Your search keyword '"Skrabanek, L"' showing total 40 results

1. Blood transcriptomic markers of Mycobacterium tuberculosis load in sputum

Author

Dupnik, K. M., primary, Bean, J. M., additional, Lee, M. H., additional, Jean Juste, M. A., additional, Skrabanek, L., additional, Rivera, V., additional, Vorkas, C. K., additional, Pape, J. W., additional, Fitzgerald, D. W., additional, and Glickman, M., additional

Published

2018

2. Aberrant DNA hypermethylation signature in acute myeloid leukemia directed by EVI1

Author

Lugthart, S. (Sanne), Figueroa, M.E. (Maria Eugenia), Bindels, E.M.J. (Eric), Skrabanek, L. (Lucy), Valk, P.J.M. (Peter), Li, Y. (Yushan), Meyer, S. (Stefan), Erpelinck, C.A.J. (Claudia), Greally, J.M. (John), Löwenberg, B. (Bob), Melnick, A.M. (Ari), Delwel, H.R. (Ruud), Lugthart, S. (Sanne), Figueroa, M.E. (Maria Eugenia), Bindels, E.M.J. (Eric), Skrabanek, L. (Lucy), Valk, P.J.M. (Peter), Li, Y. (Yushan), Meyer, S. (Stefan), Erpelinck, C.A.J. (Claudia), Greally, J.M. (John), Löwenberg, B. (Bob), Melnick, A.M. (Ari), and Delwel, H.R. (Ruud)

Abstract

DNA methylation patterns are frequently dysregulated in cancer, although little is known of the mechanisms through which specific gene sets become aberrantly methylated. The ecotropic viral integration site 1 (EVI1) locus encodes a DNA binding zinc-finger transcription factor that is aberrantly expressed in a subset of acute myeloid leukemia (AML) patients with poor outcome. We find that the promoter DNA methylation signature of EVI1 AML blast cells differs from those of normal CD34+bone marrow cells and other AMLs. This signature contained 294 differentially methylated genes, of which 238 (81%) were coordinately hypermethylated. An unbiased motif analysis revealed an overrepresentation of EVI1 binding sites among these aberrantly hypermethylated loci. EVI1 was capable of binding to these promoters in 2 different EVI1-expressing cell lines, whereas no binding was observed in an EVI1-negative cell line. Furthermore, EVI1 was observed to interact with DNA methyl transferases 3A and 3B. Among the EVI1 AML cases, 2 subgroups were recognized, of which 1 contained AMLs with many more methylated genes, which was associated with significantly higher levels of EVI1 than in the cases of the other subgroup. Our data point to a role for EVI1 in directing aberrant promoter DNA methylation patterning in EVI1 AMLs.

Published

2011

3. GPCR-OKB: the G Protein Coupled Receptor Oligomer Knowledge Base.

Author

Khelashvili, G., Dorff, K., Shan, J., Camacho-Artacho, M., Skrabanek, L., Vroling, B., Bouvier, M., Devi, L.A., George, S.R., Javitch, J.A., Lohse, M.J., Milligan, G., Neubig, R.R., Palczewski, K., Parmentier, M., Pin, J.P., Vriend, G., Campagne, F., Filizola, M., Khelashvili, G., Dorff, K., Shan, J., Camacho-Artacho, M., Skrabanek, L., Vroling, B., Bouvier, M., Devi, L.A., George, S.R., Javitch, J.A., Lohse, M.J., Milligan, G., Neubig, R.R., Palczewski, K., Parmentier, M., Pin, J.P., Vriend, G., Campagne, F., and Filizola, M.

Abstract

Contains fulltext : 88567.pdf (publisher's version ) (Closed access), SUMMARY: Rapid expansion of available data about G Protein Coupled Receptor (GPCR) dimers/oligomers over the past few years requires an effective system to organize this information electronically. Based on an ontology derived from a community dialog involving colleagues using experimental and computational methodologies, we developed the GPCR-Oligomerization Knowledge Base (GPCR-OKB). GPCR-OKB is a system that supports browsing and searching for GPCR oligomer data. Such data were manually derived from the literature. While focused on GPCR oligomers, GPCR-OKB is seamlessly connected to GPCRDB, facilitating the correlation of information about GPCR protomers and oligomers. Availability and Implementation: The GPCR-OKB web application is freely available at http://www.gpcr-okb.org

