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1. A genetic approach to the prediction of drug side effects: bleomycin induces concordant phenotypes in mice of the collaborative cross

Author

Gelinas R, Chesler EJ, Vasconcelos D, Miller DR, Yuan Y, Wang K, and Galas D

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

Richard Gelinas1,3, Elissa J Chesler2, Daphne Vasconcelos1, Darla R Miller2, Yue Yuan3, Kai Wang3, David Galas1,31Battelle Memorial Institute, Columbus, OH; 2Oak Ridge National Laboratory, Oak Ridge, TN; 3Institute for Systems Biology, Seattle, WA, USAAbstract: The antineoplastic drug bleomycin leads to the side effect of pulmonary fibrosis in both humans and mice. We challenged genetically diverse inbred lines of mice from the Collaborative Cross with bleomycin to determine the heritability of this phenotype. Sibling pairs of mice from 40 lines were treated with bleomycin. Lung disease was assessed by scoring lung pathology and by measuring soluble collagen levels in lavage fluid. Serum micro ribonucleic acids (miRNAs) were also measured. Inbred sibling pairs of animals demonstrated high coinheritance of the phenotypes of disease susceptibility or disease resistance. The plasma levels of one miRNA were clearly correlated in sibling mice. The results showed that, as in humans, the lines that comprise the Collaborative Cross exhibited wide genetic variation in response to this drug. This finding suggests that the genetically diverse Collaborative Cross animals may reveal drug effects that might be missed if a study were based on a conventional mouse strain.Keywords: collaborative cross, drug side effects, genetic diversity, disease susceptibility, disease resistance, bleomycin, lung disease

Published
2011

2. A genome wide dosage suppressor network reveals genetic robustness and a novel mechanism for Huntington's disease

Author

Patra, B., Kon, Y., Yadav, G., Sevold, A. W., Frumkin, J. P., Vallabhajosyula, R. R., Hintze, A., Østman, B., Schossau, J., Bhan, A., Marzolf, B., Tamashiro, J. K., Kaur, A., Baliga, N. S., Grayhack, E. J., Adami, C., Galas, D. J., Raval, A., Phizicky, E. M., and Ray, A.

Subjects
Quantitative Biology - Molecular Networks, Quantitative Biology - Quantitative Methods, Quantitative Biology - Subcellular Processes
Abstract

Mutational robustness is the extent to which an organism has evolved to withstand the effects of deleterious mutations. We explored the extent of mutational robustness in the budding yeast by genome wide dosage suppressor analysis of 53 conditional lethal mutations in cell division cycle and RNA synthesis related genes, revealing 660 suppressor interactions of which 642 are novel. This collection has several distinctive features, including high co-occurrence of mutant-suppressor pairs within protein modules, highly correlated functions between the pairs, and higher diversity of functions among the co-suppressors than previously observed. Dosage suppression of essential genes encoding RNA polymerase subunits and chromosome cohesion complex suggest a surprising degree of functional plasticity of macromolecular complexes and the existence od degenerate pathways for circumventing potentially lethal mutations. The utility of dosage-suppressor networks is illustrated by the discovery of a novel connection between chromosome cohesion-condensation pathways involving homologous recombination, and Huntington's disease., Comment: 42 pages, 2 tables, 6 Figures. Supplementary Tables S1-S12 and Supplementary Figures S1-S8 at http://dx.doi.org/10.6084/m9.figshare.844761

Published
2013
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3. Cancer Genesis and Progression as Dynamics in Functional Landscape of Endogenous Molecular-Cellular Network

Author

Ao, P., Galas, D., Hood, L., and Zhu, X. -M.

Subjects
Quantitative Biology - Subcellular Processes, Quantitative Biology - Molecular Networks
Abstract

An endogenous molecular-cellular network for both normal and abnormal functions is assumed to exist. This endogenous network forms a nonlinear stochastic dynamical system, with many stable attractors in its functional landscape. Normal or abnormal robust states can be decided by this network in a manner similar to the neural network. In this context cancer is hypothesized as one of its robust intrinsic states. This hypothesis implies that a nonlinear stochastic mathematical cancer model is constructible based on available experimental data and its quantitative prediction is directly testable. Within such model the genesis and progression of cancer may be viewed as stochastic transitions between different attractors. Thus it further suggests that progressions are not arbitrary. Other important issues on cancer, such as genetic vs epigenetics, double-edge effect, dormancy, are discussed in the light of present hypothesis. A different set of strategies for cancer prevention, cure, and care, is therefore suggested., Comment: 13 pages

Published
2007

4. Efficiency, Robustness and Stochasticity of Gene Regulatory Networks in Systems Biology: lambda Switch as a Working Example

Author

Zhu, X., Yin, L., Hood, L., Galas, D., and Ao, P.

