Your search keyword '"Shen Gu"' showing total 27 results

1. Expression analysis of microRNAs and mRNAs in myofibroblast differentiation of lung resident mesenchymal stem cells

Author

Xiaodong Han, Shen Gu, Chaowen Shi, Xiang Chen, Honghui Cao, and Cong Wang

Subjects

0301 basic medicine, Cancer Research, Kruppel-Like Transcription Factors, Biology, Transforming Growth Factor beta1, Focal adhesion, Kruppel-Like Factor 4, Mice, 03 medical and health sciences, Idiopathic pulmonary fibrosis, 0302 clinical medicine, microRNA, Pulmonary fibrosis, medicine, Animals, Humans, Myofibroblasts, Lung, Molecular Biology, Tumor Suppressor Proteins, Mesenchymal stem cell, Gene Expression Regulation, Developmental, Cancer, Cell Differentiation, Mesenchymal Stem Cells, Cell Biology, medicine.disease, Idiopathic Pulmonary Fibrosis, MicroRNAs, 030104 developmental biology, KLF4, Cancer research, sense organs, Myofibroblast, 030217 neurology & neurosurgery, Transcription Factors, Developmental Biology

Abstract

Idiopathic pulmonary fibrosis (IPF) is a serious lung disease that involved the myofibroblast differentiation of lung resident mesenchymal stem cells (LR-MSCs). However, the specific molecular mechanisms of myofibroblast differentiation of LR-MSCs still remain a mystery. In this study, a comprehensive analysis of miRNAs and mRNAs changes in LR-MSCs treated with TGF-β1 was performed. Through computational approaches, the pivotal roles of differentially expressed miRNAs that were associated with tight junction, pathways in cancer, focal adhesion, and cytokine-cytokine receptor interaction were shown. Kruppel-like factor 4 (Klf4) and inhibitor of growth family, member 5 (Ing5) may be the targets for the therapy of pulmonary fibrosis by inhibiting myofibroblast differentiation of LR-MSCs and EMT. Collectively, a molecular paradigm for understanding myofibroblast differentiation of LR-MSCs in IPF was provided by the integrated miRNA/mRNA analyses.

Published

2020

2. Prognostic significance of combined pretreatment body mass index (BMI) and BMI loss in patients with esophageal cancer

Author

Chaohui Duan, Kun-Yi Pan, Wei-Zhen Fang, Wen-Shen Gu, Xiao-Hui Li, Chun-Yue Liu, and Rui Ding

Subjects

0301 basic medicine, medicine.medical_specialty, business.industry, Mortality rate, medicine.medical_treatment, nutritional and metabolic diseases, Subgroup analysis, Esophageal cancer, Overweight, medicine.disease, Gastroenterology, Radiation therapy, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Oncology, Esophagectomy, 030220 oncology & carcinogenesis, Internal medicine, medicine, medicine.symptom, Underweight, business, Body mass index

Abstract

Background: Body mass index (BMI) has been associated with a risk of esophageal cancer. However, the influence of BMI and BMI loss on people with esophageal cancer that were treated with different therapies has not been described in China. Methods: In total, 615 consecutive patients that underwent esophagectomy and/or chemotherapy/radiotherapy were classified according to the Asian-specific BMI (kg/m2) cutoff values. The impact of BMI and BMI loss on long-term overall survival (OS) was estimated using the Kaplan-Meier method and Cox proportional hazard models. Results: Multivariate analysis showed that overweight and obese patients had a more favorable survival than normal weight and underweight patients (p=0.017). Patients with a low BMI and high BMI loss before therapy had worse OS than others (p=0.001). Subgroup analysis showed that patients with a high BMI were more likely to suffer hypertension (p

Published

2019

3. MED27 Variants Cause Developmental Delay, Dystonia, and Cerebellar Hypoplasia

Author

Lydie Burglen, Michael F. Wangler, Leila Qebibo, Dimitri Krainc, Hilde Van Esch, Niccolo E. Mencacci, Pascal Joset, Henry Houlden, Christopher Carroll, Claudia Ravelli, Frances A. High, Linyan Meng, Jill V. Hunter, Anu Suomalainen, Dana Marafi, Shen Gu, Katleen Ballon, Scott E. Hickey, Nebal Waill Saadi, Yunru Shao, Bernabé I. Bustos, James R. Lupski, Pirjo Isohanni, Stephanie M. Brooks, Paulina Gonzalez-Latapi, Fatima Rahman, Reza Maroofian, Chiara De Luca, Stephanie Efthymiou, Jasem Y. Al-Hashel, Tadahiro Mitani, Steven J. Lubbe, Brett H. Graham, Yavuz Sahin, Katharina Steindl, Shazia Maqbool, Davut Pehlivan, Alejandro V. Hernandez, Amy Armstrong-Javors, Daniel G. Calame, Annette Hackenberg, Jennifer E. Posey, Anita Rauch, Walaa A. Kamel, Yaping Yang, HUS Children and Adolescents, Research Programs Unit, Anu Wartiovaara / Principal Investigator, Children's Hospital, Clinicum, STEMM - Stem Cells and Metabolism Research Program, Faculty of Medicine, University of Helsinki, Lastenneurologian yksikkö, Helsinki University Hospital Area, HUS Helsinki and Uusimaa Hospital District, and FinMIT Centre of Excellence (Wartiovaara Anu)

Subjects

0301 basic medicine, Adult, Cerebellum, Adolescent, Developmental Disabilities, Biology, Nervous System Malformations, 3124 Neurology and psychiatry, Cataract, 03 medical and health sciences, 0302 clinical medicine, Mediator, Intellectual disability, Exome Sequencing, medicine, Humans, Global developmental delay, Amino Acid Sequence, Child, Cerebellar hypoplasia, Exome sequencing, Dystonia, Genetics, Epilepsy, Mediator Complex, 3112 Neurosciences, Genetic Variation, Infant, medicine.disease, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Phenotype, Neurology, Child, Preschool, Neurology (clinical), Neural development, 030217 neurology & neurosurgery

Abstract

The Mediator multiprotein complex functions as a regulator of RNA polymerase II-catalyzed gene transcription. In this study, exome sequencing (ES) detected biallelic putative disease-causing variants in MED27, encoding Mediator Complex Subunit 27, in sixteen patients from eleven families with a novel neurodevelopmental syndrome. Patient phenotypes are highly homogeneous including global developmental delay, intellectual disability, axial hypotonia with distal spasticity, dystonic movements, and cerebellar hypoplasia. Seizures and cataracts were noted in severely affected individuals. Identification of multiple patients with biallelic MED27 variants supports the critical role of MED27 in normal human neural development, particularly for the cerebellum. This article is protected by copyright. All rights reserved.

Published

2021

4. Higher content of microcystin‐leucine‐arginine promotes the survival of intrahepatic cholangiocarcinoma cells via regulating SET resulting in the poorer prognosis of patients

Author

Jun Chen, Shen Gu, Jian He, Qun Zhou, Xiao Fu, Xiaopeng Yan, Wei He, Xiaodong Han, Minghao Yan, and Yudong Qiu

Subjects

Male, 0301 basic medicine, Oncology, medicine.medical_specialty, Multivariate analysis, Microcystins, Arginine, medicine.medical_treatment, Disease-Free Survival, Cholangiocarcinoma, 03 medical and health sciences, 0302 clinical medicine, intrahepatic cholangiocarcinoma, Leucine, Risk Factors, Internal medicine, microcystin‐leucine‐arginine, medicine, Humans, Histone Chaperones, RNA, Messenger, RNA, Small Interfering, Intrahepatic Cholangiocarcinoma, Cell Proliferation, Proportional Hazards Models, Retrospective Studies, business.industry, Incidence (epidemiology), Retrospective cohort study, Original Articles, Cell Biology, General Medicine, Middle Aged, Prognosis, PP2A, DNA-Binding Proteins, 030104 developmental biology, Bile Duct Neoplasms, Cell culture, 030220 oncology & carcinogenesis, Immunohistochemistry, Original Article, Female, RNA Interference, Neoplasm Recurrence, Local, Hepatectomy, business, SET

Abstract

Background & Aims Intrahepatic cholangiocarcinoma (ICC) has over the last 10 years become the focus of increasing concern largely due to its rising incidence and high mortality rates worldwide. Microcystin‐leucine‐arginine (MC‐LR) has been reported to be carcinogenic, but there are no data on the linkage between MC‐LR and ICC. This study aimed to explore whether the content levels of MC‐LR in the tumour tissues of ICC patients be associated with the prognosis and if so, to characterize the mechanism in ICC cells. Methods We conducted a retrospective study to evaluate the prognostic value of MC‐LR in ICC after resection. All patients were divided into two groups according to the content of MC‐LR in tumour via immunohistochemistry: low‐MC‐LR group (n = 28) and high‐MC‐LR group (n = 30). Results Multivariate analysis showed high‐MC‐LR level was the prognostic factor for OS and RFS after hepatectomy (P = .011 and .044). We demonstrated that MC‐LR could promote the survival of human ICC cell lines and SET was identified as an important mRNA in the progression via RNA array. Conclusions We provide evidence that MC‐LR was an independent prognostic factor for ICC in humans by modulating the expression of SET in human ICC cells., MC‐LR was able to inhibit the activity of PP2A and activate MEK‐ERK signalling pathway via up‐regulating the expression of SET, resulting in the ICC cell proliferation and poor prognosis.

Published

2020

5. Microcystin-leucine-arginine induces liver fibrosis by activating the Hedgehog pathway in hepatic stellate cells

Author

Xiaodong Han, Xiannan Meng, Cong Wang, Zou Xiang, Minghao Yan, Shen Gu, and Yudong Qiu

Subjects

0301 basic medicine, Liver Cirrhosis, Male, Arginine, Microcystins, Biophysics, Apoptosis, Zinc Finger Protein Gli2, Biochemistry, Zinc Finger Protein GLI1, Cell Line, 03 medical and health sciences, 0302 clinical medicine, GLI2, Hepatic Stellate Cells, Animals, Humans, Hedgehog Proteins, Viability assay, Molecular Biology, Transcription factor, Cell Proliferation, Mice, Inbred BALB C, Chemistry, Nuclear Proteins, Cell Differentiation, Cell Biology, Cell cycle, Molecular biology, Hedgehog signaling pathway, 030104 developmental biology, Liver, 030220 oncology & carcinogenesis, Hepatic stellate cell, Marine Toxins, Leucine, Signal Transduction

Abstract

Microcystin-leucine-arginine (MC-LR), produced by cyanobacteria, accumulates in the liver through blood circulation. We investigated the impact of MC-LR on liver fibrosis. Mice received a daily injection of MC-LR at various concentrations for 14 consecutive days aa and then mouse liver was obtained for histopathological and immunoblot analysis. Next, a human hepatic stellate cell line (LX-2) was treated with MC-LR at various concentrations followed by measurement of cell viability, cell cycle and relevant protein expression levels. Our data confirmed the induction of mouse liver fibrosis after exposure to MC-LR at 15 μg/kg and 30 μg/kg. Furthermore, we demonstrated that LX-2 cells could uptake MC-LR, resulting in cell proliferation and differentiation through impacting the Hedgehog signaling after the treatment of MC-LR at 50 nM. Our data supported that MC- LR could induce liver fibrosis by modulating the expression of the transcription factor Gli2 in the Hedgehog signaling in hepatic stellate cells.