Published

2010

4. DNA Methylation Signatures Identify Biologically Distinct Subtypes in Acute Myeloid Leukemia

Author

Figueroa, M.E. (Maria Eugenia), Lugthart, S. (Sanne), Li, Y. (Yushan), Erpelinck, C.A.J. (Claudia), Deng, X. (Xutao), Christos, P.J. (Paul), Schifano, E. (Elizabeth), Booth, J. (James), Putten, W.L.J. (Wim) van, Skrabanek, L. (Lucy), Campagne, F. (Fabien), Mazumdar, M. (Madhu), Greally, J.M. (John), Valk, P.J.M. (Peter), Löwenberg, B. (Bob), Delwel, H.R. (Ruud), Melnick, A.M. (Ari), Figueroa, M.E. (Maria Eugenia), Lugthart, S. (Sanne), Li, Y. (Yushan), Erpelinck, C.A.J. (Claudia), Deng, X. (Xutao), Christos, P.J. (Paul), Schifano, E. (Elizabeth), Booth, J. (James), Putten, W.L.J. (Wim) van, Skrabanek, L. (Lucy), Campagne, F. (Fabien), Mazumdar, M. (Madhu), Greally, J.M. (John), Valk, P.J.M. (Peter), Löwenberg, B. (Bob), Delwel, H.R. (Ruud), and Melnick, A.M. (Ari)

Abstract

We hypothesized that DNA methylation distributes into specific patterns in cancer cells, which reflect critical biological differences. We therefore examined the methylation profiles of 344 patients with acute myeloid leukemia (AML). Clustering of these patients by methylation data segregated patients into 16 groups. Five of these groups defined new AML subtypes that shared no other known feature. In addition, DNA methylation profiles segregated patients with CEBPA aberrations from other subtypes of leukemia, defined four epigenetically distinct forms of AML with NPM1 mutations, and showed that established AML1-ETO, CBFb-MYH11, and PML-RARA leukemia entities are associated with specific methylation profiles. We report a 15 gene methylation classifier predictive of overall survival in an independent patient cohort (p < 0.001, adjusted for known covariates).

Published

2010

5. DNA Methylation Signatures Identify Biologically Distinct Subtypes in Acute Myeloid Leukemia

Author

Figueroa, ME, Lugthart, Sanne, Li, YS, Erpelinck - Verschueren, Claudia, Deng, XT, Christos, PJ, Schifano, E, Booth, J, Putten, Wim, Skrabanek, L, Campagne, F, Mazumdar, M, Greally, JM, Valk, Peter, Löwenberg, Bob, Delwel, Ruud, Melnick, A, Figueroa, ME, Lugthart, Sanne, Li, YS, Erpelinck - Verschueren, Claudia, Deng, XT, Christos, PJ, Schifano, E, Booth, J, Putten, Wim, Skrabanek, L, Campagne, F, Mazumdar, M, Greally, JM, Valk, Peter, Löwenberg, Bob, Delwel, Ruud, and Melnick, A

Abstract

We hypothesized that DNA methylation distributes into specific patterns in cancer cells, which reflect critical biological differences. We therefore examined the methylation profiles of 344 patients with acute myeloid leukemia (AML). Clustering of these patients by methylation data segregated patients into 16 groups. Five of these groups defined new AML subtypes that shared no other known feature. In addition, DNA methylation profiles segregated patients with CEBPA aberrations from other subtypes of leukemia, defined four epigenetically distinct forms of AML with NPM1 mutations, and showed that established AML1-ETO, CBFb-MYH11, and PML-RARA leukemia entities are associated with specific methylation profiles. We report a 15 gene methylation classifier predictive of overall survival in an independent patient cohort (p < 0.001, adjusted for known covariates).

Published

2010

6. Genome-wide epigenetic analysis delineates a biologically distinct immature acute leukemia with myeloid/T-lymphoid features

Author

Figueroa, M.E. (Maria Eugenia), Wouters, B.J. (Bas), Skrabanek, L. (Lucy), Glass, J. (Jacob), Li, Y. (Yushan), Erpelinck, C.A.J. (Claudia), Langerak, A.W. (Anton), Löwenberg, B. (Bob), Fazzari, M. (Melissa), Greally, J.M. (John), Valk, P.J.M. (Peter), Melnick, A.M. (Ari), Delwel, H.R. (Ruud), Figueroa, M.E. (Maria Eugenia), Wouters, B.J. (Bas), Skrabanek, L. (Lucy), Glass, J. (Jacob), Li, Y. (Yushan), Erpelinck, C.A.J. (Claudia), Langerak, A.W. (Anton), Löwenberg, B. (Bob), Fazzari, M. (Melissa), Greally, J.M. (John), Valk, P.J.M. (Peter), Melnick, A.M. (Ari), and Delwel, H.R. (Ruud)

Abstract

Acute myeloid leukemia is a heterogeneous disease from the molecular and biologic standpoints, and even patients with a specific gene expression profile may present clinical and molecular heterogeneity. We studied the epigenetic profiles of a cohort of patients who shared a common gene expression profile but differed in that only half of them harbored mutations of the CEBPA locus, whereas the rest presented with silencing of this gene and coexpression of certain T-cell markers. DNA methylation studies revealed that these 2 groups of patients could be readily segregated in an unsupervised fashion based on their DNA methylation profiles alone. Furthermore, CEBPA silencing was associated with the presence of an aberrant DNA hypermet

Published

2009

7. Genome-wide epigenetic analysis delineates a biologically distinct immature acute leukemia with myeloid/T-lymphoid features