Subjects
Quantitative Biology - Subcellular Processes, Condensed Matter - Other Condensed Matter, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Quantitative Biology - Molecular Networks, Quantitative Biology - Other Quantitative Biology
Abstract

Phage lambda is one of the most studied biological models in modern molecular biology. Over the past 50 years quantitative experimental knowledge on this biological model has been accumulated at all levels: physics, chemistry, genomics, proteomics, functions, and more. All its components have been known to a great detail. The theoretical task has been to integrate its components to make the organism working quantitatively in a harmonic manner. This would test our biological understanding and would lay a solid fundamental for further explorations and applications, an obvious goal of systems biology. One of the outstanding challenges in doing so has been the so-called stability puzzle of lambda switch: the biologically observed robustness and its difficult mathematical reconstruction based on known experimental values. In this chapter we review the recent theoretical and experimental efforts on tackling this problem. An emphasis is put on the minimum quantitative modeling where a successful numerical agreement between experiments and modeling has been achieved. A novel method tentatively named stochastic dynamical structure analysis emerged from such study is also discussed within a broad modeling perspective., Comment: 40 pages

Published
2005

7. The RNA complement of outer membrane vesicles from Salmonella enterica serovar Typhimurium under distinct culture conditions

Author

Malabirade, A., Habier, J., Heintz-Buschart, Anna, May, P., Godet, J., Halder, R., Etheridge, A., Galas, D., Wilmes, P., Fritz, J.V., Malabirade, A., Habier, J., Heintz-Buschart, Anna, May, P., Godet, J., Halder, R., Etheridge, A., Galas, D., Wilmes, P., and Fritz, J.V.

Abstract

Bacterial outer membrane vesicles (OMVs), as well as OMV-associated small RNAs, have been demonstrated to play a role in host–pathogen interactions. The presence of larger RNA transcripts in OMVs has been less studied and their potential role in host–pathogen interactions remains largely unknown. Here we analyze RNA from OMVs secreted by Salmonella enterica serovar Typhimurium (S. Typhimurium) cultured under different conditions, which mimic host–pathogen interactions. S. Typhimurium was grown to exponential and stationary growth phases in minimal growth control medium (phosphate-carbon-nitrogen, PCN), as well as in acidic and phosphate-depleted PCN, comparable to the macrophage environment and inducing therefore the expression of Salmonella pathogenicity island 2 (SPI-2) genes. Moreover, Salmonella pathogenicity island 1 (SPI-1), which is required for virulence during the intestinal phase of infection, was induced by culturing S. Typhimurium to the stationary phase in Lysogeny Broth (LB). For each condition, we identified OMV-associated RNAs that are enriched in the extracellular environment relative to the intracellular space. All RNA classes could be observed, but a vast majority of rRNA was exported in all conditions in variable proportions with a notable decrease in LB SPI-1 inducing media. Several mRNAs and ncRNAs were specifically enriched in/on OMVs dependent on the growth conditions. Important to note is that some RNAs showed identical read coverage profiles intracellularly and extracellularly, whereas distinct coverage patterns were observed for other transcripts, suggesting a specific processing or degradation. Moreover, PCR experiments confirmed that distinct RNAs were present in or on OMVs as full-length transcripts (IsrB-1/2; IsrA; ffs; SsrS; CsrC; pSLT035; 10Sa; rnpB; STM0277; sseB; STM0972; STM2606), whereas others seemed to be rather present in a processed or degraded form. Finally, we show by a digestion protection assay that OMVs are able to preve

Published
2018

8. A genome wide dosage suppressor network reveals genomic robustness

Author

Patra, B., Kon, Y., Yadav, G., Sevold, A. W., Frumkin, J. P., Vallabhajosyula, R. R., Hintze, Arend, Stman, B., Schossau, J., Bhan, A., Marzolf, B., Tamashiro, J. K., Kaur, A., Baliga, N. S., Grayhack, E. J., Adami, C., Galas, D. J., Raval, A., Phizicky, E. M., Ray, A., Patra, B., Kon, Y., Yadav, G., Sevold, A. W., Frumkin, J. P., Vallabhajosyula, R. R., Hintze, Arend, Stman, B., Schossau, J., Bhan, A., Marzolf, B., Tamashiro, J. K., Kaur, A., Baliga, N. S., Grayhack, E. J., Adami, C., Galas, D. J., Raval, A., Phizicky, E. M., and Ray, A.

