0.006), compared to patients carrying pathogenic variants in other genes. Conclusion: Craniofacial dysmorphism and PS prevail among pathogenic variant positive compared to pathogenic variant negative NS and NS-like patients while neurological defects are less common in PTPN11-affected NS patients compared to patients harbouring pathogenic variants in other genes. The signif

Published
2022

6. Proliferative and chondrogenic potential of mesenchymal stromal cells from pluripotent and bone marrow cells

Author

Sfougataki, I. Varela, I. Stefanaki, K. Karagiannidou, A. Roubelakis, M.G. Kalodimou, V. Papathanasiou, I. Traeger-Synodinos, J. Kitsiou-Tzeli, S. Kanavakis, E. Kitra, V. Tsezou, A. Tzetis, M. Goussetis, E.

Abstract

Summary. Introduction. Mesenchymal stromal cells (MSCs) can be derived from a wide range of fetal and adult sources including pluripotent stem cells (PSCs). The properties of PSC-derived MSCs need to be fully characterized, in order to evaluate the feasibility of their use in clinical applications. PSC-MSC proliferation and differentiation potential in comparison with bone marrow (BM)-MSCs is still under investigation. The objective of this study was to determine the proliferative and chondrogenic capabilities of both human induced pluripotent stem cell (hiPSC-) and embryonic stem cell (hESC-) derived MSCs, by comparing them with BMMSCs. Methods. MSCs were derived from two hiPSC lines (hiPSC-MSCs), the well characterized Hues9 hESC line (hESC-MSCs) and BM from two healthy donors (BMMSCs). Proliferation potential was investigated using appropriate culture conditions, with serial passaging, until cells entered into senescence. Differentiation potential to cartilage was examined after in vitro chondrogenic culture conditions. Results. BM-MSCs revealed a fold expansion of 1.18x105 and 2.3x105 while the two hiPSC-MSC lines and hESC-MSC showed 5.88x1010, 3.49x108 and 2.88x108, respectively. Under chondrogenic conditions, all MSC lines showed a degree of chondrogenesis. However, when we examined the formed chondrocyte micromasses by histological analysis of the cartilage morphology and immunohistochemistry for the chondrocyte specific markers Sox9 and Collagen II, we observed that PSC-derived MSC lines had formed pink rather than hyaline cartilage, in contrast to BM-MSCs. Conclusion. In conclusion, MSCs derived from both hESCs and hiPSCs had superior proliferative capacity compared to BM-MSCs, but they were inefficient in their ability to form hyaline cartilage. © 2020, Histology and Histopathology. All rights reserved.

Published
2020

7. Deep-intronic variants in CNGB3 cause achromatopsia by pseudoexon activation

Author

Weisschuh, N. Sturm, M. Baumann, B. Audo, I. Ayuso, C. Bocquet, B. Branham, K. Brooks, B.P. Catalá-Mora, J. Giorda, R. Heckenlively, J.R. Hufnagel, R.B. Jacobson, S.G. Kellner, U. Kitsiou-Tzeli, S. Matet, A. Martorell Sampol, L. Meunier, I. Rudolph, G. Sharon, D. Stingl, K. Streubel, B. Varsányi, B. Wissinger, B. Kohl, S.

Abstract

Our comprehensive cohort of 1100 unrelated achromatopsia (ACHM) patients comprises a considerable number of cases (~5%) harboring only a single pathogenic variant in the major ACHM gene CNGB3. We sequenced the entire CNGB3 locus in 33 of these patients to find a second variant which eventually explained the patients’ phenotype. Forty-seven intronic CNGB3 variants were identified in 28 subjects after a filtering step based on frequency and the exclusion of variants found in cis with pathogenic alleles. In a second step, in silico prediction tools were used to filter out those variants with little odds of being deleterious. This left three variants that were analyzed using heterologous splicing assays. Variant c.1663–1205G>A, found in 14 subjects, and variant c.1663-2137C>T, found in two subjects, were indeed shown to exert a splicing defect by causing pseudoexon insertion into the transcript. Subsequent screening of further unsolved CNGB3 subjects identified four additional cases harboring the c.1663–1205G>A variant which makes it the eighth most frequent CNGB3 variant in our cohort. Compound heterozygosity could be validated in ten cases. Our study demonstrates that whole gene sequencing can be a powerful approach to identify the second pathogenic allele in patients apparently harboring only one disease-causing variant. © 2019 Wiley Periodicals, Inc.

Published
2020

9. High resolution Chromosomal Microarray Analysis (CMA) enhances the genetic profile of pediatric B-cell Acute Lymphoblastic Leukemia patients

Author

Mitrakos, A. Kattamis, A. Katsibardi, K. Papadhimitriou, S. Kitsiou-Tzeli, S. Kanavakis, E. Tzetis, M.

Abstract

Acute Lymphoblastic Leukemia (ALL) is a malignancy of the immature lymphoid cells mainly associated with numerical and structural chromosomal aberrations. The current standard for profiling the diverse genetic background comprises a combination of conventional karyotype and FISH analysis for the most common translocations, albeit with many limitations. Chromosomal Microarray Analysis (CMA) is a high throughput whole genome method that is gradually implemented in routine clinical practice, but not many studies have compared the two methods. Here we aim to investigate the added benefits of utilizing the high resolution 2 x 400 K G3 CGH + SNP CMA platform in routine diagnostics of pediatric ALL. From the 29 bone marrow samples that were analyzed, CMA identified clinically relevant findings in 83%, while detecting chromosomal aberrations in 75% of the patients with normal conventional karyotype. The most common finding was hyperdiploidy (20%), and the most common submicroscopic aberration involved CDKN2A/B genes. The smallest aberration detected was a 9 kb partial NF1 gene duplication. The prognosis of the patients when combining conventional cytogenetics and CMA was either changed or enhanced in 66% of the cases. A rare duplication possibly indicative of a cryptic ABL1-NUP214 fusion gene was found in one patient. We conclude that CMA, when combined with conventional cytogenetic analysis, can significantly enhance the genetic profiling of patients with pediatric ALL in a routine clinical setting. © 2019 Elsevier Ltd

Published
2019

10. A Female Patient with Xq28 Microduplication Presenting with Myotubular Myopathy, Confirmed with a Custom-Designed X-array

Author

Kosma, K. Mitrakos, A. Sofokleous, C. Papadimas, G. Fryssira, H. Kitsiou-Tzeli, S. Tzetis, M.

Abstract

X-linked myotubular myopathy (XLMTM) is a rare inherited neuromuscular disorder associated with mutations in the MTM1 gene on the Xq28 region. We report a severely affected girl with XLMTM, caused by maternally inherited 661 kb Xq28 microduplication identified by chromosomal microarray analysis and confirmed also on DNA from muscle biopsy with a custom-designed X-chromosome-specific microarray. X-inactivation analysis revealed a skewed inactivation pattern on the proband's muscle biopsy. Muscle biopsy histopathology was indicative of increased variability in fiber diameter, marked and diffuse endomysial proliferation of adipose and connective tissues, as well as predominance of type 1 fibers. © 2019 Georg Thieme Verlag KG Stuttgart. New York.

Published
2019

12. Position effect, cryptic complexity, and direct gene disruption as disease mechanisms in de novo apparently balanced translocation cases

Author

Aristidou, C. Theodosiou, A. Bak, M. Mehrjouy, M.M. Constantinou, E. Alexandrou, A. Papaevripidou, I. Christophidou-Anastasiadou, V. Skordis, N. Kitsiou-Tzeli, S. Tommerup, N. Sismani, C.