Author

Figueroa, ME, Wouters, Bas, Skrabanek, L, Glass, J, Li, YS, Erpelinck - Verschueren, Claudia, Langerak, Ton, Löwenberg, Bob, Fazzari, M, Greally, JM, Valk, Peter, Melnick, A, Delwel, Ruud, Figueroa, ME, Wouters, Bas, Skrabanek, L, Glass, J, Li, YS, Erpelinck - Verschueren, Claudia, Langerak, Ton, Löwenberg, Bob, Fazzari, M, Greally, JM, Valk, Peter, Melnick, A, and Delwel, Ruud

Abstract

Acute myeloid leukemia is a heterogeneous disease from the molecular and biologic standpoints, and even patients with a specific gene expression profile may present clinical and molecular heterogeneity. We studied the epigenetic profiles of a cohort of patients who shared a common gene expression profile but differed in that only half of them harbored mutations of the CEBPA locus, whereas the rest presented with silencing of this gene and coexpression of certain T-cell markers. DNA methylation studies revealed that these 2 groups of patients could be readily segregated in an unsupervised fashion based on their DNA methylation profiles alone. Furthermore, CEBPA silencing was associated with the presence of an aberrant DNA hypermethylation signature, which was not present in the CEBPA mutant group. This aberrant hypermethylation occurred more frequently at sites within CpG islands. CEBPA-silenced leukemias also displayed marked hypermethylation compared with normal CD34(+) hematopoietic cells, whereas CEBPA mutant cases showed only mild changes in DNA methylation compared with these normal progenitors. Biologically, CEBPA-silenced leukemias presented with a decreased response to myeloid growth factors in vitro. ( Blood. 2009;113:2795-2804)

Published

2009

8. Requirements and ontology for a G protein-coupled receptor oligomerization knowledge base

Author

Skrabanek, L., Murcia, M., Bouvier, M., Devi, L., George, S.R., Lohse, M.J., Milligan, G., Neubig, R., Palczewski, K., Parmentier, M., Pin, J.P., Vriend, G., Javitch, J.A., Campagne, F., Filizola, M., Skrabanek, L., Murcia, M., Bouvier, M., Devi, L., George, S.R., Lohse, M.J., Milligan, G., Neubig, R., Palczewski, K., Parmentier, M., Pin, J.P., Vriend, G., Javitch, J.A., Campagne, F., and Filizola, M.

Abstract

Contains fulltext : 36408.pdf ( ) (Open Access), BACKGROUND: G Protein-Coupled Receptors (GPCRs) are a large and diverse family of membrane proteins whose members participate in the regulation of most cellular and physiological processes and therefore represent key pharmacological targets. Although several bioinformatics resources support research on GPCRs, most of these have been designed based on the traditional assumption that monomeric GPCRs constitute the functional receptor unit. The increase in the frequency and number of reports about GPCR dimerization/oligomerization and the implication of oligomerization in receptor function makes necessary the ability to store and access information about GPCR dimers/oligomers electronically. RESULTS: We present here the requirements and ontology (the information scheme to describe oligomers and associated concepts and their relationships) for an information system that can manage the elements of information needed to describe comprehensively the phenomena of both homo- and hetero-oligomerization of GPCRs. The comprehensive information management scheme that we plan to use for the development of an intuitive and user-friendly GPCR-Oligomerization Knowledge Base (GPCR-OKB) is the result of a community dialog involving experimental and computational colleagues working on GPCRs. CONCLUSION: Our long term goal is to disseminate to the scientific community organized, curated, and detailed information about GPCR dimerization/oligomerization and its related structural context. This information will be reported as close to the data as possible so the user can make his own judgment on the conclusions drawn for a particular study. The requirements and ontology described here will facilitate the development of future information systems for GPCR oligomers that contain both computational and experimental information about GPCR oligomerization. This information is freely accessible at http://www.gpcr-okb.org.

Published

2007

9. Building protein diagrams on the web with the residue-based diagram editor RbDe

Author

Skrabanek, L., primary

Published

2003

10. TRAC: A Platform for Structure-Function Studies of NSS-Proteins Integrates Information from Bioinformatics and Biomedical Literature.

Author

Lei Shi, Srdanovic, M., Beuming, T., Skrabanek, L., Javitch, J.A., and Weinstein, H.

Published

2010

11. TissueInfo: high-throughput identification of tissue expression profiles and specificity

Author

Skrabanek, L., primary

Published

2001

12. Eukaryote genome duplication - where's the evidence?

Author

Skrabanek, L

Published

1998

13. The eukaryotic translation initiation factor eIF4E reprograms alternative splicing.

Author

Ghram M, Morris G, Culjkovic-Kraljacic B, Mars JC, Gendron P, Skrabanek L, Revuelta MV, Cerchietti L, Guzman ML, and Borden KLB

Subjects

Humans, RNA Splicing Factors metabolism, Eukaryotic Initiation Factor-4E metabolism, RNA Splicing, Eukaryotic Initiation Factors genetics, Mutation, Alternative Splicing, Leukemia, Myeloid, Acute genetics