Published

2020

6. Predicting human genes susceptible to genomic instability associated with Alu/Alu-mediated rearrangements

Author

Ian M. Campbell, Amy M. Breman, Renqian Du, Pawel Stankiewicz, Chad A. Shaw, Grzegorz Ira, Shen Gu, Christine R. Beck, Zeynep Coban-Akdemir, Xiaofei Song, and James R. Lupski

Subjects

0301 basic medicine, Genetics, DNA Copy Number Variations, Genome, Human, Breakpoint, Method, Alu element, Biology, Genome, Genomic Instability, Human genetics, 03 medical and health sciences, Short Interspersed Element, 030104 developmental biology, Alu Elements, Gene Duplication, Gene duplication, Humans, Human genome, Copy-number variation, Genetics (clinical), Sequence Deletion

Abstract

Alu elements, the short interspersed element numbering more than 1 million copies per human genome, can mediate the formation of copy number variants (CNVs) between substrate pairs. These Alu/Alu-mediated rearrangements (AAMRs) can result in pathogenic variants that cause diseases. To investigate the impact of AAMR on gene variation and human health, we first characterized Alus that are involved in mediating CNVs (CNV-Alus) and observed that these Alus tend to be evolutionarily younger. We then computationally generated, with the assistance of a supercomputer, a test data set consisting of 78 million Alu pairs and predicted ∼18% of them are potentially susceptible to AAMR. We further determined the relative risk of AAMR in 12,074 OMIM genes using the count of predicted CNV-Alu pairs and experimentally validated the predictions with 89 samples selected by correlating predicted hotspots with a database of CNVs identified by clinical chromosomal microarrays (CMAs) on the genomes of approximately 54,000 subjects. We fine-mapped 47 duplications, 40 deletions, and two complex rearrangements and examined a total of 52 breakpoint junctions of simple CNVs. Overall, 94% of the candidate breakpoints were at least partially Alu mediated. We successfully predicted all (100%) of Alu pairs that mediated deletions (n = 21) and achieved an 87% positive predictive value overall when including AAMR-generated deletions and duplications. We provided a tool, AluAluCNVpredictor, for assessing AAMR hotspots and their role in human disease. These results demonstrate the utility of our predictive model and provide insights into the genomic features and molecular mechanisms underlying AAMR.

Published

2018

7. Marker chromosome genomic structure and temporal origin implicate a chromoanasynthesis event in a family with pleiotropic psychiatric phenotypes

Author

Shane McCarthy, Deborah L. Levy, Christopher M. Grochowski, Shen Gu, James R. Lupski, Claudia M.B. Carvalho, Anna Lindstrand, Kristen J. Brennand, Zechen Chong, Dheeraj Malhotra, Uwe Rudolph, Jonathan Sebat, Julia Tcw, and Bo Yuan

Subjects

Genetic Markers, Male, 0301 basic medicine, Proband, Bipolar Disorder, Marker chromosome, Chromosome Disorders, Chromosome 9, Biology, Article, Structural variation, 03 medical and health sciences, 0302 clinical medicine, Chromosome Duplication, Genotype, Genetics, Humans, In Situ Hybridization, Fluorescence, Genetics (clinical), Psychiatric genetics, Chromosome Aberrations, Comparative Genomic Hybridization, Whole Genome Sequencing, Pedigree, Phenotype, 030104 developmental biology, Psychotic Disorders, Karyotyping, Female, Chromosomes, Human, Pair 9, 030217 neurology & neurosurgery, Comparative genomic hybridization, SNP array

Abstract

Small supernumerary marker chromosomes (sSMC) are chromosomal fragments difficult to characterize genomically. Here, we detail a proband with schizoaffective disorder and a mother with bipolar disorder with psychotic features who present with a marker chromosome that segregates with disease. We explored the architecture of this marker and investigated its temporal origin. Array comparative genomic hybridization (aCGH) analysis revealed three duplications and three triplications that spanned the short arm of chromosome 9, suggestive of a chromoanasynthesis-like event. Segregation of marker genotypes, phased using sSMC mosaicism in the mother, provided evidence that it was generated during a germline-level event in the proband's maternal grandmother. Whole-genome sequencing (WGS) was performed to resolve the structure and junctions of the chromosomal fragments, revealing further complexities. While structural variations have been previously associated with neuropsychiatric disorders and marker chromosomes, here we detail the precise architecture, human life-cycle genesis, and propose a DNA replicative/repair mechanism underlying formation.

Published

2018

8. Mutation Detection of Fibroblast Growth Factor Receptor 3 for Infiltrative Hepatocellular Carcinoma by Whole-Exome Sequencing

Author

Shen Gu, Hui Zhao, Cong Shao, Luoshun Huang, Xu Fu, Xiaopeng Yan, Jun Chen, Yudong Qiu, and Chuang Chen

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Carcinoma, Hepatocellular, Physiology, medicine.medical_treatment, Biology, Real-Time Polymerase Chain Reaction, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, medicine, Hepatectomy, Humans, Receptor, Fibroblast Growth Factor, Type 3, Exome sequencing, Sanger sequencing, Oncogene, Gene Expression Profiling, Liver Neoplasms, Gastroenterology, Sequence Analysis, DNA, Fibroblast growth factor receptor 3, medicine.disease, Immunohistochemistry, 030104 developmental biology, Tumor progression, Case-Control Studies, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, Mutation, Cancer research, symbols

Abstract

Gene data on infiltrative hepatocellular carcinoma (iHCC) are still unknown. This study aims to identify the gene expression signature of iHCC compared with single nodular (SN)-type HCC according to the gross classification. The whole-exome sequencing was performed in six matched HCC tumor/normal pairs (three infiltrative type and three single nodular type) from six patients who received curative hepatectomy. Subsequent validation using Sanger sequencing and real-time PCR was performed in 30 HCC tumor samples (15 infiltrative type and 15 single nodular type). Following whole-exome sequencing, Sanger sequencing, and bioinformatics analysis, it revealed significant difference of iHCC from SN-type HCC in gene patterns. Particularly, a typical growth factor receptor tyrosine kinase FGFR3 was predominantly mutated in iHCC. One nonsynonymous variant c.G285T (p.Q95H) and five additional mutations (c.G938A:p.G313D, c.G1291A:p.A431T, c.C1355G:p.T452R, c.C1377T:p.L459L, and c.A1445T:p.E482V) were investigated by whole-exome and Sanger sequencing, respectively. Immunohistochemical studies confirmed the specific expression of FGFR3 in iHCC samples. Our studies indicated that FGFR3 may be a candidate oncogene in tumor progression and a promising therapeutic target in iHCC patients who had early recurrence.

Published

2017

9. Distinct patterns of complex rearrangements and a mutational signature of microhomeology are frequently observed in PLP1 copy number gain structural variants

Author

Karen J. Woodward, Hadia Hijazi, Vahid Bahrambeigi, Xiaofei Song, Shen Gu, Grace M. Hobson, Christine R. Beck, James R. Lupski, Claudia M.B. Carvalho, Karen Sperle, Christopher M. Grochowski, and Pavel Seeman

Subjects

0301 basic medicine, Genome instability, lcsh:QH426-470, DNA Copy Number Variations, Duplication, Sequence analysis, lcsh:Medicine, Locus (genetics), Computational biology, Biology, Polymorphism, Single Nucleotide, Microhomeology, Genomic Instability, RBM, Chromosome Breakpoints, 03 medical and health sciences, 0302 clinical medicine, Gene Duplication, HR, Gene duplication, Genetics, Humans, Genetic Predisposition to Disease, PMD, Myelin Proteolipid Protein, Molecular Biology, Genetic Association Studies, Genetics (clinical), Gene Rearrangement, Comparative Genomic Hybridization, Genome, Human, Research, lcsh:R, BIR, Breakpoint, Genomic rearrangements, Genomics, MMBIR, Human genetics, lcsh:Genetics, 030104 developmental biology, Mutation, LCR, Molecular Medicine, Human genome, 030217 neurology & neurosurgery, Reference genome

Abstract

Background We investigated the features of the genomic rearrangements in a cohort of 50 male individuals with proteolipid protein 1 (PLP1) copy number gain events who were ascertained with Pelizaeus-Merzbacher disease (PMD; MIM: 312080). We then compared our new data to previous structural variant mutagenesis studies involving the Xq22 region of the human genome. The aggregate data from 159 sequenced join-points (discontinuous sequences in the reference genome that are joined during the rearrangement process) were studied. Analysis of these data from 150 individuals enabled the spectrum and relative distribution of the underlying genomic mutational signatures to be delineated. Methods Genomic rearrangements in PMD individuals with PLP1 copy number gain events were investigated by high-density customized array or clinical chromosomal microarray analysis and breakpoint junction sequence analysis. Results High-density customized array showed that the majority of cases (33/50; ~ 66%) present with single duplications, although complex genomic rearrangements (CGRs) are also frequent (17/50; ~ 34%). Breakpoint mapping to nucleotide resolution revealed further previously unknown structural and sequence complexities, even in single duplications. Meta-analysis of all studied rearrangements that occur at the PLP1 locus showed that single duplications were found in ~ 54% of individuals and that, among all CGR cases, triplication flanked by duplications is the most frequent CGR array CGH pattern observed. Importantly, in ~ 32% of join-points, there is evidence for a mutational signature of microhomeology (highly similar yet imperfect sequence matches). Conclusions These data reveal a high frequency of CGRs at the PLP1 locus and support the assertion that replication-based mechanisms are prominent contributors to the formation of CGRs at Xq22. We propose that microhomeology can facilitate template switching, by stabilizing strand annealing of the primer using W-C base complementarity, and is a mutational signature for replicative repair.