Abstract

The majority of apparently balanced translocation (ABT) carriers are phenotypically normal. However, several mechanisms were proposed to underlie phenotypes in affected ABT cases. In the current study, whole-genome mate-pair sequencing (WG-MPS) followed by Sanger sequencing was applied to further characterize de novo ABTs in three affected individuals. WG-MPS precisely mapped all ABT breakpoints and revealed three possible underlying molecular mechanisms. Firstly, in a t(X;1) carrier with hearing loss, a highly skewed Xinactivation pattern was observed and the der(X) breakpoint mapped ∼87kb upstream an Xlinked deafness gene namely POU3F4, thus suggesting an underlying long-range position effect mechanism. Secondly, cryptic complexity and a chromothripsis rearrangement was identified in a t(6;7;8;12) carrier with intellectual disability. Two translocations and a heterozygous deletion disrupted SOX5; a dominant nervous system development gene previously reported in similar patients. Finally, a direct gene disruption mechanism was proposed in a t (4;9) carrier with dysmorphic facial features and speech delay. In this case, the der(9) breakpoint directly disrupted NFIB, a gene involved in lung maturation and development of the pons with important functions in main speech processes. To conclude, in contrast to familial ABT cases with identical rearrangements and discordant phenotypes, where translocations are considered coincidental, translocations seem to be associated with phenotype presentation in affected de novo ABT cases. In addition, this study highlights the importance of investigating both coding and non-coding regions to decipher the underlying pathogenic mechanisms in these patients, and supports the potential introduction of low coverage WGMPS in the clinical investigation of de novo ABTs. © 2018 Aristidou et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Published
2018

13. Phenotypic expression of a spectrum of Neurofibromatosis Type 1 (NF1) mutations identified through NGS and MLPA

Author

Tsipi, M. Poulou, M. Fylaktou, E. Kosma, K. Tsoutsou, E. Pons, M.-R. Kokkinou, E. Kitsiou-Tzeli, S. Fryssira, H. Tzetis, M.

Abstract

Neurofibromatosis Type 1 (NF1) is caused by mutations of the NF1 gene. The aim of this study was to identify the genetic causes underlying the disease, attempt possible phenotype/genotype correlations and add to the NF1 mutation spectrum. A screening protocol based on genomic DNA was established in 168 patients, encompassing sequencing of all coding exons and adjoining introns using a custom targeted next generation sequencing protocol and subsequent confirmation of findings with Sanger sequencing. MLPA was used to detect deletions/duplications and positive findings were confirmed by RNA analysis. All novel findings were evaluated according to ACMG Standards and guidelines for the interpretation of sequence variants with the aid of in-silico bioinformatic tools and family segregation analysis. A germline variant was identified in 145 patients (86%). In total 49 known and 70 novel variants in coding and non-coding regions were identified. Seven patients carried whole or partial gene deletions. NF1 patients, present with high phenotypic variability even in cases where the same germline disease causing variant has been identified. Our findings will contribute to a better knowledge of the genetic causes and the phenotypic expression related to the disease. © 2018 Elsevier B.V.

Published
2018

17. Application of high-resolution array comparative genomic hybridization in children with unknown syndromic microcephaly

Author

Tsoutsou, E. Tzetis, M. Giannikou, K. Braoudaki, M. Mitrakos, A. Amenta, S. Selenti, N. Kanavakis, E. Zafeiriou, D. Kitsiou-Tzeli, S. Fryssira, H.

Abstract

BackroundMicrocephaly can either be isolated or it may coexist with other neurological entities and/or multiple congenital anomalies, known as syndromic microcephaly. Although many syndromic cases can be classified based on the characteristic phenotype, some others remain uncertain and require further investigation. The present study describes the application of array-comparative genomic hybridization (array-CGH) as a diagnostic tool for the study of patients with clinically unknown syndromic microcephaly.MethodsFrom a cohort of 210 unrelated patients referred with syndromic microcephaly, we applied array-CGH analysis in 53 undiagnosed cases. In all the 53 cases except one, previous standard karyotype was negative. High-resolution 4 × 180K and 1 × 244K Agilent arrays were used in this study.ResultsIn 25 out of the 53 patients with microcephaly among other phenotypic anomalies, array-CGH revealed copy number variations (CNVs) ranging in size between 15 kb and 31.6 Mb. The identified CNVs were definitely causal for microcephaly in 11/53, probably causal in 7/53, and not causal for microcephaly in 7/53 patients. Genes potentially contributing to brain deficit were revealed in 16/53 patients.ConclusionsArray-CGH contributes to the elucidation of undefined syndromic microcephalic cases by permitting the discovery of novel microdeletions and/or microduplications. It also allows a more precise genotype-phenotype correlation by the accurate definition of the breakpoints in the deleted/duplicated regions. © 2017 International Pediatric Research Foundation, Inc.

Published
2017

18. Maternal epigenetics and fetal and neonatal growth

Author

Kitsiou-Tzeli, S. Tzetis, M.

Abstract

Purpose of review: The article provides an update on new insights of factors altering inherited maternal epigenome that ultimately affect fetal and neonatal growth. Recent findings: A number of new publications have identified mechanisms through which maternal nutrition, environmental exposures such as stress and toxic substances altering expression of imprinted genes during pregnancy can influence fetal and neonatal phenotype and susceptibility to disease development later in life. The possible causes of metabolic syndrome by in-utero epigenetic alterations of genes involved in energy metabolism (PPARg and PPARa), microRNAs, arginine methyltransferases, lysine demethylases, and histone deacetylaces have been elucidated. Moreover associations between methylation of key genes (NRC31, HSD11b1/2, GFI1) involved in the hypothalamic-pituitary-adrenal axis have been identified. Alcohol exposure during pregnancy was found to alter methylation patterns of several imprinted genes (H19, SLC22A18, SLC6A3, DRD4). Finally alterations in vulnerable epigenetic marks of imprinted genes such as H19/IGF2, during early stages of embryonic development result in intrauterine growth restriction. Summary: All these investigations continue to provide new insights for improved clinical management of in-utero development. © 2017 Wolters Kluwer Health, Inc.

Published
2017

19. Compound heterozygosity of a paternal submicroscopic deletion and a maternal missense mutation in POR gene: Antley-bixler syndrome phenotype in three sibling fetuses

Author

Tzetis, M. Konstantinidou, A. Sofocleous, C. Kosma, K. Mitrakos, A. Tzannatos, C. Kitsiou-Tzeli, S.

Abstract

Background: Antley-Bixler syndrome (ABS) is an exceptionally rare craniosynostosis syndrome that can be accompanied by disordered steroidogenesis, and is mainly caused by mutations in the POR gene, inherited in an autosomal recessive manner. Here we report the prenatal and postmortem findings of three sibling fetuses with ABS as a result of compound heterozygosity of a paternal submicroscopic deletion and a maternal missense mutation in the POR gene. Methods: Prenatal ultrasound and postmortem examination were performed in three sibling fetuses with termination of pregnancy at 22, 23, and 17 weeks of gestation, respectively. Molecular analysis of fetus 2 and 3 included (a) bidirectional sequencing of exon 8 of the POR gene after amplification of the specific locus by polymerase chain reaction, to detect single nucleotide variants (SNVs) and (b) high resolution comparative genomic hybridization (CGH) positive single nucleotide polymorphism array CGH (aCGH) analysis to detect copy number variants (CNVs), copy neutral areas of loss of heterozygosity and uniparental disomy. Results: The diagnosis of ABS was suggested by the postmortem examination findings. The combination of the POR gene molecular analysis and aCGH revealed a compound heterozygous genotype of a maternal SNV (p.A287P) and a paternal CNV (NC_000007.13:g.(?_75608488)_(75615534_?)del). Conclusion: To the best of our knowledge, these sibling fetuses add to the few reported cases of ABS, caused by a combination of a SNV and a CNV in the POR gene. The detailed description of the pathologic and radiographic findings of second trimester fetuses affected with ABS adds novel knowledge concerning the early ABS phenotype, in lack of previous relevant reports. Birth Defects Research (Part A) 106:536–541, 2016. © 2016 Wiley Periodicals, Inc. © 2016 Wiley Periodicals, Inc.