Abstract

Aberrant splicing is typically attributed to splice-factor (SF) mutation and contributes to malignancies including acute myeloid leukemia (AML). Here, we discovered a mutation-independent means to extensively reprogram alternative splicing (AS). We showed that the dysregulated expression of eukaryotic translation initiation factor eIF4E elevated selective splice-factor production, thereby impacting multiple spliceosome complexes, including factors mutated in AML such as SF3B1 and U2AF1. These changes generated a splicing landscape that predominantly supported altered splice-site selection for ~800 transcripts in cell lines and ~4,600 transcripts in specimens from high-eIF4E AML patients otherwise harboring no known SF mutations. Nuclear RNA immunoprecipitations, export assays, polysome analyses, and mutational studies together revealed that eIF4E primarily increased SF production via its nuclear RNA export activity. By contrast, eIF4E dysregulation did not induce known SF mutations or alter spliceosome number. eIF4E interacted with the spliceosome and some pre-mRNAs, suggesting its direct involvement in specific splicing events. eIF4E induced simultaneous effects on numerous SF proteins, resulting in a much larger range of splicing alterations than in the case of mutation or dysregulation of individual SFs and providing a novel paradigm for splicing control and dysregulation., (© 2023 The Authors. Published under the terms of the CC BY NC ND 4.0 license.)

Published

2023

14. Unique Immune Cell Coactivators Specify Locus Control Region Function and Cell Stage.

Author

Chu CS, Hellmuth JC, Singh R, Ying HY, Skrabanek L, Teater MR, Doane AS, Elemento O, Melnick AM, and Roeder RG

Subjects

Animals, B-Lymphocytes cytology, Cell Line, Tumor, Germinal Center cytology, HEK293 Cells, Humans, MEF2 Transcription Factors genetics, MEF2 Transcription Factors immunology, Mice, Mice, Knockout, Organic Cation Transporter 2 genetics, Organic Cation Transporter 2 immunology, Proto-Oncogene Mas, Proto-Oncogene Proteins c-bcl-6 genetics, Proto-Oncogene Proteins c-bcl-6 immunology, Trans-Activators genetics, Trans-Activators immunology, B-Lymphocytes immunology, Germinal Center immunology, Locus Control Region immunology

Abstract

Locus control region (LCR) functions define cellular identity and have critical roles in diseases such as cancer, although the hierarchy of structural components and associated factors that drive functionality are incompletely understood. Here we show that OCA-B, a B cell-specific coactivator essential for germinal center (GC) formation, forms a ternary complex with the lymphoid-enriched OCT2 and GC-specific MEF2B transcription factors and that this complex occupies and activates an LCR that regulates the BCL6 proto-oncogene and is uniquely required by normal and malignant GC B cells. Mechanistically, through OCA-B-MED1 interactions, this complex is required for Mediator association with the BCL6 promoter. Densely tiled CRISPRi screening indicates that only LCR segments heavily bound by this ternary complex are essential for its function. Our results demonstrate how an intimately linked complex of lineage- and stage-specific factors converges on specific and highly essential enhancer elements to drive the function of a cell-type-defining LCR., Competing Interests: Declaration of Interests A.M.M. receives research funding from Janssen and Sanofi Aventis, consults for Epizyme and Constellation, and is on the advisory board of KDAC Therapeutics. R.G.R. is a member of the Molecular Cell Advisory Board., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

15. The eukaryotic translation initiation factor eIF4E elevates steady-state m 7 G capping of coding and noncoding transcripts.

Author

Culjkovic-Kraljacic B, Skrabanek L, Revuelta MV, Gasiorek J, Cowling VH, Cerchietti L, and Borden KLB

Subjects

Cell Line, Tumor, Eukaryotic Initiation Factor-4E chemistry, Eukaryotic Initiation Factor-4E genetics, Guanosine chemistry, Guanosine genetics, Guanosine metabolism, Humans, Polyribosomes metabolism, RNA Caps chemistry, RNA Caps genetics, RNA, Messenger chemistry, RNA, Messenger genetics, Transcriptome genetics, Eukaryotic Initiation Factor-4E metabolism, Guanosine analogs & derivatives, RNA Caps metabolism, RNA, Messenger metabolism