Published

2019

10. The Genomics of Arthrogryposis, a Complex Trait: Candidate Genes and Further Evidence for Oligogenic Inheritance

Author

Maja Hempel, Jennifer E. Posey, Yavuz Bayram, Eric Boerwinkle, Katta M. Girisha, Ender Karaca, Timur Yildirim, Anju Shukla, Jaya Punetha, Ilhan A. Bayhan, Harsha Doddapaneni, Christopher M. Grochowski, Davut Gul, Aysegul Bursali, Davut Pehlivan, Elif Yilmaz Gulec, Richard A. Gibbs, Zeynep Ocak, Jawid M Fatih, Ibrahim Sahin, Gozde Yesil, Burhan Balta, Onur Yildiz, Alper Gezdirici, Tatjana Bierhals, James R. Lupski, Zafer Yüksel, Hatice Mutlu Albayrak, Donna M. Muzny, Jianhong Hu, Fatma Silan, Zeynep Coban Akdemir, Shen Gu, Öztürk Özdemir, Haktan Bağış Erdem, Periyasamy Radhakrishnan, Burcu Tabakci, Beyhan Tüysüz, Nilay Güneş, Shalini N. Jhangiani, Osman Yeşilbaş, Yavuz Sahin, Nursel Elcioglu, Muhsin Elmas, Konstantinos Tsiakas, Sedat Isikay, Pehlivan, Davut, Bayram, Yavuz, Gunes, Nilay, Akdemir, Zeynep Coban, Shukla, Anju, Bierhals, Tatjana, Tabakci, Burcu, Sahin, Yavuz, Gezdirici, Alper, Fatih, Jawid M., Gulec, Elif Yilmaz, Yesil, Gozde, Punetha, Jaya, Ocak, Zeynep, Grochowski, Christopher M., Karaca, Ender, Albayrak, Hatice Mutlu, Radhakrishnan, Periyasamy, Erdem, Haktan Bagis, Sahin, Ibrahim, Yildirim, Timur, Bayhan, Ilhan A., Bursali, Aysegul, Elmas, Muhsin, Yuksel, Zafer, Ozdemir, Ozturk, Silan, Fatma, Yildiz, Onur, Yesilbas, Osman, Isikay, Sedat, Balta, Burhan, Gu, Shen, Jhangiani, Shalini N., Doddapaneni, Harsha, Hu, Jianhong, Muzny, Donna M., Boerwinkle, Eric, Gibbs, Richard A., Tsiakas, Konstantinos, Hempel, Maja, Girisha, Katta Mohan, Gul, Davut, Posey, Jennifer E., Elcioglu, Nursel H., Tuysuz, Beyhan, Lupski, James R., HKÜ, Sağlık Bilimleri Fakültesi, Fizyoterapi ve Rehabilitasyon Bölümü, YEŞİL, Gözde, İÜC, Cerrahpaşa Tıp Fakültesi, Dahili Tıp Bilimleri Bölümü, and OMÜ

Subjects

Male, 0301 basic medicine, Multifactorial Inheritance, Candidate gene, Vesicular Transport Proteins, DE-NOVO, DISEASE, Cohort Studies, MYOPATHY, MULTIPLEX CONGENITA, SKELETAL-MUSCLE, MUTATIONS, PATIENT, FAT1, MECHANISMS, DELETION, 0302 clinical medicine, Candidate Genes and Further Evidence for Oligogenic Inheritance-, AMERICAN JOURNAL OF HUMAN GENETICS, cilt.105, ss.132-150, 2019 [Pehlivan D., Bayram Y., Gunes N., Akdemir Z. C. , Shukla A., Bierhals T., TABAKCI B., Sahin Y., Gezdirici A., Fatih J. M. , et al., -The Genomics of Arthrogryposis, a Complex Trait], Connectin, Copy-number variation, Child, Genetics (clinical), Exome sequencing, Arthrogryposis, Genetics, Mosaicism, Oligogenic Inheritance, Genomics, Pedigree, 3. Good health, Child, Preschool, Female, medicine.symptom, Adult, Genetic Markers, Adolescent, DNA Copy Number Variations, Gestational Age, Locus (genetics), Biology, Article, Young Adult, 03 medical and health sciences, Exome Sequencing, medicine, Humans, Genetic heterogeneity, Infant, Newborn, Infant, Ryanodine Receptor Calcium Release Channel, 030104 developmental biology, Mutation, 030217 neurology & neurosurgery, Comparative genomic hybridization

Abstract

Erdem, Haktan Bagis/0000-0002-4391-1387; Albayrak, Hatice Mutlu/0000-0001-5624-3878; isikay, sedat/0000-0003-0103-9612; Grochowski, Christopher/0000-0002-3884-7720; Gezdirici, Alper/0000-0002-2432-9279; KM, Girisha/0000-0002-0139-8239; Gu, Shen/0000-0003-3107-1218; YESIL, GOZDE/0000-0003-1964-6306; Gezdirici, Alper/0000-0002-2432-9279; Tuysuz, Beyhan/0000-0002-9620-5021; Fatih, Jawid/0000-0002-3927-2711; YUKSEL, Zafer/0000-0002-2085-5773; Balta, Burhan/0000-0003-2672-2493; Posey, Jennifer/0000-0003-4814-6765; Bayhan, Ilhan/0000-0001-8308-1309; Punetha, Jaya/0000-0002-6774-4464; YILDIRIM, Timur/0000-0003-0291-7632 WOS:000473723000011 PubMed ID: 31230720 Arthrogryposis is a clinical finding that is present either as a feature of a neuromuscular condition or as part of a systemic disease in over 400 Mendelian conditions. The underlying molecular etiology remains largely unknown because of genetic and phenotypic heterogeneity. We applied exome sequencing (ES) in a cohort of 89 families with the clinical sign of arthrogryposis. Additional molecular techniques including array comparative genomic hybridization (aCGH) and Droplet Digital PCR (ddPCR) were performed on individuals who were found to have pathogenic copy number variants (CNVs) and mosaicism, respectively. A molecular diagnosis was established in 65.2% (58/89) of families. Eleven out of 58 families (19.0%) showed evidence for potential involvement of pathogenic variation at more than one locus, probably driven by absence of heterozygosity (AOH) burden due to identity-by-descent (IBD). RYR3, MYOM2, ERGIC1, SPTBN4, and ABCA7 represent genes, identified in two or more families, for which mutations are probably causative for arthrogryposis. We also provide evidence for the involvement of CNVs in the etiology of arthrogryposis and for the idea that both mono-allelic and bi-allelic variants in the same gene cause either similar or distinct syndromes. We were able to identify the molecular etiology in nine out of 20 families who underwent reanalysis. In summary, our data from family-based ES further delineate the molecular etiology of arthrogryposis, yielded several candidate disease-associated genes, and provide evidence for mutational burden in a biological pathway or network. Our study also highlights the importance of reanalysis of individuals with unsolved diagnoses in conjunction with sequencing extended family members. National Human Genome Research Institute (NHGRI)United States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Human Genome Research Institute (NHGRI) [UM1 HG006542]; National Heart, Lung, and Blood Institute (NHLBI)United States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Heart Lung & Blood Institute (NHLBI) [UM1 HG006542]; NHGRIUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Human Genome Research Institute (NHGRI) [K08 HG008986]; National Institutes of Health - Brain Disorders and Development Training Grant [T32 NS043124-17]; Clinical Research Training Scholarship in Neuromuscular Disease; Tubitak project, TurkeyTurkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [217S675]; Indian Council of Medical Research, New Delhi, IndiaIndian Council of Medical Research (ICMR) [5/13/58/2015/NCD-III]; [R35 NS105078]; [512848]; NATIONAL HUMAN GENOME RESEARCH INSTITUTEUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Human Genome Research Institute (NHGRI) [K08HG008986, UM1HG006542, K08HG008986, UM1HG006542, UM1HG006542, UM1HG006542, K08HG008986, UM1HG006542] Funding Source: NIH RePORTER; NATIONAL INSTITUTE OF NEUROLOGICAL DISORDERS AND STROKEUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Institute of Neurological Disorders & Stroke (NINDS) [R35NS105078, T32NS043124, T32NS043124, T32NS043124, R35NS105078, T32NS043124, T32NS043124, R35NS105078, T32NS043124, T32NS043124, T32NS043124, R35NS105078] Funding Source: NIH RePORTER This work was supported in part by R35 NS105078 and MDA#512848 to J.R.L. and a jointly funded National Human Genome Research Institute (NHGRI) and National Heart, Lung, and Blood Institute (NHLBI) grant to the Baylor-Hopkins Center for Mendelian Genomics (UM1 HG006542). J.E.P. is supported by NHGRI K08 HG008986. D.P. is supported by the National Institutes of Health - Brain Disorders and Development Training Grant (T32 NS043124-17) and a Clinical Research Training Scholarship in Neuromuscular Disease partnered by the American Brain Foundation (ABF) and Muscle Study Group (MSG). This study is partly funded by Tubitak project number 217S675, Turkey to N.E. and B.T.. This study is partly funded by Indian Council of Medical Research, New Delhi, India with File no.: No. 5/13/58/2015/NCD-III to A.S.

Published

2019

11. Copy number variant and runs of homozygosity detection by microarrays enabled more precise molecular diagnoses in 11,020 clinical exome cases

Author

Pengfei Liu, Allen H. Jiang, James R. Lupski, Carlos A. Bacino, Jennifer Scull, Seema R. Lalani, Xia Wang, Amy M. Breman, Rajarshi Ghosh, Weimin He, Yaping Yang, Arthur L. Beaudet, Avinash V. Dharmadhikari, Fan Xia, Bo Yuan, Donna M. Muzny, Sami Al Masri, Weimin Bi, Chunjing Qu, Janice L. Smith, Hongzheng Dai, Rui Xiao, Jennifer E. Posey, Shen Gu, Ankita Patel, Sau Wai Cheung, Francesco Vetrini, Linyan Meng, Alicia Braxton, Pawel Stankiewicz, Richard A. Gibbs, Chad A. Shaw, Theodore Chiang, Christine M. Eng, and Patricia A. Ward

Subjects

Exome sequencing, Male, 0301 basic medicine, lcsh:QH426-470, DNA Copy Number Variations, lcsh:Medicine, Single-nucleotide polymorphism, Microarray, Runs of Homozygosity, Compound heterozygosity, Structural variation, 03 medical and health sciences, 0302 clinical medicine, Limit of Detection, Genetics, Humans, Medicine, Genetic Testing, Copy-number variation, Exonic CNV in AR disorders, Molecular Biology, Exome, Genetics (clinical), Chromosome Aberrations, business.industry, Research, lcsh:R, ROH, Homozygote, Uniparental disomy, Microarray Analysis, medicine.disease, 3. Good health, lcsh:Genetics, 030104 developmental biology, 030220 oncology & carcinogenesis, Molecular Medicine, Female, Dual molecular diagnoses, business