Published
2016

20. Genomic screening of ABCA4 and array CGH analysis underline the genetic variability of Greek patients with inherited retinal diseases

Author

Tsipi, M. Tzetis, M. Kosma, K. Moschos, M. Braoudaki, M. Poulou, M. Kanavakis, E. Kitsiou-Tzeli, S.

Subjects
genetic structures, eye diseases
Abstract

Background: Retinal dystrophies are a clinically and genetically heterogeneous group of disorders which affect more than two million people worldwide. The present study focused on the role of the ABCA4 gene in the pathogenesis of hereditary retinal dystrophies (autosomal recessive Stargardt disease, autosomal recessive cone-rod dystrophy, and autosomal recessive retinitis pigmentosa) in patients of Greek origin. Materials and methods: Our cohort included 26 unrelated patients and their first degree healthy relatives. The ABCA4 mutation screening involved Sanger sequencing of all exons and flanking regions. Evaluation of novel variants included sequencing of control samples, family segregation analysis and characterization by in silico prediction tools. Twenty five patients were also screened for copy number variations by array-comparative genomic hybridization. Results: Excluding known disease-causing mutations and polymorphisms, two novel variants were identified in coding and non-coding regions of ABCA4. Array-CGH analysis revealed two partial deletions of USH2A and MYO3A in two patients with nonsyndromic autosomal recessive retinitis pigmentosa. Conclusions: The ABCA4 mutation spectrum in Greek patients differs from other populations. Bioinformatic tools, segregation analysis along with clinical data from the patients seemed to be crucial for the evaluation of genetic variants and particularly for the discrimination between causative and non-causative variants. © 2016 The Authors.

Published
2016

21. Dysmorphology services: a snapshot of current practices and a vision for the future

Author

Douzgou, S. Chervinsky, E. Gyftodimou, Y. Kitsiou-Tzeli, S. and Shalev, S. Kanavakis, E. Donnai, D. Clayton-Smith, J.

Abstract

Dysmorphology concerns the recognition and management of rare, multiple anomaly syndromes. Genomic technologies and software for gestalt recognition will re-shape dysmorphology services. In order to reflect on a model of the service in the post-genomic era, we compared the utility of dysmorphology consultations in two Mediterranean cities, Athens, Greece and Afula, Israel (MDS), the Manchester Centre for Genomic Medicine, a UK service with dysmorphology expertise (UKDS) and the DYSCERNE, digital service (DDS). We show that it is more likely that chromosome microarray analysis will be performed if suggested in the UKDS rather than in the MDS; this, most probably reflects the difference of access to genetic testing following funding limitations in the MDS. We also show that in terms of achieved diagnosis, the first visit to a dysmorphology clinic is more significant than a follow-up. We show that a confirmed syndrome diagnosis significantly decreases the requests for other, non-genetic, laboratory investigations. Conversely, it increases the requests for reviews by other specialists and, most significantly (t-test: 8.244), it increases further requests for screening for possible associated complications. This is the first demonstration of the demands, on a health service, following the diagnosis of a dysmorphic condition.

Published
2016

22. A dynamic trinucleotide repeat (TNR) expansion in the DMD gene

Author

Kekou, K. Sofocleous, C. Papadimas, G. Petichakis, D. Svingou, M. Pons, R.-M. Vorgia, P. Gika, A. Kitsiou-Tzeli, S. Kanavakis, E.

Subjects
congenital, hereditary, and neonatal diseases and abnormalities
Abstract

Dystrophinopathies are allelic X-linked myopathies caused by large deletions/duplications or small lesions along the DMD gene. An unexpected dynamic trinucleotide (GAA) expansion, ranging from ∼59 to 82 pure GAA repeats, within the DMD intron 62, was revealed to segregate through three family generations. From the pedigree, two female patients were referred for DMD investigation due to chronic myopathy and a muscle biopsy compatible with dystrophinopathy. As the size of the GAA repeat is limited to 11–33 within the general population our findings may provide a novel insight towards a Trinucleotide Repeat Expansion. Whether this TNR has an impact on the reported phenotype remains to be resolved. © 2016 Elsevier Ltd

Published
2016

23. Recurrent copy number variations as risk factors for autism spectrum disorders: Analysis of the clinical implications

Author

Oikonomakis, V. Kosma, K. Mitrakos, A. Sofocleous, C. Pervanidou, P. Syrmou, A. Pampanos, A. Psoni, S. Fryssira, H. Kanavakis, E. Kitsiou-Tzeli, S. Tzetis, M.

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, endocrine system diseases, mental disorders, humanities
Abstract

Chromosomal microarray analysis (CMA) is currently considered a first-tier diagnostic assay for the investigation of autism spectrum disorders (ASD), developmental delay and intellectual disability of unknown etiology. High-resolution arrays were utilized for the identification of copy number variations (CNVs) in 195 ASD patients of Greek origin (126 males, 69 females). CMA resulted in the detection of 65 CNVs, excluding the known polymorphic copy number polymorphisms also found in the Database of Genomic Variants, for 51/195 patients (26.1%). Parental DNA testing in 20/51 patients revealed that 17 CNVs were de novo, 6 paternal and 3 of maternal origin. The majority of the 65 CNVs were deletions (66.1%), of which 5 on the X-chromosome while the duplications, of which 7 on the X-chromosome, were rarer (22/65, 33.8%). Fifty-one CNVs from a total of 65, reported for our cohort of ASD patients, were of diagnostic significance and well described in the literature while 14 CNVs (8 losses, 6 gains) were characterized as variants of unknown significance and need further investigation. Among the 51 patients, 39 carried one CNV, 10 carried two CNVs and 2 carried three CNVs. The use of CMA, its clinical validity and utility was assessed. © 2016 John Wiley & Sons A/S.

Published
2016

25. Complex preimplantation genetic diagnosis for beta-thalassaemia, sideroblastic anaemia, and human leukocyte antigen (HLA)-typing

Author

Kakourou, G. Vrettou, C. Kattamis, A. Destouni, A. Poulou, M. Moutafi, M. Kokkali, G. Pantos, K. Davies, S. Kitsiou-Tzeli, S. Kanavakis, E. Traeger-Synodinos, J.

Abstract

Preimplantation genetic diagnosis (PGD) to select histocompatible siblings to facilitate curative haematopoeitic stem-cell transplantation (HSCT) is now an acceptable option in the absence of an available human leukocyte antigen (HLA) compatible donor. We describe a case where the couple who requested HLA-PGD, were both carriers of two serious haematological diseases, beta-thalassaemia and sideroblastic anaemia. Their daughter, affected with sideroblastic anaemia, was programmed to have HSCT. A multiplex-fluorescent-touchdown-PCR protocol was optimized for the simultaneous amplification of: the two HBB-gene mutated regions (c.118C > T, c.25-26delAA), four short tandem repeats (STRs) in chr11p15.5 linked to the HBB gene, the SLC25A38 gene mutation (c.726C > T), two STRs in chr3p22.1 linked to the SLC25A38 gene, plus eleven informative STRs for HLA-haplotyping (chr6p22.1-21.3). This was followed by real-time nested PCR and high-resolution melting analysis (HRMA) for the detection of HBB and SLC25A38 gene mutations, as well as the analysis of all STRs on an automatic genetic analyzer (sequencer). The couple completed four clinical in vitro fertilization (IVF)/PGD cycles. At least one matched unaffected embryo was identified and transferred in each cycle. A twin pregnancy was established in the fourth PGD cycle and genotyping results at all loci were confirmed by prenatal diagnosis. Two healthy baby girls were delivered at week 38 of pregnancy. The need to exclude two familial disorders for HLA-PGD is rarely encountered. The methodological approach described here is fast, accurate, clinically-validated, and of relatively low cost. © 2016 Taylor & Francis.