Abstract

Methyl-7-guanosine (m 7 G) "capping" of coding and some noncoding RNAs is critical for their maturation and subsequent activity. Here, we discovered that eukaryotic translation initiation factor 4E (eIF4E), itself a cap-binding protein, drives the expression of the capping machinery and increased capping efficiency of ∼100 coding and noncoding RNAs. To quantify this, we developed enzymatic (cap quantification; CapQ) and quantitative cap immunoprecipitation (CapIP) methods. The CapQ method has the further advantage that it captures information about capping status independent of the type of 5' cap, i.e., it is not restricted to informing on m 7 G caps. These methodological advances led to unanticipated revelations: 1) Many RNA populations are inefficiently capped at steady state (∼30 to 50%), and eIF4E overexpression increased this to ∼60 to 100%, depending on the RNA; 2) eIF4E physically associates with noncoding RNAs in the nucleus; and 3) approximately half of eIF4E-capping targets identified are noncoding RNAs. eIF4E's association with noncoding RNAs strongly positions it to act beyond translation. Coding and noncoding capping targets have activities that influence survival, cell morphology, and cell-to-cell interaction. Given that RNA export and translation machineries typically utilize capped RNA substrates, capping regulation provides means to titrate the protein-coding capacity of the transcriptome and, for noncoding RNAs, to regulate their activities. We also discovered a cap sensitivity element (CapSE) which conferred eIF4E-dependent capping sensitivity. Finally, we observed elevated capping for specific RNAs in high-eIF4E leukemia specimens, supporting a role for cap dysregulation in malignancy. In all, levels of capping RNAs can be regulated by eIF4E., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

16. Structural Mapping and Functional Characterization of Zebrafish Class B G-Protein Coupled Receptor (GPCR) with Dual Ligand Selectivity towards GLP-1 and Glucagon.

Author

Oren DA, Wei Y, Skrabanek L, Chow BK, Mommsen T, and Mojsov S

Subjects

Amino Acid Sequence, Animals, Ligands, Receptors, G-Protein-Coupled chemistry, Sequence Homology, Amino Acid, Glucagon metabolism, Glucagon-Like Peptide 1 metabolism, Receptors, G-Protein-Coupled metabolism, Zebrafish metabolism

Abstract

GLP-1 and glucagon regulate glucose metabolism through a network of metabolic pathways initiated upon binding to their specific receptors that belong to class B G-protein coupled receptors (GPCRs). The therapeutic potential of glucagon is currently being evaluated, while GLP-1 is already used in the treatment of type 2 diabetes and obesity. Development of a second generation of GLP-1 based therapeutics depends on a molecular and structural understanding of the interactions between the GLP-1 receptor (GLP-1R) and its ligand GLP-1. There is considerable sequence conservation between GLP-1 and glucagon and between the hGLP-1R and human glucagon receptor (hGCGR), yet each receptor recognizes only its own specific ligand. Glucagon receptors in fish and frogs also exhibit ligand selectivity only towards glucagon and not GLP-1. Based on competitive binding experiments and assays of increase in intracellular cAMP, we demonstrate here that a GPCR in zebrafish (Danio rerio) exhibits dual ligand selectivity towards GLP-1 and glucagon, a characteristic not found in mammals. Further, many structural features found in hGLP-1R and hGCGR are also found in this zebrafish GPCR (zfGPCR). We show this by mapping of its sequence and structural features onto the hGLP-1R and hGCGR based on their partial and complementary crystal structures. Thus, we propose that zfGPCR represents a dual GLP-1R/GCGR. The main differences between the three receptors are in their stalk regions that connect their N-terminal extracellular domains (NECDs) with their transmembrane domains and the absence of loop 3 in the NECD in zfGLP-1R/GCGR. These observations suggest that the interactions between GLP-1 and glucagon with loop 3 and the stalk regions may induce different conformational changes in hGLP-1R and hGCGR upon ligand binding and activation that lead to selective recognition of their native ligands., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

17. Features of Circulating Parainfluenza Virus Required for Growth in Human Airway.

Author

Palermo LM, Uppal M, Skrabanek L, Zumbo P, Germer S, Toussaint NC, Rima BK, Huey D, Niewiesk S, Porotto M, and Moscona A

Subjects

Animals, Genome, Viral, Humans, Respirovirus isolation & purification, Respirovirus pathogenicity, Respirovirus ultrastructure, Respirovirus Infections virology, Sequence Analysis, DNA, Sigmodontinae, Virulence, Respiratory System virology, Respirovirus physiology, Virus Internalization

Abstract

Unlabelled: Respiratory paramyxoviruses, including the highly prevalent human parainfluenza viruses, cause the majority of childhood croup, bronchiolitis, and pneumonia, yet there are currently no vaccines or effective treatments. Paramyxovirus research has relied on the study of laboratory-adapted strains of virus in immortalized cultured cell lines. We show that findings made in such systems about the receptor interaction and viral fusion requirements for entry and fitness-mediated by the receptor binding protein and the fusion protein-can be drastically different from the requirements for infection in vivo. Here we carried out whole-genome sequencing and genomic analysis of circulating human parainfluenza virus field strains to define functional and structural properties of proteins of circulating strains and to identify the genetic basis for properties that confer fitness in the field. The analysis of clinical strains suggests that the receptor binding-fusion molecule pairs of circulating viruses maintain a balance of properties that result in an inverse correlation between fusion in cultured cells and growth in vivo. Future analysis of entry mechanisms and inhibitory strategies for paramyxoviruses will benefit from considering the properties of viruses that are fit to infect humans, since a focus on viruses that have adapted to laboratory work provides a distinctly different picture of the requirements for the entry step of infection., Importance: Mechanistic information about viral infection-information that impacts antiviral and vaccine development-is generally derived from viral strains grown under laboratory conditions in immortalized cells. This study uses whole-genome sequencing of clinical strains of human parainfluenza virus 3-a globally important respiratory paramyxovirus-in cell systems that mimic the natural human host and in animal models. By examining the differences between clinical isolates and laboratory-adapted strains, the sequence differences are correlated to mechanistic differences in viral entry. For this ubiquitous and pathogenic respiratory virus to infect the human lung, modulation of the processes of receptor engagement and fusion activation occur in a manner quite different from that carried out by the entry glycoprotein-expressing pair of laboratory strains. These marked contrasts in the viral properties necessary for infection in cultured immortalized cells and in natural host tissues and animals will influence future basic and clinical studies., (Copyright © 2016 Palermo et al.)