Abstract

Background Exome sequencing (ES) has been successfully applied in clinical detection of single nucleotide variants (SNVs) and small indels. However, identification of copy number variants (CNVs) using ES data remains challenging. The purpose of this study is to understand the contribution of CNVs and copy neutral runs of homozygosity (ROH) in molecular diagnosis of patients referred for ES. Methods In a cohort of 11,020 consecutive ES patients, an Illumina SNP array analysis interrogating mostly coding SNPs was performed as a quality control (QC) measurement and for CNV/ROH detection. Among these patients, clinical chromosomal microarray analysis (CMA) was performed at Baylor Genetics (BG) on 3229 patients, either before, concurrently, or after ES. We retrospectively analyzed the findings from CMA and the QC array. Results The QC array can detect ~ 70% of pathogenic/likely pathogenic CNVs (PCNVs) detectable by CMA. Out of the 11,020 ES cases, the QC array identified PCNVs in 327 patients and uniparental disomy (UPD) disorder-related ROH in 10 patients. The overall PCNV/UPD detection rate was 5.9% in the 3229 ES patients who also had CMA at BG; PCNV/UPD detection rate was higher in concurrent ES and CMA than in ES with prior CMA (7.2% vs 4.6%). The PCNVs/UPD contributed to the molecular diagnoses in 17.4% (189/1089) of molecularly diagnosed ES cases with CMA and were estimated to contribute in 10.6% of all molecularly diagnosed ES cases. Dual diagnoses with both PCNVs and SNVs were detected in 38 patients. PCNVs affecting single recessive disorder genes in a compound heterozygous state with SNVs were detected in 4 patients, and homozygous deletions (mostly exonic deletions) were detected in 17 patients. A higher PCNV detection rate was observed for patients with syndromic phenotypes and/or cardiovascular abnormalities. Conclusions Our clinical genomics study demonstrates that detection of PCNV/UPD through the QC array or CMA increases ES diagnostic rate, provides more precise molecular diagnosis for dominant as well as recessive traits, and enables more complete genetic diagnoses in patients with dual or multiple molecular diagnoses. Concurrent ES and CMA using an array with exonic coverage for disease genes enables most effective detection of both CNVs and SNVs and therefore is recommended especially in time-sensitive clinical situations. Electronic supplementary material The online version of this article (10.1186/s13073-019-0639-5) contains supplementary material, which is available to authorized users.

Published

2019

12. Chromosomal microarray analysis on uncultured chorionic villus sampling can be complicated by confined placental mosaicism for aneuploidy and microdeletions

Author

Madison Jernegan, Janice L. Smith, Amy M. Breman, Shen Gu, Sandra Peacock, and Ignatia B. Van den Veyver

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Amniotic fluid, Aneuploidy, Chorionic villus sampling, Context (language use), 030105 genetics & heredity, Biology, 03 medical and health sciences, 0302 clinical medicine, Pregnancy, Biopsy, medicine, Humans, Copy-number variation, Confined placental mosaicism, Genetics (clinical), Retrospective Studies, Fetus, 030219 obstetrics & reproductive medicine, medicine.diagnostic_test, Mosaicism, Obstetrics and Gynecology, medicine.disease, Microarray Analysis, Chorionic Villi Sampling, Female

Abstract

Objective This study aims to establish the incidence and implications of confined placental mosaicism (CPM) in the context of prenatal chromosomal microarray analysis (CMA). Methods We retrospectively reviewed prenatal array data on 1382 consecutive chorionic villus sampling (CVS) specimens spanning the past 6 years, focusing on those for which whole CVS biopsy (both cytotrophoblast and mesenchymal cells) was used for CMA and cultured cells (primarily mesenchyme) was also analyzed or amniotic fluid (AF)/newborn blood was used for confirmation, to determine the frequency of mosaic abnormal findings that were the result of CPM. Results Out of a total of 1382 consecutive CVS cases, we identified 42 (42/1382 = 3.0%) cases with abnormal array findings suggestive of mosaicism. Among them, 10 cases were unequivocally interpreted as CPM based on a normal AF/newborn blood confirmatory result. In addition, another 10 cases were interpreted as provisional CPM based on normal results on cultured cells. Notably, 40% (8/20) of the cases revealed complex findings, including multiple mosaic aneuploidies, mosaic submicroscopic copy number variation (CNV), and mosaic aneuploidy plus mosaic CNV. Conclusion Abnormal CMA results from CVS specimens should be interpreted with caution when mosaicism is evident or suspected. Furthermore, confirmatory testing on amniotic fluid, which contains cells derived from the fetus, is recommended in these cases.

Published

2018

13. Mechanisms for the Generation of Two Quadruplications Associated with Split-Hand Malformation

Author

Ivan F M Lo, James R. Lupski, Claudia M.B. Carvalho, HM Luk, Curtis R. Pickering, Kelly Erikson, Bo Yuan, Jennifer E. Posey, Shen Gu, Gordon K.C. Leung, and Brian H.Y. Chung

Subjects

0301 basic medicine, Genetics, Microarray, Breakpoint, Non-allelic homologous recombination, Alu element, Biology, Germline, 03 medical and health sciences, 030104 developmental biology, Gene duplication, Human genome, YWHAE, Genetics (clinical)

Abstract

Germline copy-number variants (CNVs) involving quadruplications are rare and the mechanisms generating them are largely unknown. Previously, we reported a 20-week gestation fetus with split-hand malformation; clinical microarray detected two maternally inherited triplications separated by a copy-number neutral region at 17p13.3, involving BHLHA9 and part of YWHAE. Here, we describe an 18-month-old male sibling of the previously described fetus with split-hand malformation. Custom high-density microarray and digital droplet PCR revealed the copy-number gains were actually quadruplications in the mother, the fetus, and her later born son. This quadruplication-normal-quadruplication pattern was shown to be expanded from the triplication-normal-triplication CNV at the same loci in the maternal grandmother. We mapped two breakpoint junctions and demonstrated that both are mediated by Alu repetitive elements and identical in these four individuals. We propose a three-step process combining Alu-mediated replicative-repair-based mechanism(s) and intergenerational, intrachromosomal nonallelic homologous recombination to generate the quadruplications in this family.

Published

2015

14. Hutterite‐type cataract maps to chromosome 6p21.32‐p21.31, cosegregates with a homozygous mutation in<scp>LEMD</scp>2, and is associated with sudden cardiac death

Author

Shalini N. Jhangiani, Richard A. Lewis, Richard A. Gibbs, Bo Yuan, James R. Lupski, Qiaoyan Wang, Zhiwei Ma, Todd J. Murdock, Philip M. Boone, Mahim Jain, Jennifer E. Posey, Janson White, Tomasz Gambin, Donna M. Muzny, Kimberly Walker, J. Fielding Hejtmancik, Claudia Gonzaga-Jauregui, and Shen Gu

Subjects

0301 basic medicine, genetic structures, LEMD2, sudden death, LEM domain, Biology, Sudden death, Cataract, Sudden cardiac death, 03 medical and health sciences, Cataracts, Genetics, medicine, Molecular Biology, Genetics (clinical), Disease gene, MUC21, Chromosome, Original Articles, recessive, medicine.disease, eye diseases, Hutterite, 030104 developmental biology, Mutation (genetic algorithm), Original Article, sense organs

Abstract

Background Juvenile‐onset cataracts are known among the Hutterites of North America. Despite being identified over 30 years ago, this autosomal recessive condition has not been mapped, and the disease gene is unknown. Methods We performed whole exome sequencing of three Hutterite‐type cataract trios and follow‐up genotyping and mapping in four extended kindreds. Results Trio exomes enabled genome‐wide autozygosity mapping, which localized the disease gene to a 9.5‐Mb region on chromosome 6p. This region contained two candidate variants, LEMD2 c.T38G and MUC21 c.665delC. Extended pedigrees recruited for variant genotyping revealed multiple additional relatives with juvenile‐onset cataract, as well as six deceased relatives with both cataracts and sudden cardiac death. The candidate variants were genotyped in 84 family members, including 17 with cataracts; only the variant in LEMD2 cosegregated with cataracts (LOD = 9.62). SNP‐based fine mapping within the 9.5 Mb linked region supported this finding by refining the cataract locus to a 0.5‐ to 2.9‐Mb subregion (6p21.32‐p21.31) containing LEMD2 but not MUC21. LEMD2 is expressed in mouse and human lenses and encodes a LEM domain‐containing protein; the c.T38G missense mutation is predicted to mutate a highly conserved residue within this domain (p.Leu13Arg). Conclusion We performed a genetic and genomic study of Hutterite‐type cataract and found evidence for an association of this phenotype with sudden cardiac death. Using combined genetic and genomic approaches, we mapped cataracts to a small portion of chromosome 6 and propose that they result from a homozygous missense mutation in LEMD2.

Published

2015

15. Recurrent De Novo and Biallelic Variation of ATAD3A, Encoding a Mitochondrial Membrane Protein, Results in Distinct Neurological Syndromes

Author

Jill A. Rosenfeld, Yunru Shao, Stephanie Fox, Maria Anna Donati, Serkan Erdin, Timothy Lotze, Mohammad K. Eldomery, Lorraine Potocki, Myriam Srour, Hugo J. Bellen, Eric Boerwinkle, Michio Hirano, Megan T. Cho, Tamar Harel, Donna M. Martin, Marjorie Withers, Brett H. Graham, Elie Moussallem, Yaping Yang, Caterina Garone, James R. Lupski, Pamela Magini, Heather M. McLaughlin, Wan Hee Yoon, Shen Gu, Stephanie M. Brooks, Marco Seri, Christine M. Eng, Jennifer E. Posey, Shalini N. Jhangiani, Richard A. Lewis, Bo Yuan, Donna M. Muzny, Lita Duraine, Tommaso Pippucci, Daniela Buhas, Massimo Zeviani, Costanza Lamperti, Scott E. Hickey, Magdalena Walkiewicz, Richard A. Gibbs, Fan Xia, Zeynep Coban-Akdemir, Jill V. Hunter, Stefano Zanigni, Theodore Chiang, Claudio Graziano, Joshua D. Smith, Harel, Tamar, Yoon, Wan Hee, Garone, Caterina, Shen, Gu, Coban Akdemir, Zeynep, Eldomery, Mohammad K., Posey, Jennifer E., Jhangiani, Shalini N., Rosenfeld, Jill A., Cho, Megan T., Fox, Stephanie, Withers, Marjorie, Brooks, Stephanie M., Chiang, Theodore, Duraine, Lita, Erdin, Serkan, Yuan, Bo, Shao, Yunru, Moussallem, Elie, Lamperti, Costanza, Donati, Maria A., Smith, Joshua D., Mclaughlin, Heather M., Eng, Christine M., Walkiewicz, Magdalena, Xia, Fan, Pippucci, Tommaso, Magini, Pamela, Seri, Marco, Zeviani, Massimo, Hirano, Michio, Hunter, Jill V., Srour, Myriam, Zanigni, Stefano, Lewis, Richard Alan, Muzny, Donna M., Lotze, Timothy E., Boerwinkle, Eric, Gibbs, Richard A., Hickey, Scott E., Graham, Brett H., Yang, Yaping, Buhas, Daniela, Martin, Donna M., Potocki, Lorraine, Graziano, Claudio, Bellen, Hugo J., and Lupski, James R.