Published
2016

26. Aberrant microRNA expression in tumor mycosis fungoides

Author

Papadavid, E. Braoudaki, M. Bourdakou, M. Lykoudi, A. Nikolaou, V. Tounta, G. Ekonomidi, A. Athanasiadis, E. Spyrou, G. Antoniou, C. Kitsiou-Tzeli, S. Rigopoulos, D. Kolialexi, A.

Abstract

Herein, miRNA candidates relevant to mycosis fungoides were investigated to provide data on the molecular mechanisms underlying the pathogenesis of the disease. The miRNA expression profile of skin biopsies from patients with tumor stage MF (tMF) and normal donors was compared using miRNA microarrays. Overall, 154 miRNAs were found differentially expressed between tMF and the control cohort with the majority of them being up-regulated (57 %). Among the upregulated miRNAs, miR-3177, miR-514b-3p, miR-1267, and miR-1282 were exclusively detected in 70 % of tMF. Additional upregulated miRNAs included miR-34a, miR-29a, let-7a*, and miR-210, while miR-200c* was identified among the downregulated ones. Quantitative real-time polymerase chain reaction was used to further investigate the expression profiles of miR-34a and miR-29a and validated the overexpression of miR-34a. Enrichment studies revealed that the target genes of the differentially expressed miRNAs were important in several cancer-related signaling pathways. The overlapping relationship of the target genes among tMF, Sezary syndrome, and atopic dermatitis revealed several common and disease-specific genes. Collectively, our study modulated miR-34a as a candidate oncogenic molecule and miR-29a as a putative tumor suppressor highlighting their promising potential in the molecular pathogenesis of tMF. © 2016, International Society of Oncology and BioMarkers (ISOBM).

Published
2016

28. Single-cell high resolution melting analysis: A novel, generic, pre-implantation genetic diagnosis (PGD) method applied to cystic fibrosis (HRMA CF-PGD)

Author

Destouni, A. Poulou, M. Kakourou, G. Vrettou, C. Tzetis, M. Traeger-Synodinos, J. Kitsiou-Tzeli, S.

Abstract

Background: Institutions offering CF-PGD face the challenge of developing and optimizing single cell genotyping protocols that should cover for the extremely heterogeneous CF mutation spectrum. Here we report the development and successful clinical application of a generic CF-PGD protocol to facilitate direct detection of any CFTR nucleotide variation(s) by HRMA and simultaneous confirmation of diagnosis through haplotype analysis. Methods: A multiplex PCR was optimized supporting co-amplification of any CFTR exon-region, along with 6 closely linked STRs. Single cell genotypes were established through HRM analysis following melting of the 2nd round PCR products and were confirmed by STR haplotype analysis of the 1st PCR products. The protocol was validated pre-clinically, by testing 208 single lymphocytes, isolated from whole blood samples from 4 validation family trios. Fifteen PGD cycles were performed and 103 embryos were biopsied. Results: In 15 clinical PGD cycles, genotypes were achieved in 88/93 (94.6%) embryo biopsy samples, of which 57/88 (64.8%) were deemed genetically suitable for embryo transfer. Amplification failed at all loci for 10/103 blastomeres biopsied from poor quality embryos. Six clinical pregnancies were achieved (2 twin, 4 singletons). PGD genotypes were confirmed following conventional amniocentesis or chorionic villus sampling in all achieved pregnancies. Conclusions: The single cell HRMA CF-PGD protocol described herein is a flexible, generic, low cost and robust genotyping method, which facilitates the analysis of any CFTR genotype combination. Single-cell HRMA can be beneficial to other clinical settings, for example the detection of single nucleotide variants in single cells derived from clinical tumor samples. © 2015 European Cystic Fibrosis Society.

Published
2016

32. Caveolinopathies in Greece

Author

Papadopoulos, C. Papadimas, G.K. Kekou, K. Spengos, K. Svigou, M. Kitsiou-Tzeli, S. Manta, P.

Abstract

Introduction: Mutations in the CAV3 gene are usually inherited in an autosomal dominant manner and lead to distinct disorders including limb-girdle muscular dystrophy 1C, rippling muscle disease, and isolated creatine kinase elevation. Patients and Methods: The features of the first patients with caveolin-3 deficiency from Greece are presented. Patients' phenotypes ranged from asymptomatic creatine kinase elevation to severe weakness of lower extremities. Clinical evaluation disclosed muscle hypertrophy in 2 patients, whereas percussion-induced muscle mounding was a consistent finding in all of them. Muscle histopathology was variable and unrelated with disease severity. The diagnosis was based on the immunohistochemical study of caveolin-3 expression and molecular analysis of the caveolin-3 gene. Conclusions: Clinical manifestations and histochemical findings in caveolinopathy patients may be mild or nonspecific or overlapping with features of other muscular dystrophies. Immunohistochemical study of caveolin-3 expression on muscle biopsy should be routinely performed when investigating isolated hyperCKemia or undetermined myopathy especially in the presence of percussion-induced muscle mounding. Copyright © 2015 Wolters Kluwer Health, Inc. All rights reserved.

Published
2015

33. Erratum: An interstitial deletion at 8q23.1-q24.12 associated with Langer-Giedion syndrome/Trichorhinophalangeal syndrome (TRPS) type II and Cornelia de Lange syndrome 4 (Molecular Cytogenetics (2015) 8:64 DOI: 10.1186/s13039-015-0169-9)

Author

Selenti, N. Tzetis, M. Braoudaki, M. Giannikou, K. Kitsiou-Tzeli, S. Fryssira, H.

Abstract

The original version of this article [1] unfortunately contained a mistake. In the author list, the surname of author Krinio Giannikou was incorrectly spelled. The original article has now been updated with the correct spelling. © 2015 Selenti et al.

Published
2015

34. TAF1 Variants Are Associated with Dysmorphic Features, Intellectual Disability, and Neurological Manifestations

Author

O'Rawe, J.A. Wu, Y. Dörfel, M.J. Rope, A.F. Au, P.Y.B. Parboosingh, J.S. Moon, S. Kousi, M. Kosma, K. Smith, C.S. Tzetis, M. Schuette, J.L. Hufnagel, R.B. Prada, C.E. Martinez, F. Orellana, C. Crain, J. Caro-Llopis, A. Oltra, S. Monfort, S. Jiménez-Barrón, L.T. Swensen, J. Ellingwood, S. Smith, R. Fang, H. Ospina, S. Stegmann, S. Den Hollander, N. Mittelman, D. Highnam, G. Robison, R. Yang, E. Faivre, L. Roubertie, A. Rivière, J.-B. Monaghan, K.G. Wang, K. Davis, E.E. Katsanis, N. Kalscheuer, V.M. Wang, E.H. Metcalfe, K. Kleefstra, T. Innes, A.M. Kitsiou-Tzeli, S. Rosello, M. Keegan, C.E. Lyon, G.J.

Abstract

We describe an X-linked genetic syndrome associated with mutations in TAF1 and manifesting with global developmental delay, intellectual disability (ID), characteristic facial dysmorphology, generalized hypotonia, and variable neurologic features, all in male individuals. Simultaneous studies using diverse strategies led to the identification of nine families with overlapping clinical presentations and affected by de novo or maternally inherited single-nucleotide changes. Two additional families harboring large duplications involving TAF1 were also found to share phenotypic overlap with the probands harboring single-nucleotide changes, but they also demonstrated a severe neurodegeneration phenotype. Functional analysis with RNA-seq for one of the families suggested that the phenotype is associated with downregulation of a set of genes notably enriched with genes regulated by E-box proteins. In addition, knockdown and mutant studies of this gene in zebrafish have shown a quantifiable, albeit small, effect on a neuronal phenotype. Our results suggest that mutations in TAF1 play a critical role in the development of this X-linked ID syndrome. © 2015 The Authors.