Published

2016

18. Multiple SNPs in intron 41 of thyroglobulin gene are associated with autoimmune thyroid disease in the Japanese population.

Author

Ban Y, Tozaki T, Taniyama M, Skrabanek L, Nakano Y, Ban Y, and Hirano T

Subjects

Case-Control Studies, Gene Frequency, Genetic Predisposition to Disease, Haplotypes, Humans, Japan, Asian People genetics, Graves Disease genetics, Hashimoto Disease genetics, Introns, Polymorphism, Single Nucleotide, Thyroglobulin genetics

Abstract

Background: The etiology of the autoimmune thyroid diseases (AITDs), Graves' disease (GD) and Hashimoto's thyroiditis (HT), is largely unknown. However, genetic susceptibility is believed to play a major role. Two whole genome scans from Japan and from the US identified a locus on chromosome 8q24 that showed evidence for linkage with AITD and HT. Recent studies have demonstrated an association between thyroglobulin (Tg) polymorphisms and AITD in Caucasians, suggesting that Tg is a susceptibility gene on 8q24., Objectives: The objective of the study was to refine Tg association with AITD, by analyzing a panel of 25 SNPs across an extended 260 kb region of the Tg., Methods: We studied 458 Japanese AITD patients (287 GD and 171 HT patients) and 221 matched Japanese control subjects in association studies. Case-control association studies were performed using 25 Tg single nucleotide polymorphisms (SNPs) chosen from a database of the Single Nucleotide Polymorphism Database (dbSNP). Haplotype analysis was undertaken using the computer program SNPAlyze version 7.0., Principal Findings and Conclusions: In total, 5 SNPs revealed association with GD (P<0.05), with the strongest SNP associations at rs2256366 (P = 0.002) and rs2687836 (P = 0.0077), both located in intron 41 of the Tg gene. Because of the strong LD between these two strongest associated variants, we performed the haplotype analysis, and identified a major protective haplotype for GD (P = 0.001). These results suggested that the Tg gene is involved in susceptibility for GD and AITD in the Japanese.

Published

2012

19. Novel variant of thyroglobulin promoter triggers thyroid autoimmunity through an epigenetic interferon alpha-modulated mechanism.

Author

Stefan M, Jacobson EM, Huber AK, Greenberg DA, Li CW, Skrabanek L, Conception E, Fadlalla M, Ho K, and Tomer Y

Subjects

Binding Sites, Case-Control Studies, Cell Line, Humans, Interferon Regulatory Factor-1 genetics, Interferon Regulatory Factor-1 metabolism, Thyroid Diseases immunology, Autoimmunity genetics, Epigenesis, Genetic, Interferon-alpha genetics, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Thyroglobulin genetics, Thyroid Diseases genetics

Abstract

Autoimmune thyroid diseases (AITD) arise from complex interactions between genetic, epigenetic, and environmental factors. Whole genome linkage scans and association studies have established thyroglobulin (TG) as a major AITD susceptibility gene. However, the causative TG variants and the pathogenic mechanisms are unknown. Here, we describe a genetic/epigenetic mechanism by which a newly identified TG promoter single-nucleotide polymorphism (SNP) variant predisposes to AITD. Sequencing analyses followed by case control and family-based association studies identified an SNP (-1623A→G) that was associated with AITD in the Caucasian population (p = 0.006). We show that the nucleotide substitution introduced by SNP (-1623A/G) modified a binding site for interferon regulatory factor-1 (IRF-1), a major interferon-induced transcription factor. Using chromatin immunoprecipitation, we demonstrated that IRF-1 binds to the 5' TG promoter motif, and the transcription factor binding correlates with active chromatin structure and is marked by enrichment of mono-methylated Lys-4 residue of histone H3, a signature of active transcriptional enhancers. Using reporter mutations and siRNA approaches, we demonstrate that the disease-associated allele (G) conferred increased TG promoter activity through IRF-1 binding. Finally, treatment of thyroid cells with interferon α, a known trigger of AITD, increased TG promoter activity only when it interacted with the disease-associated variant through IRF-1 binding. These results reveal a new mechanism of interaction between environmental (IFNα) and genetic (TG) factors to trigger AITD.