Subjects

0301 basic medicine, Male, Developmental Disabilities, MFN2, Mitochondrion, medicine.disease_cause, ATAD3A, DNM1L, 0302 clinical medicine, Mitophagy, whole-exome sequencing, Child, Genetics (clinical), Genetics, Adenosine Triphosphatases, Neurons, cardiomyopathy, CNV, de novo variant, dominant negative, mitochondrial dynamics, neuropathy, optic atrophy, ATPases Associated with Diverse Cellular Activities, Adult, Animals, Axons, Cardiomyopathies, Child, Preschool, DNA Copy Number Variations, Drosophila melanogaster, Female, Fibroblasts, Homozygote, Humans, Infant, Infant, Newborn, Membrane Proteins, Mitochondria, Mitochondrial Proteins, Muscle Hypotonia, Muscles, Nervous System Diseases, Optic Atrophy, Phenotype, Polymorphism, Single Nucleotide, Syndrome, Young Adult, Alleles, Mutation, Single Nucleotide, Mitochondrial Membrane Protein, Non-allelic homologous recombination, Biology, Article, 03 medical and health sciences, Genetic, mitochondrial dynamic, medicine, Polymorphism, Preschool, Newborn, Molecular biology, 030104 developmental biology, Nucleoid organization, 030217 neurology & neurosurgery

Abstract

ATPase family AAA-domain containing protein 3A (ATAD3A) is a nuclear-encoded mitochondrial membrane protein implicated in mitochondrial dynamics, nucleoid organization, protein translation, cell growth, and cholesterol metabolism. We identified a recurrent de novo ATAD3A c.1582C>T (p.Arg528Trp) variant by whole-exome sequencing (WES) in five unrelated individuals with a core phenotype of global developmental delay, hypotonia, optic atrophy, axonal neuropathy, and hypertrophic cardiomyopathy. We also describe two families with biallelic variants in ATAD3A, including a homozygous variant in two siblings, and biallelic ATAD3A deletions mediated by nonallelic homologous recombination (NAHR) between ATAD3A and gene family members ATAD3B and ATAD3C. Tissue-specific overexpression of borR534W, the Drosophila mutation homologous to the human c.1582C>T (p.Arg528Trp) variant, resulted in a dramatic decrease in mitochondrial content, aberrant mitochondrial morphology, and increased autophagy. Homozygous null bor larvae showed a significant decrease of mitochondria, while overexpression of borWT resulted in larger, elongated mitochondria. Finally, fibroblasts of an affected individual exhibited increased mitophagy. We conclude that the p.Arg528Trp variant functions through a dominant-negative mechanism that results in small mitochondria that trigger mitophagy, resulting in a reduction in mitochondrial content. ATAD3A variation represents an additional link between mitochondrial dynamics and recognizable neurological syndromes, as seen with MFN2, OPA1, DNM1L, and STAT2 mutations.

Published

2016

16. Comparison of multi-lineage differentiation of hiPSCs reveals novel miRNAs that regulate lineage specification

Author

Kai-Kei Miu, Hoi-Hung Cheung, Shen Gu, Wai-Yee Chan, and Lu Li

Subjects

0301 basic medicine, Lineage differentiation, Science, Induced Pluripotent Stem Cells, Germ layer, Computational biology, Biology, Kidney, Lineage specification, Article, 03 medical and health sciences, Neural Stem Cells, Mirna expression, microRNA, Data Mining, Humans, Cell Lineage, Computational analysis, Gene, Multidisciplinary, Cell Differentiation, MicroRNAs, 030104 developmental biology, Gene Expression Regulation, Current practice, Hepatocytes, Medicine

Abstract

MicroRNAs (miRNAs) are known to be crucial players in governing the differentiation of human induced pluripotent stem cells (hiPSCs). Despite their utter importance, identifying key lineage specifiers among the myriads of expressed miRNAs remains challenging. We believe that the current practice in mining miRNA specifiers via delineating dynamic fold-changes only is inadequate. Our study, therefore, provides evidence to pronounce “lineage specificity” as another important attribute to qualify for these lineage specifiers. Adopted hiPSCs were differentiated into representative lineages (hepatic, nephric and neuronal) over all three germ layers whilst the depicted miRNA expression changes compiled into an integrated atlas. We demonstrated inter-lineage analysis shall aid in the identification of key miRNAs with lineage-specificity, while these shortlisted candidates were collectively known as “lineage-specific miRNAs”. Subsequently, we followed through the fold-changes along differentiation via computational analysis to identify miR-192 and miR-372-3p, respectively, as representative candidate key miRNAs for the hepatic and nephric lineages. Indeed, functional characterization validated that miR-192 and miR-372-3p regulate lineage differentiation via modulation of the expressions of lineage-specific genes. In summary, our presented miRNA atlas is a resourceful ore for the mining of key miRNAs responsible for lineage specification.

Published

2017

17. Nonrecurrent PMP22-RAI1 contiguous gene deletions arise from replication-based mechanisms and result in Smith–Magenis syndrome with evident peripheral neuropathy

Author

Bo Yuan, Shen Gu, Pengfei Liu, Ignacio Briceño, Juanita Neira, Tamar Harel, James R. Lupski, Sarah H. Elsea, Lorraine Potocki, and Alberto Gómez

Subjects

Adult, DNA Replication, Male, 0301 basic medicine, Adolescent, DNA Copy Number Variations, Non-allelic homologous recombination, Locus (genetics), Haploinsufficiency, Biology, Bioinformatics, Article, 03 medical and health sciences, Intellectual Disability, Contiguous gene deletion, Genetics, medicine, Humans, Copy-number variation, Child, Homologous Recombination, Genetics (clinical), Breakpoint, Smith–Magenis syndrome, medicine.disease, Human genetics, 030104 developmental biology, PMP22, Child, Preschool, Mutation, Trans-Activators, RAI1, Female, FoSTeS/MMBIR, Smith-Magenis Syndrome, Gene Deletion, Myelin Proteins, Chromosomes, Human, Pair 17, Transcription Factors, Comparative genomic hybridization

Abstract

21 páginas Hereditary neuropathy with liability to pressure palsies (HNPP) and Smith-Magenis syndrome (SMS) are genomic disorders associated with deletion copy number variants involving chromosome 17p12 and 17p11.2, respectively. Nonallelic homologous recombination (NAHR)-mediated recurrent deletions are responsible for the majority of HNPP and SMS cases; the rearrangement products encompass the key dosage-sensitive genes PMP22 and RAI1, respectively, and result in haploinsufficiency for these genes. Less frequently, nonrecurrent genomic rearrangements occur at this locus. Contiguous gene duplications encompassing both PMP22 and RAI1, i.e., PMP22-RAI1 duplications, have been investigated, and replication-based mechanisms rather than NAHR have been proposed for these rearrangements. In the current study, we report molecular and clinical characterizations of six subjects with the reciprocal phenomenon of deletions spanning both genes, i.e., PMP22-RAI1 deletions. Molecular studies utilizing high-resolution array comparative genomic hybridization and breakpoint junction sequencing identified mutational signatures that were suggestive of replication-based mechanisms. Systematic clinical studies revealed features consistent with SMS, including features of intellectual disability, speech and gross motor delays, behavioral problems and ocular abnormalities. Five out of six subjects presented clinical signs and/or objective electrophysiologic studies of peripheral neuropathy. Clinical profiling may improve the clinical management of this unique group of subjects, as the peripheral neuropathy can be more severe or of earlier onset as compared to SMS patients having the common recurrent deletion. Moreover, the current study, in combination with the previous report of PMP22-RAI1 duplications, contributes to the understanding of rare complex phenotypes involving multiple dosage-sensitive genes from a genetic mechanistic standpoint.

Published

2017

18. Low Preoperative albumin-to-globulin ratio Predict Poor Survival and Negatively Correlated with Fibrinogen in Resectable Esophageal Squamous Cell Carcinoma

Author

Ting Kang, Xueping Wang, Xiao-Hui Li, Lin Zhang, Zhi-Xian Zhang, Jian-Hua Lin, Wen-Shen Gu, Wanli Liu, and Xin Zheng

Subjects

0301 basic medicine, Oncology, medicine.medical_specialty, Globulin, Fibrinogen, survival, Metastasis, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Carcinoma, albumin-to-globulin ratio, Rank correlation, biology, business.industry, Acute-phase protein, Albumin, biochemical phenomena, metabolism, and nutrition, medicine.disease, esophageal squamous cell carcinoma, 030104 developmental biology, 030220 oncology & carcinogenesis, Cohort, biology.protein, bacteria, fibrinogen, business, CRP, medicine.drug, Research Paper

Abstract

Background: Although various inflammation-based indexes in esophageal carcinoma have been documented, but the prognostic value of the albumin-to-globulin ratio(AGR) and its correlation with fibrinogen in resectable ESCC remain unknown. Methods: The levels of pre-treatment serum common acute phase proteins (including CRP, albumin and fribrinogen) were retrospectively analyzed in 447 patients with ESCC who underwent surgical resection at our department. The prognostic value was explored by univariate and multivariate cox hazard analysis. The correlation between AGR and acute phase proteins were also analyzed. Results: Patients with decreased levels of AGR and increased CRP had significantly lower 5-year survival rates than those with higher AGR, not only in the whole ESCC cohort but also in the subgroups stratified according to the disease T, N classifications, and metastasis, whereas the other acute phase proteins were not independent prognostic factors for ESCC. In addition, a lower AGR level was observed more often in patients with a high fibrinogen level than in those with a low fibrinogen level. Spearman's rank correlation analysis revealed that the AGR level presented a negative correlation with the fibrinogen level (r =-0.317, p