Abstract

Genomic robustness is the extent to which an organism has evolved to withstand the effects of deleterious mutations. We explored the extent of genomic robustness in budding yeast by genome wide dosage suppressor analysis of 53 conditional lethal mutations in cell division cycle and RNA synthesis related genes, revealing 660 suppressor interactions of which 642 are novel. This collection has several distinctive features, including high cooccurrence of mutant-suppressor pairs within protein modules, highly correlated functions between the pairs and higher diversity of functions among the co-suppressors than previously observed. Dosage suppression of essential genes encoding RNA polymerase subunits and chromosome cohesion complex suggests a surprising degree of functional plasticity of macromolecular complexes, and the existence of numerous degenerate pathways for circumventing the effects of potentially lethal mutations. These results imply that organisms and cancer are likely able to exploit the genomic robustness properties, due the persistence of cryptic gene and pathway functions, to generate variation and adapt to selective pressures. © 2016 The Author(s).

Published
2017
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9. Extending gene ontology in the context of extracellular RNA and vesicle communication

Author

Cheung, K-H, Keerthikumar, S, Roncaglia, P, Subramanian, SL, Roth, ME, Samuel, M, Anand, S, Gangoda, L, Gould, S, Alexander, R, Galas, D, Gerstein, MB, Hill, AF, Kitchen, RR, Lotvall, J, Patel, T, Procaccini, DC, Quesenberry, P, Rozowsky, J, Raffai, RL, Shypitsyna, A, Su, AI, Thery, C, Vickers, K, Wauben, MHM, Mathivanan, S, Milosavljevic, A, Laurent, LC, Cheung, K-H, Keerthikumar, S, Roncaglia, P, Subramanian, SL, Roth, ME, Samuel, M, Anand, S, Gangoda, L, Gould, S, Alexander, R, Galas, D, Gerstein, MB, Hill, AF, Kitchen, RR, Lotvall, J, Patel, T, Procaccini, DC, Quesenberry, P, Rozowsky, J, Raffai, RL, Shypitsyna, A, Su, AI, Thery, C, Vickers, K, Wauben, MHM, Mathivanan, S, Milosavljevic, A, and Laurent, LC

Abstract

BACKGROUND: To address the lack of standard terminology to describe extracellular RNA (exRNA) data/metadata, we have launched an inter-community effort to extend the Gene Ontology (GO) with subcellular structure concepts relevant to the exRNA domain. By extending GO in this manner, the exRNA data/metadata will be more easily annotated and queried because it will be based on a shared set of terms and relationships relevant to extracellular research. METHODS: By following a consensus-building process, we have worked with several academic societies/consortia, including ERCC, ISEV, and ASEMV, to identify and approve a set of exRNA and extracellular vesicle-related terms and relationships that have been incorporated into GO. In addition, we have initiated an ongoing process of extractions of gene product annotations associated with these terms from Vesiclepedia and ExoCarta, conversion of the extracted annotations to Gene Association File (GAF) format for batch submission to GO, and curation of the submitted annotations by the GO Consortium. As a use case, we have incorporated some of the GO terms into annotations of samples from the exRNA Atlas and implemented a faceted search interface based on such annotations. RESULTS: We have added 7 new terms and modified 9 existing terms (along with their synonyms and relationships) to GO. Additionally, 18,695 unique coding gene products (mRNAs and proteins) and 963 unique non-coding gene products (ncRNAs) which are associated with the terms: "extracellular vesicle", "extracellular exosome", "apoptotic body", and "microvesicle" were extracted from ExoCarta and Vesiclepedia. These annotations are currently being processed for submission to GO. CONCLUSIONS: As an inter-community effort, we have made a substantial update to GO in the exRNA context. We have also demonstrated the utility of some of the new GO terms for sample annotation and metadata search.