Published

2011

20. Aberrant DNA hypermethylation signature in acute myeloid leukemia directed by EVI1.

Author

Lugthart S, Figueroa ME, Bindels E, Skrabanek L, Valk PJ, Li Y, Meyer S, Erpelinck-Verschueren C, Greally J, Löwenberg B, Melnick A, and Delwel R

Subjects

Adolescent, Adult, Aged, Blotting, Western, Chromatin Immunoprecipitation, DNA (Cytosine-5-)-Methyltransferases genetics, DNA (Cytosine-5-)-Methyltransferases metabolism, DNA Methyltransferase 3A, DNA, Neoplasm genetics, DNA-Binding Proteins metabolism, Female, Humans, Leukemia, Myeloid, Acute metabolism, Leukemia, Myeloid, Acute pathology, MDS1 and EVI1 Complex Locus Protein, Male, Middle Aged, Polymerase Chain Reaction, Transcription Factors metabolism, Young Adult, DNA Methyltransferase 3B, DNA Methylation, DNA-Binding Proteins genetics, Leukemia, Myeloid, Acute genetics, Promoter Regions, Genetic genetics, Proto-Oncogenes genetics, Transcription Factors genetics

Abstract

DNA methylation patterns are frequently dysregulated in cancer, although little is known of the mechanisms through which specific gene sets become aberrantly methylated. The ecotropic viral integration site 1 (EVI1) locus encodes a DNA binding zinc-finger transcription factor that is aberrantly expressed in a subset of acute myeloid leukemia (AML) patients with poor outcome. We find that the promoter DNA methylation signature of EVI1 AML blast cells differs from those of normal CD34(+) bone marrow cells and other AMLs. This signature contained 294 differentially methylated genes, of which 238 (81%) were coordinately hypermethylated. An unbiased motif analysis revealed an overrepresentation of EVI1 binding sites among these aberrantly hypermethylated loci. EVI1 was capable of binding to these promoters in 2 different EVI1-expressing cell lines, whereas no binding was observed in an EVI1-negative cell line. Furthermore, EVI1 was observed to interact with DNA methyl transferases 3A and 3B. Among the EVI1 AML cases, 2 subgroups were recognized, of which 1 contained AMLs with many more methylated genes, which was associated with significantly higher levels of EVI1 than in the cases of the other subgroup. Our data point to a role for EVI1 in directing aberrant promoter DNA methylation patterning in EVI1 AMLs.

Published

2011

21. GPCR-OKB: the G Protein Coupled Receptor Oligomer Knowledge Base.

Author

Khelashvili G, Dorff K, Shan J, Camacho-Artacho M, Skrabanek L, Vroling B, Bouvier M, Devi LA, George SR, Javitch JA, Lohse MJ, Milligan G, Neubig RR, Palczewski K, Parmentier M, Pin JP, Vriend G, Campagne F, and Filizola M

Subjects

Databases, Factual, Internet, Knowledge Bases, Receptors, G-Protein-Coupled chemistry, Software

Abstract

Summary: Rapid expansion of available data about G Protein Coupled Receptor (GPCR) dimers/oligomers over the past few years requires an effective system to organize this information electronically. Based on an ontology derived from a community dialog involving colleagues using experimental and computational methodologies, we developed the GPCR-Oligomerization Knowledge Base (GPCR-OKB). GPCR-OKB is a system that supports browsing and searching for GPCR oligomer data. Such data were manually derived from the literature. While focused on GPCR oligomers, GPCR-OKB is seamlessly connected to GPCRDB, facilitating the correlation of information about GPCR protomers and oligomers., Availability and Implementation: The GPCR-OKB web application is freely available at http://www.gpcr-okb.org

Published

2010

22. DNA methylation signatures identify biologically distinct subtypes in acute myeloid leukemia.

Author

Figueroa ME, Lugthart S, Li Y, Erpelinck-Verschueren C, Deng X, Christos PJ, Schifano E, Booth J, van Putten W, Skrabanek L, Campagne F, Mazumdar M, Greally JM, Valk PJ, Löwenberg B, Delwel R, and Melnick A

Subjects

Female, Gene Expression Profiling, Humans, Kaplan-Meier Estimate, Leukemia, Myeloid, Acute mortality, Male, Middle Aged, Nucleophosmin, Prognosis, Biomarkers, Tumor genetics, DNA Methylation genetics, Epigenesis, Genetic genetics, Leukemia, Myeloid, Acute classification, Leukemia, Myeloid, Acute genetics

Abstract

We hypothesized that DNA methylation distributes into specific patterns in cancer cells, which reflect critical biological differences. We therefore examined the methylation profiles of 344 patients with acute myeloid leukemia (AML). Clustering of these patients by methylation data segregated patients into 16 groups. Five of these groups defined new AML subtypes that shared no other known feature. In addition, DNA methylation profiles segregated patients with CEBPA aberrations from other subtypes of leukemia, defined four epigenetically distinct forms of AML with NPM1 mutations, and showed that established AML1-ETO, CBFb-MYH11, and PML-RARA leukemia entities are associated with specific methylation profiles. We report a 15 gene methylation classifier predictive of overall survival in an independent patient cohort (p < 0.001, adjusted for known covariates)., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010

23. Employing a recombinant HLA-DR3 expression system to dissect major histocompatibility complex II-thyroglobulin peptide dynamism: a genetic, biochemical, and reverse immunological perspective.