Published
2015

35. An interstitial deletion at 8q23.1-q24.12 associated with Langer-Giedion syndrome/Trichorhinophalangeal syndrome (TRPS) type II and Cornelia de Lange syndrome 4

Author

Selenti, N. Tzetis, M. Braoudaki, M. Giannikou, K. Kitsiou-Tzeli, S. Fryssira, H.

Subjects
animal structures
Abstract

Background: There are three distinct subtypes of Trichorhinophalangeal syndrome (TRPS); TRPS type I, TRPS type II and TRPS type III. Features common to all three subtypes include sparse, slowly growing scalp hair, laterally sparse eyebrows, a bulbous tip of the nose (pear-shaped), and protruding ears. Langer-Giedion syndrome (LGS) or TRPS type II is a contiguous gene syndrome on 8q24.1, involving loss of functional copies of the TRPS1 and EXT1 genes. We report a male patient that was referred to the Department of Medical Genetics due to hypotonia and dysmorphic facial features. Results: Cytogenetic and array- Comparative Genomic Hybridization (aCGH) analysis revealed that the patient was a carrier of an interstitial deletion at 8q23.1-q24.12 of 12,5 Mb. Parental karyotype indicated that the father carried an apparently balanced insertion: 46, XY, der(10)ins(10;8)(q22;q23q24). Conclusions: This is the first report of an apparently balanced insertion including chromosomes 8 and 10 contributing to the etiology of LGS/ TRPS type II. Timely diagnosis of parental balanced chromosomal rearrangements can reduce the risk of subsequent miscarriages as well as abnormal offspring. © 2015 Selenti et al.

Published
2015

36. A boy with conduct disorder (CD), attention deficit hyperactivity disorder (ADHD), borderline intellectual disability, and 47,XXY syndrome in combination with a 7q11.23 duplication, 11p15.5 deletion, and 20q13.33 deletion

Author

Kolaitis, G. Bouwkamp, C.G. Papakonstantinou, A. Otheiti, I. Belivanaki, M. Haritaki, S. Korpa, T. Albani, Z. Terzioglou, E. Apostola, P. Skamnaki, A. Xaidara, A. Kosma, K. Kitsiou-Tzeli, S. Tzetis, M. and Kolaitis, G. Bouwkamp, C.G. Papakonstantinou, A. Otheiti, I. Belivanaki, M. Haritaki, S. Korpa, T. Albani, Z. Terzioglou, E. Apostola, P. Skamnaki, A. Xaidara, A. Kosma, K. Kitsiou-Tzeli, S. Tzetis, M.

Abstract

Background: This is a case with multiple chromosomal aberrations which are likely etiological for the observed psychiatric phenotype consisting of attention deficit hyperactivity and conduct disorders. Case presentation: We report on an 11 year-old boy, admitted to the pediatric hospital for behavioral difficulties and a delayed neurodevelopmental trajectory. A cytogenetic analysis and high-resolution microarray comparative genomic hybridization (CGH) analysis was performed. The cytogenetic analysis revealed 47,XYY syndrome, while CGH analysis revealed an additional duplication and two deletions. The 7q11.23 duplication is associated with speech and language delay and behavioral symptoms, a 20q13.33 deletion is associated with autism and early onset schizophrenia and the 11p15.5 microdeletion is associated with developmental delay, autism, and epilepsy. The patient underwent a psychiatric history, physical examination, laboratory testing, and a detailed cognitive, psychiatric, and occupational therapy evaluation which are reported here in detail. Conclusions: In the case of psychiatric patients presenting with complex genetic aberrations and additional psychosocial problems, traditional psychiatric and psychological approaches can lead to significantly improved functioning. Genetic diagnostic testing can be highly informative in the diagnostic process and may be applied to patients in psychiatry in case of complex clinical presentations. © 2016 The Author(s).

Published
2016

37. miR-15a and miR-24-1 as putative prognostic microRNA signatures for pediatric pilocytic astrocytomas and ependymomas

Author

Braoudaki, M. Lambrou, G.I. Giannikou, K. Papadodima, S.A. Lykoudi, A. Stefanaki, K. Sfakianos, G. Kolialexi, A. Tzortzatou-Stathopoulou, F. Tzetis, M. Kitsiou-Tzeli, S. Kanavakis, E. and Braoudaki, M. Lambrou, G.I. Giannikou, K. Papadodima, S.A. Lykoudi, A. Stefanaki, K. Sfakianos, G. Kolialexi, A. Tzortzatou-Stathopoulou, F. Tzetis, M. Kitsiou-Tzeli, S. Kanavakis, E.

Abstract

In the current setting, we attempted to verify and validate miRNA candidates relevant to pediatric primary brain tumor progression and outcome, in order to provide data regarding the identification of novel prognostic biomarkers. Overall, 26 resected brain tumors were studied from children diagnosed with pilocytic astrocytomas (PAs) (n = 19) and ependymomas (EPs) (n = 7). As controls, deceased children who underwent autopsy and were not present with any brain malignancy were used. The experimental approach included microarrays covering 1211 miRNAs. Quantitative real-time polymerase chain reaction (qRT-PCR) was performed to validate the expression profiles of miR-15a and miR-24-1. The multiparameter analyses were performed with MATLAB. Matching differentially expressed miRNAs were detected in both PAs and EPs, following distinct comparisons with the control cohort; however, in several cases, they exhibited tissue-specific expression profiles. On correlations between miRNA expression and EP progression or outcome, miR-15a and miR-24-1 were found upregulated in EP relapsed and EP deceased cases when compared to EP clinical remission cases and EP survivors, respectively. Taken together, following several distinct associations between miRNA expression and diverse clinical parameters, the current study repeatedly highlighted miR-15a and miR-24-1 as candidate oncogenic molecules associated with inferior prognosis in children diagnosed with ependymoma. © 2016, International Society of Oncology and BioMarkers (ISOBM).

Published
2016

38. A boy with conduct disorder (CD), attention deficit hyperactivity disorder (ADHD), borderline intellectual disability, and 47,XXY syndrome in combination with a 7q11.23 duplication, 11p15.5 deletion, and 20q13.33 deletion

Author

Kolaitis, G. (Gerasimos), Bouwkamp, C.G. (Christian G.), Papakonstantinou, A. (Alexia), Otheiti, I. (Ioanna), Belivanaki, M. (Maria), Haritaki, S. (Styliani), Korpa, T. (Terpsihori), Albani, Z. (Zinovia), Terzioglou, E. (Elena), Apostola, P. (Polyxeni), Skamnaki, A. (Aggeliki), Xaidara, A. (Athena), Kosma, K. (Konstantina), Kitsiou-Tzeli, S. (Sophia), Tzetis, M. (Maria), Kolaitis, G. (Gerasimos), Bouwkamp, C.G. (Christian G.), Papakonstantinou, A. (Alexia), Otheiti, I. (Ioanna), Belivanaki, M. (Maria), Haritaki, S. (Styliani), Korpa, T. (Terpsihori), Albani, Z. (Zinovia), Terzioglou, E. (Elena), Apostola, P. (Polyxeni), Skamnaki, A. (Aggeliki), Xaidara, A. (Athena), Kosma, K. (Konstantina), Kitsiou-Tzeli, S. (Sophia), and Tzetis, M. (Maria)

Abstract

_Background:_ This is a case with multiple chromosomal aberrations which are likely etiological for the observed psychiatric phenotype consisting of attention deficit hyperactivity and conduct disorders. _Case presentation:_ We report on an 11 year-old boy, admitted to the pediatric hospital for behavioral difficulties and a delayed neurodevelopmental trajectory. A cytogenetic analysis and high-resolution microarray comparative genomic hybridization (CGH) analysis was performed. The cytogenetic analysis revealed 47,XYY syndrome, while CGH analysis revealed an additional duplication and two deletions. The 7q11.23 duplication is associated with speech and language delay and behavioral symptoms, a 20q13.33 deletion is associated with autism and early onset schizophrenia and the 11p15.5 microdeletion is associated with developmental delay, autism, and epilepsy. The patient underwent a psychiatric history, physical examination, laboratory testing, and a detailed cognitive, psychiatric, and occupational therapy evaluation which are reported here in detail. _Conclusions:_ In the case of psychiatric patients presenting with complex genetic aberrations and additional psychosocial problems, traditional psychiatric and psychological approaches can lead to significantly improved functioning. Genetic diagnostic testing can be highly informative in the diagnostic process and may be applied to patients in psychiatry in case of complex clinical presentations.