Published
2016

10. Mutations in STX1B, encoding a presynaptic protein, cause fever-associated epilepsy syndromes

Author

Schubert, J., Siekierska, A., Langlois, M., May, P., Huneau, C., Becker, F., Muhle, H., Suls, A., Lemke, J. R., de Kovel, C. G. F., Thiele, H., Konrad, K., Kawalia, A., Toliat, M. R., Sander, T., Ruschendorf, F., Caliebe, A., Nagel, I., Kohl, B., Kecskes, A., Jacmin, M., Hardies, K., Weckhuysen, S., Riesch, E., Dorn, T., Brilstra, E. H., Baulac, S., Moller, R. S., Hjalgrim, H., Koeleman, B. P. C., Jurkat-Rott, K., Lehman-Horn, F., Roach, J. C., Glusman, G., Hood, L., Galas, D. J., Martin, B., de Witte, P. A. M., Biskup, S., De Jonghe, P., Helbig, I., Balling, R., Nurnberg, P., Crawford, A. D., Esguerra, C. V., Weber, Y. G., Lerche, H., Euro, Epinomics R. E. S. Consortium, EuroEPINOMICS RES Consortium, [GIN] Grenoble Institut des Neurosciences (GIN), Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM), Luxembourg Centre For Systems Biomedicine (LCSB), University of Luxembourg [Luxembourg], Institute for Systems Biology [Seattle] (ISB), Laboratoire Traitement du Signal et de l'Image (LTSI), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Santé et de la Recherche Médicale (INSERM), Neurogenetics Group, Institut für Humangenetik, Universität Heidelberg [Heidelberg], Cologne Center for Genomics (CCG), University of Cologne, Department of Molecular and Developmental Genetics (VIB11), Flanders institute of biotechnology, Institut du Cerveau et de la Moëlle Epinière = Brain and Spine Institute (ICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Centre National de la Recherche Scientifique (CNRS), Centre de Recherche de l'Institut du Cerveau et de la Moelle épinière (CRICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Medical Genetics Laboratory, Université Grenoble Alpes - UFR Médecine (UGA UFRM), Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Laboratory of Pharmaceutical Biology, Faculty of Pharmaceutical Sciences Lueven Belgium, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Center for Genomics and Transcriptomics (CEGAT), Antwerp University Hospital [Edegem] (UZA), Children’s Hospital of Philadelphia (CHOP ), Cologne Center for Genomics, University of Cologne, Université de Rennes (UR)-Institut National de la Santé et de la Recherche Médicale (INSERM), Universität Heidelberg [Heidelberg] = Heidelberg University, and Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Male, Genetic Linkage, [SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Syntaxin 1, medicine.disease_cause, Epilepsy/genetics, Cohort Studies, Epilepsy, 0302 clinical medicine, Syntaxin 1/genetics, Missense mutation, Exome, ComputingMilieux_MISCELLANEOUS, In Situ Hybridization, Fluorescence, Zebrafish, Genetics, 0303 health sciences, Mutation, Comparative Genomic Hybridization, Temperature, PAROXYSMAL KINESIGENIC DYSKINESIA SYNAPTIC VESICLE FUSION DE-NOVO MUTATIONS FEBRILE SEIZURES INFANTILE CONVULSIONS GENERALIZED EPILEPSY PRRT2 MUTATIONS GENERATION DISORDERS ZEBRAFISH, Pedigree, Phenotype, Codon, Nonsense, Female, Molecular Sequence Data, Biology, Polymorphism, Single Nucleotide, Seizures, Febrile, 03 medical and health sciences, SCN1B, medicine, Animals, Humans, Amino Acid Sequence, Seizures, Febrile/genetics, Generalized epilepsy, 030304 developmental biology, [SDV.GEN]Life Sciences [q-bio]/Genetics, Sequence Analysis, DNA, Paroxysmal dyskinesia, medicine.disease, Epilepsy syndromes, Human medicine, 030217 neurology & neurosurgery, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Gene Deletion
Abstract

Febrile seizures affect 2-4% of all children(1) and have a strong genetic component(2). Recurrent mutations in three main genes (SCN1A, SCN1B and GABRG2)(3-5) have been identified that cause febrile seizures with or without epilepsy. Here we report the identification of mutations in STX1B, encoding syntaxin-1B(6), that are associated with both febrile seizures and epilepsy. Whole-exome sequencing in independent large pedigrees(7,8) identified cosegregating STX1B mutations predicted to cause an early truncation or an in-frame insertion or deletion. Three additional nonsense or missense mutations and a de novo microdeletion encompassing STX1B were then identified in 449 familial or sporadic cases. Video and local field potential analyses of zebrafish larvae with antisense knockdown of stx1b showed seizure-like behavior and epileptiform discharges that were highly sensitive to increased temperature. Wild-type human syntaxin-1B but not a mutated protein rescued the effects of stx1b knockdown in zebrafish. Our results thus implicate STX1B and the presynaptic release machinery in fever-associated epilepsy syndromes.

Published
2014
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11. Correction: Alternating Hemiplegia of Childhood: Retrospective Genetic Study and Genotype-Phenotype Correlations in 187 Subjects from the US AHCF Registry.

Author

Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Mérida, MR, Ptáček, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, Sotero de Menezes, MA, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, Swoboda, KJ, Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Mérida, MR, Ptáček, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, Sotero de Menezes, MA, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, and Swoboda, KJ

Published
2015

12. Alternating Hemiplegia of Childhood: Retrospective Genetic Study and Genotype-Phenotype Correlations in 187 Subjects from the US AHCF Registry

Author

Zhou, F, Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Merida, MR, Ptacek, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, de Menezes, MAS, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, Swoboda, KJ, Zhou, F, Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Merida, MR, Ptacek, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, de Menezes, MAS, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, and Swoboda, KJ