Published

2017

19. Primary immunodeficiency diseases: Genomic approaches delineate heterogeneous Mendelian disorders

Author

Mohammad K. Eldomery, Olaug K. Rødningen, Cecilia Poli, Debra Canter, Berit Flatø, Ketil Heimdal, Nicholas L. Rider, Silje F. Jørgensen, Hasibe Artac, Hans Christian Erichsen, Francisco Javier Espinosa Rosales, Ivan K. Chinn, Alison A. Bertuch, Bo Yuan, Jordan S. Orange, Emily M. Mace, Wojciech Wiszniewski, Robert Lyle, Shalini N. Jhangiani, Tobias Gedde-Dahl, Carla M. Davis, Carl E. Allen, I. Celine Hanson, Magnus K. O. Burstedt, Thomas B. Issekutz, Mari Ann Kulseth, Yavuz Bayram, Eric A. Smith, Tram N. Cao, Stephen Jolles, Andrew C. Issekutz, Pubudu S. Samarakoon, Alice Y. Chan, Gozde Yesil, Eva Holmberg, Børre Fevang, Diana K. Bayer, John W. Belmont, Asbjørg Stray-Pedersen, Timothy J. Vece, Magdalena Walkiewicz, James R. Lupski, Ying Sheng, Trine Prescott, Liv T. N. Osnes, Cecilie F. Rustad, Nina Denisse Guerrero-Cursaru, Juan Carlos Aldave Becerra, Victor Wei Zhang, Philip M. Boone, Mohammad S. Ehlayel, Jason W. Caldwell, Tore G. Abrahamsen, José Luis Franco, Harshal Abhyankar, Henrik Hjorth-Hansen, Liliana Bezrodnik, Vegard Skogen, Nicola A.M. Wright, Lisa R. Forbes, Anne Grete Bechensteen, Christine R. Beck, Saul Oswaldo Lugo Reyes, Lee-Jun C. Wong, Shen Gu, Sarah K. Nicholas, Christina E. West, Filiz O. Seeborg, Mehmed M. Atik, Eric Boerwinkle, Luis A. Pedroza, Caterina Cancrini, Hanne Sørmo Sorte, Yaping Yang, Christine M. Eng, Richard A. Gibbs, Lenora M. Noroski, Alessandro Aiuti, Ender Karaca, Torstein Øverland, Claudia Milena Trujillo Vargas, Jordan K. Abbott, Geir E. Tjønnfjord, William T. Shearer, Javier Chinen, Ingunn Dybedal, Tomasz Gambin, Donna M. Muzny, Pål Aukrust, Ingvild Nordøy, María Soledad Caldirola, Jianhong Hu, Zeynep Coban Akdemir, YEŞİL, Gözde, Stray Pedersen, A, Sorte, H, Samarakoon, P, Gambin, T, Chinn, Ik, Coban Akdemir, Zh, Erichsen, Hc, Forbes, Lr, Gu, S, Yuan, B, Jhangiani, Sn, Muzny, Dm, Rødningen, Ok, Sheng, Y, Nicholas, Sk, Noroski, Lm, Seeborg, Fo, Davis, Cm, Canter, Dl, Mace, Em, Vece, Tj, Allen, Ce, Abhyankar, Ha, Boone, Pm, Beck, Cr, Wiszniewski, W, Fevang, B, Aukrust, P, Tjønnfjord, Ge, Gedde Dahl, T, Hjorth Hansen, H, Dybedal, I, Nordøy, I, Jørgensen, Sf, Abrahamsen, Tg, Øverland, T, Bechensteen, Ag, Skogen, V, Osnes, Lt, Kulseth, Ma, Prescott, Te, Rustad, Cf, Heimdal, Kr, Belmont, Jw, Rider, Nl, Chinen, J, Cao, Tn, Smith, Ea, Caldirola, M, Bezrodnik, L, Lugo Reyes, So, Espinosa Rosales, Fj, Guerrero Cursaru, Nd, Pedroza, La, Poli, Cm, Franco, Jl, Trujillo Vargas, Cm, Aldave Becerra, Jc, Wright, N, Issekutz, Tb, Issekutz, Ac, Abbott, J, Caldwell, Jw, Bayer, Dk, Chan, Ay, Aiuti, Alessandro, Cancrini, C, Holmberg, E, West, C, Burstedt, M, Karaca, E, Yesil, G, Artac, H, Bayram, Y, Atik, Mm, Eldomery, Mk, Ehlayel, M, Jolles, S, Flatø, B, Bertuch, Aa, Hanson, Ic, Zhang, Vw, Wong, Lj, Hu, J, Walkiewicz, M, Yang, Y, Eng, Cm, Boerwinkle, E, Gibbs, Ra, Shearer, Wt, Lyle, R, Orange, J, Lupski, J. R., and Selçuk Üniversitesi

Subjects

0301 basic medicine, Male, Allergy, Genomic approaches delineate heterogeneous Mendelian disorders-, JOURNAL OF ALLERGY AND CLINICAL IMMUNOLOGY, cilt.139, ss.232-245, 2017 [Stray-Pedersen A., Sorte H. S. , Samarakoon P., Gambin T., Chinn I. K. , Akdemir Z. H. C. , Erichsen H. C. , Forbes L. R. , Gu S., Yuan B., et al., -Primary immunodeficiency diseases], 0302 clinical medicine, OMIM : Online Mendelian Inheritance in Man, Immunology and Allergy, 2.1 Biological and endogenous factors, Copy-number variation, Primary immunodeficiency disease, whole-exome sequencing, Aetiology, Child, Exome sequencing, Genetics, screening and diagnosis, food and beverages, High-Throughput Nucleotide Sequencing, Genomics, Middle Aged, Settore MED/38, Detection, 030220 oncology & carcinogenesis, Child, Preschool, Medical genetics, Female, Adult, medicine.medical_specialty, Adolescent, DNA Copy Number Variations, Immunology, Biology, 03 medical and health sciences, Young Adult, Rare Diseases, Clinical Research, medicine, Humans, Genetic Testing, Preschool, Aged, Severe combined immunodeficiency, Genetic heterogeneity, Common variable immunodeficiency, Prevention, fungi, Human Genome, Immunologic Deficiency Syndromes, Infant, medicine.disease, 4.1 Discovery and preclinical testing of markers and technologies, 030104 developmental biology, Good Health and Well Being, Primary immunodeficiency, copy number variants

Abstract

WOS: 000393996800025, PubMed: 27577878, Background: Primary immunodeficiency diseases (PIDDs) are clinically and genetically heterogeneous disorders thus far associated with mutations in more than 300 genes. The clinical phenotypes derived from distinct genotypes can overlap. Genetic etiology can be a prognostic indicator of disease severity and can influence treatment decisions. Objective: We sought to investigate the ability of whole-exome screening methods to detect disease-causing variants in patients with PIDDs. Methods: Patients with PIDDs from 278 families from 22 countries were investigated by using whole-exome sequencing. Computational copy number variant (CNV) prediction pipelines and an exome-tiling chromosomal microarray were also applied to identify intragenic CNVs. Analytic approaches initially focused on 475 known or candidate PIDD genes but were nonexclusive and further tailored based on clinical data, family history, and immunophenotyping. Results: A likely molecular diagnosis was achieved in 110 (40%) unrelated probands. Clinical diagnosis was revised in about half (60/ 110) and management was directly altered in nearly a quarter (26/ 110) of families based on molecular findings. Twelve PIDD-causing CNVs were detected, including 7 smaller than 30 Kb that would not have been detected with conventional diagnostic CNV arrays. Conclusion: This high-throughput genomic approach enabled detection of disease-related variants in unexpected genes; permitted detection of low-grade constitutional, somatic, and revertant mosaicism; and provided evidence of a mutational burden in mixed PIDD immunophenotypes., South-Eastern Norway Health Authority; American Women's club of Oslo; National Human Genome Research InstituteUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Human Genome Research Institute (NHGRI); National Heart, Lung, and BloodUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Heart Lung & Blood Institute (NHLBI) [U54HG006542]; Jeffrey Modell Foundation; NIHUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USA [AI-120989], Funding for the work performed in Oslo was provided by the South-Eastern Norway Health Authority, and A. S.-P. received research scholarship from the American Women's club of Oslo. The BHCMG is supported by the National Human Genome Research Institute and the National Heart, Lung, and Blood (U54HG006542). Funding was also provided by the Jeffrey Modell Foundation and NIH AI-120989 (to J.S.O.).

Published

2017

20. Mechanisms for Complex Chromosomal Insertions

Author

Carlos A. Bacino, Maria A. Magriña, Rodger H. Song, Pawel Stankiewicz, Przemyslaw Szafranski, Weimin Bi, Zeynep Coban Akdemir, Shen Gu, Bo Yuan, Amy M. Breman, M.L. Cooper, James R. Lupski, Ankita Patel, Sau Wai Cheung, Seema R. Lalani, Claudia M.B. Carvalho, and Janice L. Smith

Subjects

Male, 0301 basic medicine, Cancer Research, 030105 genetics & heredity, Biochemistry, Translocation, Genetic, Gene Duplication, Deletions, In Situ Hybridization, Fluorescence, Genetics (clinical), Chromosomal inversion, Genetics, Comparative Genomic Hybridization, Fluorescent in Situ Hybridization, medicine.diagnostic_test, Chromosome Biology, Duplications, Genomics, Chromosomal Aberrations, Nucleic acids, Translocations, Female, Research Article, DNA Replication, DNA Copy Number Variations, lcsh:QH426-470, Molecular Probe Techniques, Locus (genetics), Biology, Genome Complexity, Research and Analysis Methods, Chromosomes, DNA sequencing, 03 medical and health sciences, medicine, Humans, Molecular Biology Techniques, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Chromosome Aberrations, Genome, Human, Breakpoint, Biology and Life Sciences, Computational Biology, Chromosome, Cell Biology, DNA, Sequence Analysis, DNA, Probe Hybridization, lcsh:Genetics, 030104 developmental biology, Chromosome Inversion, Human genome, Cytogenetic Techniques, Fluorescence in situ hybridization, Comparative genomic hybridization