Published
2016
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39. Aberrant microRNA expression in tumor mycosis fungoides

Author

Papadavid, E., primary, Braoudaki, M., additional, Bourdakou, M., additional, Lykoudi, A., additional, Nikolaou, V., additional, Tounta, G., additional, Ekonomidi, A., additional, Athanasiadis, E., additional, Spyrou, G., additional, Antoniou, C., additional, Kitsiou-Tzeli, S., additional, Rigopoulos, D., additional, and Kolialexi, A., additional

Published
2016
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40. Microduplication 3q13.2q13.31 identified in a male with dysmorphic features and multiple congenital anomalies

Author

Karavitakis, E. Kitsiou-Tzeli, S. Xaidara, A. Kosma, K. Makrythanasis, P. Apazidou, E. Kanavakis, E. Tzetis, M.

Abstract

Constitutional microdeletions affecting 3q13.2q13.31 are rare and attempts for genotype-phenotype correlations have only recently been made in a cohort of 28 patients. The major phenotypic features of this rare syndrome are hypotonia, developmental delay, and facial anomalies. In this study, we report on a male infant with a novel reciprocal 3.671Mb microduplication at the genomic region 3q13.2q13.31 associated with dysmorphic features and multiple congenital anomalies. The current patient was investigated by high-resolution array comparative genomic hybridization (aCGH). This is the first report of a microduplication 3q13.2q13.31 that shares a lot of common clinical features with those carrying the microdeletion. The 3q13.2q13.31 duplicated region in our patient contains nine dosage sensitive genes, amongst them the genes ATG3, CCDC80, KIAA2018, NAA50, ZDHHC23, DRD3, ZBTB20, GAP43, LSAMP. As it is the case for many other well-described reciprocal deletion/duplication syndromes, some have very different clinical features (Williams-Beuren deletion syndrome, WBS/WBS triplication) [Somerville et al. (2005); N Engl J Med 353:1694-1701], while others share similar phenotypic features (22q11.2 microdeletion/microduplication) [Portnoi (2009); Eur J Med Genet 52:88-93]. In conclusion, we describe the main phenotypic features of a possibly novel microduplication 3q13.2q13.31 syndrome. Additionally five of the dosage-sensitive genes and BOC gene are suggested to be responsible for the main phenotypic features. Evaluation of multiple patients with the microduplication is needed for full delineation of this syndrome. © 2013 Wiley Periodicals, Inc.

Published
2014

41. Are ALOX5AP gene SNPs a risk or protective factor for stroke?

Author

Papapostolou, A. Spengos, K. Fylaktou, I. Poulou, M. Gountas, I. Kitsiou-Tzeli, S. Kanavakis, E. Tzetis, M.

Abstract

ALOX5AP (5-lipoxygenase) has been recognized as a susceptibility gene for stroke. Using a case-control design, the whole coding and adjoining intronic regions of ALOX5AP were sequenced to study the role of SNPs and their interplay with other risk factors in Greek patients with stroke. Patients (n = 213) were classified by the Trial of Org 10172 in Acute Stroke Treatment (TOAST). Their mean age of was 58.9 ± 14.64, comprising 145 males. The control group consisted of 210 subjects, ethnicity, sex and age matched, with no stroke history. Risk factors (hyperlipidemia, hypertension, atrial fibrillation, migraine, CAD, diabetes, smoking and alcohol consumption) were assessed as confounding factors and comparisons were done using logistic regression analysis. SNPs rs4769055, rs202068154 and rs3803277 located in intronic regions of the gene and according to in silico programs EX_SKIP and HSF possibly affecting splicing of exons 1 and 2 of ALOX5AP, showed significantly different frequencies between patients and controls. The genotype frequencies of rs4769055: AA, of rs202068154: AC and of rs3803277: CA were significantly higher (p. < 0.001, 0.058) in controls than in patients. The results were indicative of a protective role of the three SNPs either in homozygosity or heterozygosity for MAF and more specifically rs3803277: CA/AA genotypes were protective against SVO stroke subtype. © 2014.

Published
2014

42. Diagnostic Exome Sequencing to Elucidate the Genetic Basis of Likely Recessive Disorders in Consanguineous Families

Author

Makrythanasis, P. Nelis, M. Santoni, F.A. Guipponi, M. Vannier, A. Béna, F. Gimelli, S. Stathaki, E. Temtamy, S. Mégarbané, A. Masri, A. Aglan, M.S. Zaki, M.S. Bottani, A. Fokstuen, S. Gwanmesia, L. Aliferis, K. Bustamante Eduardo, M. Stamoulis, G. Psoni, S. Kitsiou-Tzeli, S. Fryssira, H. Kanavakis, E. Al-Allawi, N. Sefiani, A. Al Hait, S. Elalaoui, S.C. Jalkh, N. Al-Gazali, L. Al-Jasmi, F. Bouhamed, H.C. Abdalla, E. Cooper, D.N. Hamamy, H. Antonarakis, S.E.

Abstract

Rare, atypical, and undiagnosed autosomal-recessive disorders frequently occur in the offspring of consanguineous couples. Current routine diagnostic genetic tests fail to establish a diagnosis in many cases. We employed exome sequencing to identify the underlying molecular defects in patients with unresolved but putatively autosomal-recessive disorders in consanguineous families and postulated that the pathogenic variants would reside within homozygous regions. Fifty consanguineous families participated in the study, with a wide spectrum of clinical phenotypes suggestive of autosomal-recessive inheritance, but with no definitive molecular diagnosis. DNA samples from the patient(s), unaffected sibling(s), and the parents were genotyped with a 720K SNP array. Exome sequencing and array CGH (comparative genomic hybridization) were then performed on one affected individual per family. High-confidence pathogenic variants were found in homozygosity in known disease-causing genes in 18 families (36%) (one by array CGH and 17 by exome sequencing), accounting for the clinical phenotype in whole or in part. In the remainder of the families, no causative variant in a known pathogenic gene was identified. Our study shows that exome sequencing, in addition to being a powerful diagnostic tool, promises to rapidly expand our knowledge of rare genetic Mendelian disorders and can be used to establish more detailed causative links between mutant genotypes and clinical phenotypes. © 2014 WILEY PERIODICALS, INC.