Abstract

Mutations in ATP1A3 cause Alternating Hemiplegia of Childhood (AHC) by disrupting function of the neuronal Na+/K+ ATPase. Published studies to date indicate 2 recurrent mutations, D801N and E815K, and a more severe phenotype in the E815K cohort. We performed mutation analysis and retrospective genotype-phenotype correlations in all eligible patients with AHC enrolled in the US AHC Foundation registry from 1997-2012. Clinical data were abstracted from standardized caregivers' questionnaires and medical records and confirmed by expert clinicians. We identified ATP1A3 mutations by Sanger and whole genome sequencing, and compared phenotypes within and between 4 groups of subjects, those with D801N, E815K, other ATP1A3 or no ATP1A3 mutations. We identified heterozygous ATP1A3 mutations in 154 of 187 (82%) AHC patients. Of 34 unique mutations, 31 (91%) are missense, and 16 (47%) had not been previously reported. Concordant with prior studies, more than 2/3 of all mutations are clusteredin exons 17 and 18. Of 143 simplex occurrences, 58 had D801N (40%), 38 had E815K(26%) and 11 had G947R (8%) mutations [corrected].Patients with an E815K mutation demonstrate an earlier age of onset, more severe motor impairment and a higher prevalence of status epilepticus. This study further expands the number and spectrum of ATP1A3 mutations associated with AHC and confirms a more deleterious effect of the E815K mutation on selected neurologic outcomes. However, the complexity of the disorder and the extensive phenotypic variability among subgroups merits caution and emphasizes the need for further studies.

Published
2015

13. Alternating hemiplegia of childhood: Retrospective genetic study and genotype-phenotype correlations in 187 subjects from the US AHCF registry

Author

Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Mérida, MR, Ptáček, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, De Menezes, MAS, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, Swoboda, KJ, Viollet, L, Glusman, G, Murphy, KJ, Newcomb, TM, Reyna, SP, Sweney, M, Nelson, B, Andermann, F, Andermann, E, Acsadi, G, Barbano, RL, Brown, C, Brunkow, ME, Chugani, HT, Cheyette, SR, Collins, A, DeBrosse, SD, Galas, D, Friedman, J, Hood, L, Huff, C, Jorde, LB, King, MD, LaSalle, B, Leventer, RJ, Lewelt, AJ, Massart, MB, Mérida, MR, Ptáček, LJ, Roach, JC, Rust, RS, Renault, F, Sanger, TD, De Menezes, MAS, Tennyson, R, Uldall, P, Zhang, Y, Zupanc, M, Xin, W, Silver, K, and Swoboda, KJ

Abstract

Mutations in ATP1A3 cause Alternating Hemiplegia of Childhood (AHC) by disrupting function of the neuronal Na+/K+ ATPase. Published studies to date indicate 2 recurrent mutations, D801N and E815K, and a more severe phenotype in the E815K cohort. We performed mutation analysis and retrospective genotype-phenotype correlations in all eligible patients with AHC enrolled in the US AHC Foundation registry from 1997-2012. Clinical data were abstracted from standardized caregivers' questionnaires and medical records and confirmed by expert clinicians. We identified ATP1A3 mutations by Sanger and whole genome sequencing, and compared phenotypes within and between 4 groups of subjects, those with D801N, E815K, other ATP1A3 or no ATP1A3 mutations. We identified heterozygous ATP1A3 mutations in 154 of 187 (82%) AHC patients. Of 34 unique mutations, 31 (91%) are missense, and 16 (47%) had not been previously reported. Concordant with prior studies, more than 2/3 of all mutations are clustered in exons 17 and 18. Of 143 simplex occurrences, 58 had D801N (40%), 38 had E815K (26%) and 11 had G937R (8%) mutations. Patients with an E815K mutation demonstrate an earlier age of onset, more severe motor impairment and a higher prevalence of status epilepticus. This study further expands the number and spectrum of ATP1A3 mutations associated with AHC and confirms a more deleterious effect of the E815K mutation on selected neurologic outcomes. However, the complexity of the disorder and the extensive phenotypic variability among subgroups merits caution and emphasizes the need for further studies.

Published
2015

18. Urinary MicroRNA Profiling in the Nephropathy of Type 1 Diabetes

Author

Argyropoulos, C, Wang, K, McClarty, S, Huang, D, Bernardo, J, Ellis, D, Orchard, T, Galas, D, Johnson, J, Argyropoulos, C, Wang, K, McClarty, S, Huang, D, Bernardo, J, Ellis, D, Orchard, T, Galas, D, and Johnson, J