Abstract

Chromosomal insertions are genomic rearrangements with a chromosome segment inserted into a non-homologous chromosome or a non-adjacent locus on the same chromosome or the other homologue, constituting ~2% of nonrecurrent copy-number gains. Little is known about the molecular mechanisms of their formation. We identified 16 individuals with complex insertions among 56,000 individuals tested at Baylor Genetics using clinical array comparative genomic hybridization (aCGH) and fluorescence in situ hybridization (FISH). Custom high-density aCGH was performed on 10 individuals with available DNA, and breakpoint junctions were fine-mapped at nucleotide resolution by long-range PCR and DNA sequencing in 6 individuals to glean insights into potential mechanisms of formation. We observed microhomologies and templated insertions at the breakpoint junctions, resembling the breakpoint junction signatures found in complex genomic rearrangements generated by replication-based mechanism(s) with iterative template switches. In addition, we analyzed 5 families with apparently balanced insertion in one parent detected by FISH analysis and found that 3 parents had additional small copy-number variants (CNVs) at one or both sides of the inserting fragments as well as at the inserted sites. We propose that replicative repair can result in interchromosomal complex insertions generated through chromothripsis-like chromoanasynthesis involving two or three chromosomes, and cause a significant fraction of apparently balanced insertions harboring small flanking CNVs., Author Summary By traditional cytogenetic techniques, the incidence of microscopically visible chromosomal insertions was estimated to be 1 in 80,000 live births. More recently, by aCGH in conjunction with FISH confirmation of the aCGH findings, insertion events were demonstrated to occur much more frequently (1 in ~500 individuals tested). Although frequently detected, little is known about the molecular mechanisms of their formation. In this study, we identified 16 individuals with complex chromosomal insertions among 56,000 individuals tested at Baylor Genetics using clinical microarray analysis (CMA) and FISH. Custom high-density aCGH was performed on 10 individuals with available DNA, and breakpoint junctions were fine-mapped at nucleotide resolution by long-range PCR and DNA sequencing in 6 individuals to glean insights into potential mechanisms of formation. In addition, we analyzed 5 families with apparently balanced insertion in one parent detected by FISH analysis and found that 3 parents had additional small copy-number variants (CNVs) at one or both sides of the inserting fragments as well as at the inserted sites. We propose that replicative repair can result in interchromosomal complex insertions generated through chromothripsis-like chromoanasynthesis involving two or three chromosomes, and cause a significant fraction of apparently balanced insertions harboring small flanking CNVs.

Published

2016

21. Divergent Levels of Marker Chromosomes in an hiPSC-Based Model of Psychosis

Author

Jonathan Sebat, Kristen J. Brennand, Julia Tcw, Alyssa N. Altheimer, Shane McCarthy, James R. Lupski, Uwe Rudolph, Claudia M.B. Carvalho, Deborah L. Levy, Bo Yuan, Shen Gu, Dheeraj Malhotra, and Arthur J. Siegel

Subjects

0301 basic medicine, Genetic Markers, Psychosis, Heterozygote, Marker chromosome, Induced Pluripotent Stem Cells, marker chromosome, Trisomy, Biology, Biochemistry, 03 medical and health sciences, Extrachromosomal DNA, Report, Chromosome Duplication, Genetics, medicine, Chromosomes, Human, Humans, Genetic Predisposition to Disease, neural progenitor cell, Human Induced Pluripotent Stem Cells, Progenitor cell, lcsh:QH301-705.5, Genetic Association Studies, bipolar disorder, lcsh:R5-920, Comparative Genomic Hybridization, Mosaicism, human induced pluripotent stem cell, Cell Biology, medicine.disease, Matrix Attachment Regions, schizophrenia, isogenic, 030104 developmental biology, lcsh:Biology (General), Psychotic Disorders, 9p24.1, MAR Elements, mosaic, Stem cell, lcsh:Medicine (General), Chromosomes, Human, Pair 9, Developmental Biology

Abstract

Summary In the process of generating presumably clonal human induced pluripotent stem cells (hiPSCs) from two carriers of a complex structural rearrangement, each having a psychotic disorder, we also serendipitously generated isogenic non-carrier control hiPSCs, finding that the rearrangement occurs as an extrachromosomal marker (mar) element. All confirmed carrier hiPSCs and differentiated neural progenitor cell lines were found to be mosaic. We caution that mar elements may be difficult to functionally evaluate in hiPSC cultures using currently available methods, as it is difficult to distinguish cells with and without mar elements in live mosaic cultures., Graphical Abstract, Highlights • Patients with mar chromosome yield carrier and non-carrier hiPSCs • Presumably clonal mar carrier hiPSCs show mosaicism in all lines • Neural differentiation of mosaic hiPSCs yields mosaic NPCs, Brennand, Levy, Carvalho, and colleagues present a systematic evaluation of marker chromosome mosaicism in somatic fibroblasts, hiPSCs, and NPCs. Because this mutation was initially identified as a complex genomic rearrangement rather than as a karyotypic abnormality, it represents a cautionary indication that the precise structure of any genetic mutation should be clarified before moving forward with hiPSC-based studies.

Published

2016

22. Exome sequencing in mostly consanguineous Arab families with neurologic disease provides a high potential molecular diagnosis rate

Author

Eric Boerwinkle, Eissa Faqeih, Jennifer E. Posey, Richard A. Gibbs, Hong Cui, Jill A. Rosenfeld, Shalini N. Jhangiani, Shen Gu, Jianhong Hu, Mohammed A. Saleh, Ayman W. El-Hattab, Fan Xia, Mehmed M. Atik, Ender Karaca, Ali Al Asmari, James R. Lupski, Harsha Doddapaneni, Zeynep Coban Akdemir, Yaping Yang, Donna Muzny, Kandamurugu Manickam, Wu Lin Charng, and Tomasz Gambin

Subjects

Male, 0301 basic medicine, Candidate gene, DNA Copy Number Variations, Developmental Delay/Intellectual Disability (DD/ID), Neurodevelopment, Consanguinity, Biology, Polymorphism, Single Nucleotide, GRM7, Cohort Studies, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Databases, Genetic, Genetics, Data Mining, Humans, Exome, Genetics(clinical), Copy-number variation, Genetics (clinical), Exome sequencing, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, Human genetics, Arabs, Pedigree, 3. Good health, Copy Number Variants (CNV), Phenotype, 030104 developmental biology, Molecular Diagnostic Techniques, Mendelian inheritance, symbols, Female, Nervous System Diseases, Candidate Disease Gene, 030217 neurology & neurosurgery, Research Article, Whole exome sequencing (WES)

Abstract

Background Neurodevelopment is orchestrated by a wide range of genes, and the genetic causes of neurodevelopmental disorders are thus heterogeneous. We applied whole exome sequencing (WES) for molecular diagnosis and in silico analysis to identify novel disease gene candidates in a cohort from Saudi Arabia with primarily Mendelian neurologic diseases. Methods We performed WES in 31 mostly consanguineous Arab families and analyzed both single nucleotide and copy number variants (CNVs) from WES data. Interaction/expression network and pathway analyses, as well as paralog studies were utilized to investigate potential pathogenicity and disease association of novel candidate genes. Additional cases for candidate genes were identified through the clinical WES database at Baylor Miraca Genetics Laboratories and GeneMatcher. Results We found known pathogenic or novel variants in known disease genes with phenotypic expansion in 6 families, disease-associated CNVs in 2 families, and 12 novel disease gene candidates in 11 families, including KIF5B, GRM7, FOXP4, MLLT1, and KDM2B. Overall, a potential molecular diagnosis was provided by variants in known disease genes in 17 families (54.8 %) and by novel candidate disease genes in an additional 11 families, making the potential molecular diagnostic rate ~90 %. Conclusions Molecular diagnostic rate from WES is improved by exome-predicted CNVs. Novel candidate disease gene discovery is facilitated by paralog studies and through the use of informatics tools and available databases to identify additional evidence for pathogenicity. Trial registration Not applicable. Electronic supplementary material The online version of this article (doi:10.1186/s12920-016-0208-3) contains supplementary material, which is available to authorized users.

Published

2016

23. miR-877-3p targets Smad7 and is associated with myofibroblast differentiation and bleomycin-induced lung fibrosis

Author

Zou Xiang, Cong Wang, Shen Gu, Zutong Li, Honghui Cao, Kebin Hu, and Xiaodong Han

Subjects

0301 basic medicine, Male, Pathology, medicine.medical_specialty, Cellular differentiation, SMAD, Biology, Bleomycin, Article, Smad7 Protein, Transforming Growth Factor beta1, 03 medical and health sciences, chemistry.chemical_compound, Idiopathic pulmonary fibrosis, Mice, 0302 clinical medicine, Fibrosis, Pulmonary fibrosis, medicine, Animals, Myofibroblasts, Lung, Multidisciplinary, Cell Differentiation, Mesenchymal Stem Cells, Fibroblasts, medicine.disease, Idiopathic Pulmonary Fibrosis, Up-Regulation, Mice, Inbred C57BL, MicroRNAs, 030104 developmental biology, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, Cancer research, Myofibroblast, Signal Transduction

Abstract

Myofibroblast differentiation of lung resident mesenchymal stem cells (LR-MSC) plays an important role in idiopathic pulmonary fibrosis. By comparing the expression profiles of miRNAs before and after myofibroblast differentiation of LR-MSC, we identified miR-877-3p as a fibrosis-related miRNA. We found that miR-877-3p sequestration inhibited the myofibroblast differentiation of LR-MSC and attenuates bleomycin-induced lung fibrosis by targeting Smad7. Smad7, as an inhibitory smad in the TGF-β1 signaling pathway, was decreased in the myofibroblast differentiation of LR-MSC and up-regulation of Smad7 could inhibit the differentiation process. Our data implicates a potential application of miR-877-3p as a fibrosis suppressor for pulmonary fibrosis therapy and also as a fibrosis marker for predicting prognosis.

Published

2016

24. The toxic effects of microcystin-LR on mouse lungs and alveolar type II epithelial cells

Author

Mingming Yuan, Xiaoqin Yin, Xiaodong Han, Cong Wang, Honghui Cao, Kebin Hu, Shen Gu, Zutong Li, Xiannan Meng, and Zou Xiang

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Arginine, Microcystins, Cell Survival, Microcystin-LR, Apoptosis, 010501 environmental sciences, Biology, Toxicology, Cyanobacteria, 01 natural sciences, Cell junction, Article, Cell Line, 03 medical and health sciences, chemistry.chemical_compound, Mice, medicine, Animals, Viability assay, Lung, 0105 earth and related environmental sciences, Mice, Inbred BALB C, Alveolar type, Dose-Response Relationship, Drug, Epithelial Cells, respiratory system, 030104 developmental biology, medicine.anatomical_structure, chemistry, Cell culture, Female, Marine Toxins

Abstract

Microcystin-leucine arginine (MC-LR) is produced by cyanobacteria and can accumulate in lungs through blood circulation. However, the effect of MC-LR on lung remains unclear. In this study, we investigated the chronic, low-dose effect of MC-LR on mouse lung tissues and the influence of MC-LR on mouse alveolar type II epithelial cells (ATII cells).MC-LR was orally administered to mice at 0, 1, 10, and 40 μg/L for 6 consecutive months and mouse lungs were obtained for histopathological and immunoblot analysis. ATII cells were cultured in various concentrations of MC-LR (0, 0.5, 5, 50, 500 nmol/L) for indicated time and the cell viability and proteins change were tested.Our study revealed that the chronic, low-dose MC-LR exposure induced alveolar collapse and lung cell apoptosis as well as the breach of cell junction integrity. Furthermore, following treatment with MC-LR, ATII cells could uptake MC-LR, resulting in apoptosis and disruption of cell junction integrity.These data support the toxic potential of low-dose MC-LR in rendering chronic injury to lung tissues.