Published
2014

43. Phenotypic spectrum and prevalence of INPP5E mutations in Joubert Syndrome and related disorders

Author

Lorena, Travaglini, Francesco, Brancati, Jennifer, Silhavy, Miriam, Iannicelli, Elizabeth, Nickerson, Nadia, Elkhartoufi, Eric, Scott, Emily, Spencer, Stacey, Gabriel, Sophie, Thomas, Bruria, Ben Zeev, Enrico, Bertini, Eugen, Boltshauser, Malika, Chaouch, Maria, Roberta Cilio, Mirjam, M. de Jong, Hulya, Kayserili, Gonul, Ogur, Andrea, Poretti, Sabrina, Signorini, Graziella, Uziel, Maha, S. Zaki, Ali Pacha, L, Zankl, A, Leventer, R, Grattan Smith, P, Janecke, A, Koch, J, Freilinger, M, D'Hooghe, M, Sznajer, Y, Vilain, C, Van Coster, R, Demerleir, L, Dias, K, Moco, C, Moreira, A, Ae Kim, C, Maegawa, G, Dakovic, I, Loncarevic, D, Mejaski Bosnjak, V, Petkovic, D, Abdel Salam GM, Abdel Aleem, A, Marti, I, Pinard, Jm, Quijano Roy, S, Sigaudy, S, de Lonlay, P, Romano, S, Verloes, A, Touraine, R, Koenig, M, Dollfus, H, Flori, E, Fradin, M, Lagier Tourenne, C, Messer, J, Collignon, P, Penzien, Jm, Bussmann, C, Merkenschlager, A, Philippi, H, Kurlemann, G, Grundmann, K, Dacou Voutetakis, C, Kitsiou Tzeli, S, Pons, R, Jerney, J, Halldorsson, S, Johannsdottir, J, Ludvigsson, P, Phadke, Sr, Girisha, Km, Doshi, H, Udani, V, Kaul, M, Stuart, B, Magee, A, Spiegel, R, Shalev, S, Mandel, H, Lev, D, Michelson, M, Idit, M, Ben Zeev, B, Gershoni Baruch, R, Ficcadenti, A, Fischetto, R, Gentile, M, Della Monica, M, Pezzani, M, Graziano, C, Seri, M, Benedicenti, F, Stanzial, F, Borgatti, R, Romaniello, R, Accorsi, P, Battaglia, S, Fazzi, E, Giordano, L, Pinelli, L, Boccone, L, Barone, R, Sorge, G, Briatore, E, Bigoni, S, Ferlini, A, Donati, Ma, Biancheri, R, Caridi, G, Divizia, Mt, Faravelli, F, Ghiggeri, G, Mirabelli, M, Pessagno, A, Rossi, A, Uliana, V, Amorini, M, Briguglio, M, Briuglia, S, Salpietro, Cd, Tortorella, G, Adami, A, Bonati, Mt, Castorina, P, D'Arrigo, S, Lalatta, F, Marra, G, Moroni, I, Pantaleoni, C, Riva, D, Scelsa, B, Spaccini, L, Del Giudice, E, Ludwig, K, Permunian, A, Suppiej, A, Macaluso, C, Pichiecchio, A, Battini, R, Di Giacomo, M, Priolo, M, Timpani, P, Pagani, G, Di Sabato ML, Emma, F, Leuzzi, V, Mancini, F, Majore, S, Micalizzi, A, Parisi, P, Romani, M, Stringini, G, Zanni, G, Ulgheri, L, Pollazzon, M, Renieri, Alessandra, Belligni, E, Grosso, E, Pieri, I, Silengo, M, Devescovi, R, Greco, D, Romano, C, Cazzagon, M, Simonati, A, Al Tawari AA, Bastaki, L, Mégarbané, A, Sabolic Avramovska, V, Said, E, Stromme, P, Koul, R, Rajab, A, Azam, M, Barbot, C, Salih, Ma, Tabarki, B, Jocic Jakubi, B, Martorell Sampol, L, Rodriguez, B, Pascual Castroviejo, I, Gener, B, Puschmann, A, Starck, L, Capone, A, Lemke, J, Fluss, J, Niedrist, D, Hennekam, Rc, Wolf, N, Gouider Khouja, N, Kraoua, I, Ceylaner, S, Teber, S, Akgul, M, Anlar, B, Comu, S, Kayserili, H, Yüksel, A, Akcakus, M, Caglayan, Ao, Aldemir, O, Al Gazali, L, Sztriha, L, Nicholl, D, Woods, Cg, Bennett, C, Hurst, J, Sheridan, E, Barnicoat, A, Hemingway, C, Lees, M, Wakeling, E, Blair, E, Bernes, S, Sanchez, H, Clark, Ae, Demarco, E, Donahue, C, Sherr, E, Hahn, J, Sanger, Td, Gallager, Te, Daugherty, C, Krishnamoorthy, Ks, Sarco, D, Walsh, Ca, Mckanna, T, Milisa, J, Chung, Wk, De Vivo DC, Raynes, H, Schubert, R, Seward, A, Brooks, Dg, Goldstein, A, Caldwell, J, Finsecke, E, Maria, Bl, Holden, K, Cruse, Rp, Karaca, E, Swoboda, Kj, Viskochil, D, Dobyns, Wb, Colin, Johnson, Tania, Attié Bitach, Joseph, G. Gleeson, Enza, Maria Valente, ANS - Amsterdam Neuroscience, APH - Amsterdam Public Health, Human Genetics, Paediatrics, OMÜ, University of Zurich, Valente, Enza Maria, Fluss, Joel Victor, Travaglini, L, Brancati, F, Silhavy, J, Iannicelli, M, Nickerson, E, Elkhartoufi, N, Scott, E, Spencer, E, Gabriel, S, Thomas, S, Ben Zeev, B, Bertini, E, Boltshauser, E, Chaouch, M, Cilio, Mr, de Jong, Mm, Kayserili, H, Ogur, G, Poretti, A, Signorini, S, Uziel, G, Zaki, M, Johnson, C, Atti? Bitach, T, Gleeson, Jg, Valente, Em, International JSRD Study, Group, and DEL GIUDICE, Ennio

Subjects
Male, Ciliata -- Anatomy, Proband, 10039 Institute of Medical Genetics, Meckel syndrome, RPGRIP1L, Syndromes, INPP5E, MODIFIER, Phosphoric Monoester Hydrolases/genetics, Ciliopathies, Polycystic Kidney Diseases/diagnosis/genetics, CILIUM, 0302 clinical medicine, Gene Frequency, Cerebellum, Prenatal Diagnosis, RETINAL DEGENERATION, Prevalence, MECKEL, ciliopathies, Joubert syndrome and related disorders, Eye Abnormalities, Child, Genetics (clinical), Encephalocele, Joubert syndrome, Genetics, Polycystic Kidney Diseases, 0303 health sciences, ddc:618, Cerebellar Diseases/diagnosis/genetics, Kidney Diseases, Cystic, Pedigree, 3. Good health, Phenotype, Child, Preschool, Medical genetics, Female, Retinitis Pigmentosa, FORM, Ciliary Motility Disorders, Heterozygote, medicine.medical_specialty, 2716 Genetics (clinical), Adolescent, Molecular Sequence Data, Encephalocele/diagnosis/genetics, AHI1, 610 Medicine & health, Biology, Retina, Article, Ciliopathies, INPP5E, Joubert syndrome and related disorders, Meckel syndrome, NO, Ciliary Motility Disorders/diagnosis/genetics, 03 medical and health sciences, 1311 Genetics, Cerebellar Diseases, REVEALS, medicine, Humans, Abnormalities, Multiple, Amino Acid Sequence, Kidney Diseases, Cystic/diagnosis/genetics, abnormalities, multiple, adolescent, amino acid sequence, cerebellar diseases, cerebellum, child, preschool, ciliary motility disorders, encephalocele, eye abnormalities, female, heterozygote, humans, infant, kidney diseases, cystic, male, molecular sequence data, pedigree, phosphoric monoester hydrolases, polycystic kidney diseases, prenatal diagnosis, prevalence, retina, gene frequency, mutation, phenotype, 030304 developmental biology, Eye Abnormalities/diagnosis/genetics, COACH SYNDROME, Retina/abnormalities, Genetic heterogeneity, Respiration disorders -- Therapy, Infant, medicine.disease, Phosphoric Monoester Hydrolases, INPP5E mutation, 10036 Medical Clinic, Mutation, 030217 neurology & neurosurgery
Abstract