Abstract

Background: Patients with Type 1 Diabetes (T1D) are particularly vulnerable to development of Diabetic nephropathy (DN) leading to End Stage Renal Disease. Hence a better understanding of the factors affecting kidney disease progression in T1D is urgently needed. In recent years microRNAs have emerged as important post-transcriptional regulators of gene expression in many different health conditions. We hypothesized that urinary microRNA profile of patients will differ in the different stages of diabetic renal disease. Methods and Findings: We studied urine microRNA profiles with qPCR in 40 T1D with >20 year follow up 10 who never developed renal disease (N) matched against 10 patients who went on to develop overt nephropathy (DN), 10 patients with intermittent microalbuminuria (IMA) matched against 10 patients with persistent (PMA) microalbuminuria. A Bayesian procedure was used to normalize and convert raw signals to expression ratios. We applied formal statistical techniques to translate fold changes to profiles of microRNA targets which were then used to make inferences about biological pathways in the Gene Ontology and REACTOME structured vocabularies. A total of 27 microRNAs were found to be present at significantly different levels in different stages of untreated nephropathy. These microRNAs mapped to overlapping pathways pertaining to growth factor signaling and renal fibrosis known to be targeted in diabetic kidney disease. Conclusions: Urinary microRNA profiles differ across the different stages of diabetic nephropathy. Previous work using experimental, clinical chemistry or biopsy samples has demonstrated differential expression of many of these microRNAs in a variety of chronic renal conditions and diabetes. Combining expression ratios of microRNAs with formal inferences about their predicted mRNA targets and associated biological pathways may yield useful markers for early diagnosis and risk stratification of DN in T1D by inferring the alteration of re

Published
2013

22. Integrating the MicroRNome into the study of lung disease.

Author

Nana-Sinkam SP, Hunter MG, Nuovo GJ, Schmittgen TD, Gelinas R, Galas D, Marsh CB, Nana-Sinkam, Serge P, Hunter, Melissa G, Nuovo, Gerard J, Schmittgen, Thomas D, Gelinas, Richard, Galas, David, and Marsh, Clay B

Abstract

Over the last 15 years, investigators have identified small noncoding RNAs as regulators of gene expression. One type of noncoding RNAs are termed microRNAs (miRNAs). miRNAs are evolutionary conserved, approximately 22-nucleotide single-stranded RNAs that target genes by inducing mRNA degradation or by inhibiting translation. miRNAs are implicated in many critical cellular processes, including apoptosis, proliferation, and differentiation. Furthermore, it is estimated that miRNAs may be responsible for regulating the expression of nearly one-third of the human genome. Despite the identification of greater than 500 mature miRNAs, very little is known about their biological functions and functional targets. In the last 5 years, researchers have increasingly focused on the functional relevance and role that miRNAs play in the pathogenesis of human disease. miRNAs are known to be important in solid organ and hematological malignancies, heart disease, as potential modulators of the immune response, and organ development. It is anticipated that miRNA analysis will emerge as an important complement to proteomic and genomic studies to further our understanding of disease pathogenesis. Despite the application of genomics and proteomics to the study of human lung disease, few studies have examined miRNA expression. This perspective is not meant to be an exhaustive review of miRNA biology but will provide an overview of both miRNA biogenesis and our current understanding of the role of miRNAs in lung disease as well as a perspective on the importance of integrating this analysis as a tool for identifying and understanding the biological pathways in lung-disease pathogenesis. [ABSTRACT FROM AUTHOR]

Published
2009
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27. Functional organization of the ends of IS<em>1</em>: specific binding site for an IS<em>1</em>-encoded protein.

Author

Zerbib, D., Prentki, P., Gamas, P., Freund, E., Galas, D. J., and Chandler, M.

Subjects
PROTEINS, PROTEIN binding, GENE expression, CHROMOSOMAL translocation, DNA, NUCLEOTIDE sequence
Abstract

The IS1-encoded protein InsA binds specifically to both ends of IS1 and acts as a repressor of IS1 gene expression and may be a direct inhibitor of the transposition process. We show here, using DNasel 'foot-printing' and gel retardation, that the InsA binding sites are located within the 24/25bp minimal active ends of IS1 and that InsA induces DNA bending upon binding. Conformational modification of the ends of IS1 as a result of binding of the host protein Integration host factor (IHF) to its site within the minimal ends has been previously observed. Using a collection of synthetic mutant ends we have mapped some of the nucleotide sequence requirements for InsA binding and for transposition activity. We show that sequences necessary for InsA binding are also essential for transposition activity. We demonstrate that InsA and IHF binding sites overlap since some sequence determinants are shared by both InsA and IHF. The data suggest that these ends contain two functional domains: one for binding of InsA and IHF, and the other for transposition activity. A third region, when present, may enhance transposition activity with an intact right end. This 'architecture' of the ends of IS1 is remarkably similar to that of IS elements IS10, IS50 and IS903. [ABSTRACT FROM AUTHOR]

Published
1990
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28. The regulatory role of the IS1-encoded InsA protein in transposition.

Author

Zerbib, D., Polard, P., Escoubas, J. M., Galas, D., and Chandler, M.