Published

2016

25. Homozygous and hemizygous CNV detection from exome sequencing data in a Mendelian disease cohort

Author

Yavuz Bayram, Asbjørg Stray-Pedersen, Wu Lin Charng, Bo Yuan, Eric Boerwinkle, Vahid Bahrambeigi, James R. Lupski, John W. Belmont, Claudia M.B. Carvalho, Tomasz Gambin, Philip M. Boone, Donna M. Muzny, Shen Gu, Zeynep Coban Akdemir, Mohammad K. Eldomery, Shalini N. Jhangiani, Arthur L. Beaudet, Chad A. Shaw, Richard A. Gibbs, Ender Karaca, and Theodore Chiang

Subjects

0301 basic medicine, DNA Copy Number Variations, Inheritance Patterns, Datasets as Topic, Genomics, Consanguinity, Biology, Workflow, Cohort Studies, 03 medical and health sciences, symbols.namesake, Genetics, Humans, Exome, Exome sequencing, Sequence Deletion, Hemizygote, Models, Genetic, Homozygote, Breakpoint, Genetic Diseases, Inborn, Computational Biology, High-Throughput Nucleotide Sequencing, Reproducibility of Results, Pedigree, 3. Good health, Alternative Splicing, 030104 developmental biology, Mendelian inheritance, symbols, Algorithms, Comparative genomic hybridization

Abstract

We developed an algorithm, HMZDelFinder, that uses whole exome sequencing (WES) data to identify rare and intragenic homozygous and hemizygous (HMZ) deletions that may represent complete loss-of-function of the indicated gene. HMZDelFinder was applied to 4866 samples in the Baylor–Hopkins Center for Mendelian Genomics (BHCMG) cohort and detected 773 HMZ deletion calls (567 homozygous or 206 hemizygous) with an estimated sensitivity of 86.5% (82% for single-exonic and 88% for multi-exonic calls) and precision of 78% (53% single-exonic and 96% for multi-exonic calls). Out of 773 HMZDelFinder-detected deletion calls, 82 were subjected to array comparative genomic hybridization (aCGH) and/or breakpoint PCR and 64 were confirmed. These include 18 single-exon deletions out of which 8 were exclusively detected by HMZDelFinder and not by any of seven other CNV detection tools examined. Further investigation of the 64 validated deletion calls revealed at least 15 pathogenic HMZ deletions. Of those, 7 accounted for 17–50% of pathogenic CNVs in different disease cohorts where 7.1–11% of the molecular diagnosis solved rate was attributed to CNVs. In summary, we present an algorithm to detect rare, intragenic, single-exon deletion CNVs using WES data; this tool can be useful for disease gene discovery efforts and clinical WES analyses.

Published

2016

26. Whole-Exome Sequencing in Familial Parkinson Disease

Author

Kaveeta Kaw, Hai Lin, Shalini N. Jhangiani, Preti Jain, Elizabeth W. Pugh, Zeynep H. Coban-Akdemir, Richard M. Myers, Kurt N. Hetrick, Hua Ling, Janson White, Janice L. Farlow, Laurie Robak, Joshua M. Shulman, Kevin M. Bowling, Tomasz Gambin, Dongbing Lai, Donna M. Muzny, Yunlong Liu, Shen Gu, Joseph Jankovic, James R. Lupski, Tatiana Foroud, Kimberly F. Doheny, Paula Porter, Eric Boerwinkle, and Richard A. Gibbs

Subjects

Adult, Male, 0301 basic medicine, Proband, Candidate gene, Neurogenetics, Disease, Biology, Bioinformatics, Cohort Studies, 03 medical and health sciences, symbols.namesake, 0302 clinical medicine, Parkinsonian Disorders, Humans, Exome, Genetic Predisposition to Disease, Family history, Exome sequencing, Aged, Sanger sequencing, Genetics, Genetic Variation, Tenascin, Sequence Analysis, DNA, Middle Aged, Protein-Tyrosine Kinases, 030104 developmental biology, Cohort, symbols, Female, Neurology (clinical), 030217 neurology & neurosurgery

Abstract

Importance Parkinson disease (PD) is a progressive neurodegenerative disease for which susceptibility is linked to genetic and environmental risk factors. Objective To identify genetic variants contributing to disease risk in familial PD. Design, Setting, and Participants A 2-stage study design that included a discovery cohort of families with PD and a replication cohort of familial probands was used. In the discovery cohort, rare exonic variants that segregated in multiple affected individuals in a family and were predicted to be conserved or damaging were retained. Genes with retained variants were prioritized if expressed in the brain and located within PD-relevant pathways. Genes in which prioritized variants were observed in at least 4 families were selected as candidate genes for replication in the replication cohort. The setting was among individuals with familial PD enrolled from academic movement disorder specialty clinics across the United States. All participants had a family history of PD. Main Outcomes and Measures Identification of genes containing rare, likely deleterious, genetic variants in individuals with familial PD using a 2-stage exome sequencing study design. Results The 93 individuals from 32 families in the discovery cohort (49.5% [46 of 93] female) had a mean (SD) age at onset of 61.8 (10.0) years. The 49 individuals with familial PD in the replication cohort (32.6% [16 of 49] female) had a mean (SD) age at onset of 50.1 (15.7) years. Discovery cohort recruitment dates were 1999 to 2009, and replication cohort recruitment dates were 2003 to 2014. Data analysis dates were 2011 to 2015. Three genes containing a total of 13 rare and potentially damaging variants were prioritized in the discovery cohort. Two of these genes ( TNK2 and TNR ) also had rare variants that were predicted to be damaging in the replication cohort. All 9 variants identified in the 2 replicated genes in 12 families across the discovery and replication cohorts were confirmed via Sanger sequencing. Conclusions and Relevance TNK2 and TNR harbored rare, likely deleterious, variants in individuals having familial PD, with similar findings in an independent cohort. To our knowledge, these genes have not been previously associated with PD, although they have been linked to critical neuronal functions. Further studies are required to confirm a potential role for these genes in the pathogenesis of PD.

Published

2016

27. MIPEP recessive variants cause a syndrome of left ventricular non-compaction, hypotonia, and infantile death

Author

Wu Lin Charng, Mohammad K. Eldomery, Eric Boerwinkle, James R. Lupski, Christine M. Eng, Patrycja Mulica, Fan Xia, Aisha Al Shamsi, Zeynep Coban Akdemir, Shalini N. Jhangiani, Yaping Yang, Jill A. Rosenfeld, Richard J. Rodenburg, Holly H. Zimmerman, Lee-Jun C. Wong, Richard A. Gibbs, Prasanna V. Ramachandran, Ravi Medikonda, V. Reid Sutton, Jia Tang, Shen Gu, Tomasz Gambin, Jozef Hertecant, Donna M. Muzny, Omar A. Abdul-Rahman, F.-Nora Vögtle, Meng C. Wang, Samantha Penney, Seema R. Lalani, Lindsay C. Burrage, Chris Meisinger, and Xia Wang

Subjects

Male, 0301 basic medicine, lcsh:Medicine, Whole Exome Sequencing Data, Compound heterozygosity, Whole Exome Sequencing, Oct1 Activity, 0302 clinical medicine, Missense mutation, Genetics(clinical), Copy-number variation, Genetics (clinical), Exome sequencing, Genetics, Sanger sequencing, Metalloendopeptidases, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Syndrome, Hypotonia, Pedigree, 3. Good health, Phenotype, symbols, Muscle Hypotonia, Molecular Medicine, Female, medicine.symptom, Sudden Infant Death, Adult, Heart Defects, Congenital, lcsh:QH426-470, Genes, Recessive, Biology, 03 medical and health sciences, symbols.namesake, Oct1 Protein, medicine, Humans, Amino Acid Sequence, Molecular Biology, Sequence Homology, Amino Acid, Research, lcsh:R, Infant, Newborn, Infant, Human genetics, lcsh:Genetics, 030104 developmental biology, biology.gene, Respiratory Chain Complex, 030217 neurology & neurosurgery, Mitochondrial intermediate peptidase

Abstract

Background Mitochondrial presequence proteases perform fundamental functions as they process about 70 % of all mitochondrial preproteins that are encoded in the nucleus and imported posttranslationally. The mitochondrial intermediate presequence protease MIP/Oct1, which carries out precursor processing, has not yet been established to have a role in human disease. Methods Whole exome sequencing was performed on four unrelated probands with left ventricular non-compaction (LVNC), developmental delay (DD), seizures, and severe hypotonia. Proposed pathogenic variants were confirmed by Sanger sequencing or array comparative genomic hybridization. Functional analysis of the identified MIP variants was performed using the model organism Saccharomyces cerevisiae as the protein and its functions are highly conserved from yeast to human. Results Biallelic single nucleotide variants (SNVs) or copy number variants (CNVs) in MIPEP, which encodes MIP, were present in all four probands, three of whom had infantile/childhood death. Two patients had compound heterozygous SNVs (p.L582R/p.L71Q and p.E602*/p.L306F) and one patient from a consanguineous family had a homozygous SNV (p.K343E). The fourth patient, identified through the GeneMatcher tool, a part of the Matchmaker Exchange Project, was found to have inherited a paternal SNV (p.H512D) and a maternal CNV (1.4-Mb deletion of 13q12.12) that includes MIPEP. All amino acids affected in the patients’ missense variants are highly conserved from yeast to human and therefore S. cerevisiae was employed for functional analysis (for p.L71Q, p.L306F, and p.K343E). The mutations p.L339F (human p.L306F) and p.K376E (human p.K343E) resulted in a severe decrease of Oct1 protease activity and accumulation of non-processed Oct1 substrates and consequently impaired viability under respiratory growth conditions. The p.L83Q (human p.L71Q) failed to localize to the mitochondria. Conclusions Our findings reveal for the first time the role of the mitochondrial intermediate peptidase in human disease. Loss of MIP function results in a syndrome which consists of LVNC, DD, seizures, hypotonia, and cataracts. Our approach highlights the power of data exchange and the importance of an interrelationship between clinical and research efforts for disease gene discovery. Electronic supplementary material The online version of this article (doi:10.1186/s13073-016-0360-6) contains supplementary material, which is available to authorized users.