Joubert syndrome and related disorders (JSRD) are clinically and genetically heterogeneous ciliopathies sharing a peculiar midbrain–hindbrain malformation known as the ‘molar tooth sign’. To date, 19 causative genes have been identified, all coding for proteins of the primary cilium. There is clinical and genetic overlap with other ciliopathies, in particular with Meckel syndrome (MKS), that is allelic to JSRD at nine distinct loci. We previously identified the INPP5E gene as causative of JSRD in seven families linked to the JBTS1 locus, yet the phenotypic spectrum and prevalence of INPP5E mutations in JSRD and MKS remain largely unknown. To address this issue, we performed INPP5E mutation analysis in 483 probands, including 408 JSRD patients representative of all clinical subgroups and 75 MKS fetuses. We identified 12 different mutations in 17 probands from 11 JSRD families, with an overall 2.7% mutation frequency among JSRD. The most common clinical presentation among mutated families (7/11, 64%) was Joubert syndrome with ocular involvement (either progressive retinopathy and/or colobomas), while the remaining cases had pure JS. Kidney, liver and skeletal involvement were not observed. None of the MKS foetuses carried INPP5E mutations, indicating that the two ciliopathies are not allelic at this locus., peer-reviewed

Published
2013

44. Mutation screening in the Greek population and evaluation of NLGN3 and NLGN4X genes causal factors for autism

Author

Volaki, K. Pampanos, A. Kitsiou-Tzeli, S. Vrettou, C. Oikonomakis, V. Sofocleous, C. Kanavakis, E.

Abstract

Molecular and neurobiological evidence for the involvement of neuroligins (particularly NLGN3 and NLGN4X genes) in autistic disorder is accumulating. However, previous mutation screening studies on these two genes have yielded controversial results. The present study explores, for the first time, the contribution of NLGN3 and NLGN4X genetic variants in Greek patients with autistic disorder. We analyzed the full exonic sequence of NLGN3 and NLGN4X genes in 40 patients strictly fulfilling the Diagnostic and Statistical Manual of Mental Disorders, 4th ed. criteria for autistic disorder. We identified nine nucleotide changes in NLGN4X - one probable causative mutation (p.K378R) previously reported by our research group, one novel variant (c.-206G>C), one nonvalidated single nucleotide polymorphism (SNP, rs111953947), and six known human SNPs reported in the SNP database - and one known human SNP in NLGN3 also reported in the SNP database. The variants identified are expected to be benign. However, they should be investigated in the context of variants in interacting cellular pathways to assess their contribution to the etiology of autism. © 2013 Wolters Kluwer Health | Lippincott Williams and Wilkins.

Published
2013

45. Array comparative genomic hybridization as a clinical diagnostic tool in syndromic and nonsyndromic congenital heart disease

Author

Syrmou, A. Tzetis, M. Fryssira, H. Kosma, K. Oikonomakis, V. Giannikou, K. Makrythanasis, P. Kitsiou-Tzeli, S. Kanavakis, E.

Abstract

Background:Congenital heart diseases (CHDs) are often associated with other congenital anomalies, dysmorphic features, and developmental delay, and only a few cases of chromosomal abnormalities are detected by conventional cytogenetic techniques. The microarray comparative genomic hybridization (CGH) analysis allows the identification of submicroscopic genomic rearrangements.Methods: During the past 3 y, 55 of 330 patients referred for array CGH had CHD of unknown etiology plus at least one additional indication of abnormal chromosomal phenotype. High-resolution 1 × 244K or 4 × 180K Agilent arrays were used in this study (average resolution 7-13 kb).Results:Copy-number variations were detected in 37 of 55 patients, and in 29 of 37 patients there were genes that have been associated with CHD. All 37 patients had at least one additional phenotypic abnormality: 30 of 37 had one or more other congenital anomalies, 23 of 37 had dysmorphic features, 16 of 37 had intellectual disability, 13 of 37 had abnormal magnetic resonance imaging, 10 of 37 had hypotonia, and 7 of 37 had seizures. In 9 of 55 patients, unexpected genomic rearrangements in relation to their phenotype were identified.Conclusion:In patients with CHD and at least one additional indication of abnormal chromosomal phenotype, array CGH analysis could detect possible submicroscopic chromosomal abnormalities and provide proper genetic counseling. Copyright © 2013 International Pediatric Research Foundation, Inc.

Published
2013

46. Author reply

Author

Leze, E. Thomaidis, L. Kitsiou-Tzeli, S. Kanavakis, E.

Published
2013

49. An unusual case of cat-eye syndrome phenotype and extragonadal mature teratoma: Review of the literature

Author

Tzetis, M. Stefanaki, K. Syrmou, A. Kosma, K. Leze, E. Giannikou, K. Oikonomakis, V. Sofocleous, C. Choulakis, M. Kolialexi, A. Makrythanasis, P. Kitsiou-Tzeli, S.

Abstract

BACKGROUND Cat-Eye syndrome (CES) with teratoma has not been previously reported. We present the clinical and molecular findings of a 9-month-old girl with features of CES and also a palpable midline neck mass proved to be an extragonadal mature teratoma, additionally characterized by array comparative genomic hybridization (aCGH). RESULTS High resolution oligonucleotide-based aCGH confirmed that the supernumerary marker chromosome (SMC) derived from chromosome 22, as was indicated by molecular cytogenetic analysis with fluorescence in situ hybridization (FISH). Additionally, aCGH clarified the size, breakpoints, and gene content of the duplication (dup 22q11.1q11.21; size:1.6 Mb; breakpoints: 15,438,946-17,041,773; hg18). The teratoma tissue was also tested with aCGH, in which the CES duplication was not found, but the analysis revealed three aberrations: del Xp22.3 (108,864-2788,689; 2.7 Mb hg18), dup Yp11.2 (6688,491-7340,982; 0.65 Mb, hg18), and dup Yq11.2q11.23 (12,570,853-27,177,133; 14.61 Mb, hg18). These results indicated 46 XY (male) karyotype of the teratoma tissue, making this the second report of mature extragonadal teratoma in a female neonate, probably deriving from an included dizygotic twin of opposite sex (fetus in fetu). CONCLUSIONS Our findings extend the phenotypic spectrum of CES syndrome, a disorder with clinical variability, pointing out specific dosage-sensitive genes that might contribute to specific phenotypic features. Birth Defects Research (Part A) 2012. © 2012 Wiley Periodicals, Inc.

Published
2012

50. Psychomotor development of children born after preimplantation genetic diagnosis and parental stress evaluation

Author

Thomaidis, L. Kitsiou-Tzeli, S. Critselis, E. Drandakis, H. Touliatou, V. Mantoudis, S. Leze, E. Destouni, A. Traeger-Synodinos, J. Kafetzis, D. Kanavakis, E.

Subjects
lipids (amino acids, peptides, and proteins), respiratory system
Abstract

Background: The increasing number of children conceived following preimplantation genetic diagnosis (PGD) necessitates the evaluation of their motor and cognitive development. The primary study objective was to evaluate the physical, developmental, and neurological outcome of children born after PGD in Greece. In addition, the secondary study objective was to compare the stress levels regarding parental roles between parents of PGD children and those of naturally conceived children. Methods: A cross-sectional study design was applied. The study population consisted of 31 children (aged 2 months to 7.5 years) born after PGD analysis and their parents. The developmental evaluation of children included a detailed physical evaluation and cognitive assessment with the Bayley Scales of Infant Development. The parent stress index was applied to evaluate comparative parental stress levels between those parents of PGD children and those of naturally conceived healthy children. Results: High rates of caesarean deliveries, increased incidence of prematurity, multiples and low-birth weight were observed among the 31 PGD children. Overall, 24 of the 31 PGD children had cognitive skills within normal range [general developmental quotient (GDQ): 86-115], while 6 children had lower levels of cognitive skills (GDQ

Published
2012

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