Subjects
PROTEINS, TRANSPOSONS, ESCHERICHIA coli, GENES, GENE expression
Abstract

We show here that the protein InsA, which is encoded by IS1 and binds specifically to the terminal inverted repeats of this insertion sequence, negatively regulates IS1 transposition activity. We demonstrate that it inhibits both IS1-mediated cointegrate formation and transposition of a synthetic IS1-based transposon ('omegon'; ω-on). These results also indicate that the ω-on which does not itself encode IS1 transposition functions can be complemented in trans, presumably by the copies of IS1 resident in the Escherichia coli chromosome. Using insA-lacZ gene fusions, we show that at least part of this effect can be explained by the ability of InsA to repress expression of IS1-encoded genes both in cis or in trans. The experiments involving ωon transposition raise the possibility that InsA inhibits transposition directly by competition with the transposase for their cognate site within the ends of IS1. [ABSTRACT FROM AUTHOR]

Published
1990
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31. Escherichia coli integration host factor bends the DNA at the ends of IS1 and in an insertion hotspot with multiple IHF binding sites.

Author

Prentki, P., Chandler, M., and Galas, D. J.

Abstract

The integration host factor of Escherichia coli (IHF) is a small, histone‐like protein which participates in the integration of bacteriophage lambda into the E. coli chromosome and in a number of regulatory processes. Our recent footprinting analysis has shown that IHF binds specifically to the ends of the transposable element IS1, as well as to several sites within a short segment of the plasmid pBR322. We have extended our studies of the binding of the IHF molecule to these sites in vitro using a gel retardation assay. We report here that IHF bends the DNA upon binding, as judged from the strong cyclic dependence of the protein‐induced mobility shift on the position of the binding site. Using cloned, synthetic ends of IS1 as substrates, we have found that some mutations within the conserved bases of the IHF consensus binding sequence abolish binding, and that alterations of the flanking sequences can greatly reduce IHF binding. The presence of multiple IHF sites on a single DNA fragment increases binding very little, indicating that IHF does not bind cooperatively in this complex. We discuss the possibility that DNA bending is related to the role IHF plays in forming and stabilizing nucleoprotein complexes, and suggest that bending at the IHF sites may be important to its diverse effects in the cell.

Published
1987
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32. Expression of proteins essential for IS1 transposition: specific binding of InsA to the ends of IS1.

Author

Zerbib, D., Jakowec, M., Prentki, P., Galas, D. J., and Chandler, M.

Abstract

The insertion sequence IS1 displays a complex array of open reading frames (ORF). In an attempt to identify those which encode polypeptide products, we have systematically placed each ORF under the control of the P1 promoter of phage lambda. In the expression system we used, only the product of the insA gene was present in high enough amounts to be detected by polyacrylamide gel electrophoresis. The production of InsA was further increased in a first codon hook‐up to phage T7 transcriptional and translational initiation signals. Cell extracts from InsA overproducers display a DNA binding activity specific for the ends of IS1. This activity was identified as the InsA protein itself.

Published
1987
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33. On the molecular mechanisms of transposition.

Author

Galas, D J and Chandler, M

Abstract

We present a model for transposition that allows a choice between cointegrate formation (replicon fusion) and direct transposition. We propose that initiation of the process occurs by invasion of the target DNA by a single-stranded end of the transposable element. This leads to nicking of one of the DNA strands of the target molecule and ligation of this strand to that of the invading transposon. Transposition then occurs in a processive way by replication of the element from the invading end into the target site in a looped rolling-circle mode similar to replication of phage phi X174 replicative form to viral strand. The choice between cointegrate formation and direct transposition occurs at the nick-ligation step, which terminates the process. We suggest that the choice is determined by the topology of the transposition enzymes and could be related to whether the element generates five- or nine-base-pair repeats in the target DNA on insertion.

Published
1981
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34. The interaction of RNA polymerase and lac repressor with the lac control region.

Author

Schmitz, A and Galas, D J

Abstract

We have examined the interactions of lac repressor and RNA polymerase with the DNA of the lac control region, using a method for direct visualization of the regions of DNA protected by proteins from DNAase attack. The repressor protects the operator essentially as reported by Gilbert and Maxam (1) with some small modifications. However, the evidence reported here concerning the binding of RNA polymerase to the DNA of the promoter mutant UV5 indicates that : 1) the RNA polymerase molecule binds asymmetrically to the promoter DNA, 2) RNA polymerase protects DNA sequences to within a few bases of the CAP binding site, suggesting direct interaction between polymerase and the CAP protein at this site, 3) RNA polymerase still binds to the promoter when repressor is bound to the operator, but fails to form the same extensive complex.

Published
1979
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35. Single-sperm typing: determination of genetic distance between the G gamma-globin and parathyroid hormone loci by using the polymerase chain reaction and allele-specific oligomers.

Author

Cui, X F, Li, H H, Goradia, T M, Lange, K, Kazazian, H H, Galas, D, and Arnheim, N

Abstract

The frequency of recombination between the G gamma-globin (HBG2) and parathyroid hormone (PTH) loci on the short arm of human chromosome 11 was estimated by typing greater than 700 single-sperm samples from two males. The sperm-typing technique employed involves the polymerase chain reaction and allele-specific oligonucleotide hybridization. Our maximum likelihood recombination fraction estimate of 0.16 (95%) confidence interval, 0.13-0.19) falls well within previous estimates based on family studies. With current technology and a sample size of 1000 sperm, recombination fractions down to approximately 0.009 can be estimated with statistical reliability; with a sample size of 5000 sperm, this value drops to about 0.004. Reasonable technological improvements could result in the detection of recombination frequencies less than 0.001.

Published
1989
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36. The relationship between codon boundaries and multiple reading-frame preferences: coding organization of bacterial insertion sequences.

Author

Galas, D J and Smith, T F

Abstract

Theoretical considerations have shown that the five possible overlapping reading-frame configurations differ significantly in their coding flexibility and thus in their information content (Siegel and Fitch 1980; Smith and Waterman 1980). Contrary to expectation, the overlapping frame configuration allowing the greatest coding flexibility is rarely seen, whereas one of the most constraining is common. We point out here that this overlapping reading-frame paradox and an observed but unexplained preference in coding regions for a pyrimidine-purine at codon boundaries (Shepherd 1981; Jones and Kafatos 1982; Smith et al. 1983) are intimately linked. The codon boundary preference, which may be related to translation efficiency or accuracy, places constraints on the evolution of overlapping coding regions. These considerations may help identify actual coding regions in DNA sequences. We have analyzed five sequenced (enteric) bacterial insertion sequences for codon boundary incidences and reading-frame configurations and find that they are consistent with these proposed constraints.

Published
1984
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37. Cointegrate formation by Tn5, but not transposition, is dependent on recA.

Author

Hirschel, B J, Galas, D J, and Chandler, M

Abstract

We have studied the effect of the recA-dependent homologous recombination system of Escherichia coli on both Tn5-mediated cointegrate formation and Tn5 transposition. We demonstrate here that, whereas transposition of Tn5 is independent of the recA gene product (as has been shown by other workers), Tn5-mediated cointegrate formation is strongly dependent on recA. The structures of both the simple transposition products and the cointegrates formed in a recA- background seem to be the same as those produced in a recA+ background. These results provide strong evidence that Tn5 does not transpose via an obligate cointegrate intermediate and suggest that the recA effect on cointegrate formation is exerted during the process of transposition.

Published
1982
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44. Systems biology of interstitial lung diseases: integration of mRNA and microRNA expression changes

Author

Price Jennifer, Dakhallah Duaa, Batte Kara, Piper Melissa G, Wang Kai, Etheridge Alton, Gelinas Richard, Cho Ji-Hoon, Bornman Dan, Zhang Shile, Marsh Clay, and Galas David

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background The molecular pathways involved in the interstitial lung diseases (ILDs) are poorly understood. Systems biology approaches, with global expression data sets, were used to identify perturbed gene networks, to gain some understanding of the underlying mechanisms, and to develop specific hypotheses relevant to these chronic lung diseases. Methods Lung tissue samples from patients with different types of ILD were obtained from the Lung Tissue Research Consortium and total cell RNA was isolated. Global mRNA and microRNA were profiled by hybridization and amplification-based methods. Differentially expressed genes were compiled and used to identify critical signaling pathways and potential biomarkers. Modules of genes were identified that formed a regulatory network, and studies were performed on cultured cells in vitro for comparison with the in vivo results. Results By profiling mRNA and microRNA (miRNA) expression levels, we found subsets of differentially expressed genes that distinguished patients with ILDs from controls and that correlated with different disease stages and subtypes of ILDs. Network analysis, based on pathway databases, revealed several disease-associated gene modules, involving genes from the TGF-β, Wnt, focal adhesion, and smooth muscle actin pathways that are implicated in advancing fibrosis, a critical pathological process in ILDs. A more comprehensive approach was also adapted to construct a putative global gene regulatory network based on the perturbation of key regulatory elements, transcription factors and microRNAs. Our data underscores the importance of TGF-β signaling and the persistence of smooth muscle actin-containing fibroblasts in these diseases. We present evidence that, downstream of TGF-β signaling, microRNAs of the miR-23a cluster and the transcription factor Zeb1 could have roles in mediating an epithelial to mesenchymal transition (EMT) and the resultant persistence of mesenchymal cells in these diseases. Conclusions We present a comprehensive overview of the molecular networks perturbed in ILDs, discuss several potential key molecular regulatory circuits, and identify microRNA species that may play central roles in facilitating the progression of ILDs. These findings advance our understanding of these diseases at the molecular level, provide new molecular signatures in defining the specific characteristics of the diseases, suggest new hypotheses, and reveal new potential targets for therapeutic intervention.

Published
2011
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