Author

Jacobson EM, Yang H, Menconi F, Wang R, Osman R, Skrabanek L, Li CW, Fadlalla M, Gandhi A, Chaturvedi V, Smith EP, Schwemberger S, Osterburg A, Babcock GF, and Tomer Y

Subjects

Algorithms, Animals, Autoimmune Diseases, Cathepsins chemistry, Cell Line, HeLa Cells, Histocompatibility Antigens Class II, Humans, Peptides chemistry, Rats, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Thyroglobulin chemistry, Thyroid Diseases immunology, Thyroid Gland metabolism, Gene Expression Regulation, HLA-DR3 Antigen metabolism, Recombinant Proteins chemistry

Abstract

Previously, we have shown that statistical synergism between amino acid variants in thyroglobulin (Tg) and specific HLA-DR3 pocket sequence signatures conferred a high risk for autoimmune thyroid disease (AITD). Therefore, we hypothesized that this statistical synergism mirrors a biochemical interaction between Tg peptides and HLA-DR3, which is key to the pathoetiology of AITD. To test this hypothesis, we designed a recombinant HLA-DR3 expression system that was used to express HLA-DR molecules harboring either AITD susceptibility or resistance DR pocket sequences. Next, we biochemically generated the potential Tg peptidic repertoire available to HLA-DR3 by separately treating 20 purified human thyroglobulin samples with cathepsins B, D, or L, lysosomal proteases that are involved in antigen processing and thyroid biology. Sequences of the cathepsin-generated peptides were then determined by matrix-assisted laser desorption ionization time-of-flight-mass spectroscopy, and algorithmic means were employed to identify putative AITD-susceptible HLA-DR3 binders. From four predicted peptides, we identified two novel peptides that bound strongly and specifically to both recombinant AITD-susceptible HLA-DR3 protein and HLA-DR3 molecules expressed on stably transfected cells. Intriguingly, the HLA-DR3-binding peptides we identified had a marked preference for the AITD-susceptibility DR signatures and not to those signatures that were AITD-protective. Structural analyses demonstrated the profound influence that the pocket signatures have on the interaction of HLA-DR molecules with Tg peptides. Our study suggests that interactions between Tg and discrete HLA-DR pocket signatures contribute to the initiation of AITD.

Published

2009

24. MDS and secondary AML display unique patterns and abundance of aberrant DNA methylation.

Author

Figueroa ME, Skrabanek L, Li Y, Jiemjit A, Fandy TE, Paietta E, Fernandez H, Tallman MS, Greally JM, Carraway H, Licht JD, Gore SD, and Melnick A

Subjects

Antigens, CD34, Bone Marrow Cells metabolism, Female, Histone Deacetylase Inhibitors, Histone Deacetylases metabolism, Humans, MAP Kinase Signaling System drug effects, Male, Promoter Regions, Genetic, Time Factors, Wnt Proteins metabolism, Azacitidine administration & dosage, DNA Methylation drug effects, DNA, Neoplasm metabolism, Enzyme Inhibitors administration & dosage, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute metabolism, Myelodysplastic Syndromes drug therapy, Myelodysplastic Syndromes metabolism, Neoplasms, Second Primary drug therapy, Neoplasms, Second Primary metabolism

Abstract

Increasing evidence shows aberrant hypermethylation of genes occurring in and potentially contributing to pathogenesis of myeloid malignancies. Several of these diseases, such as myelodysplastic syndromes (MDSs), are responsive to DNA methyltransferase inhibitors. To determine the extent of promoter hypermethylation in such tumors, we compared the distribution of DNA methylation of 14 000 promoters in MDS and secondary acute myeloid leukemia (AML) patients enrolled in a phase 1 trial of 5-azacytidine and the histone deacetylase inhibitor entinostat against de novo AML patients and normal CD34(+) bone marrow cells. The MDS and secondary AML patients displayed more extensive aberrant DNA methylation involving thousands of genes than did the normal CD34(+) bone marrow cells or de novo AML blasts. Aberrant methylation in MDS and secondary AML tended to affect particular chromosomal regions, occurred more frequently in Alu-poor genes, and included prominent involvement of genes involved in the WNT and MAPK signaling pathways. DNA methylation was also measured at days 15 and 29 after the first treatment cycle. DNA methylation was reversed at day 15 in a uniform manner throughout the genome, and this effect persisted through day 29, even without continuous administration of the study drugs. This trial was registered at www.clinicaltrials.gov as J0443.

Published

2009

25. Genome-wide epigenetic analysis delineates a biologically distinct immature acute leukemia with myeloid/T-lymphoid features.

Author

Figueroa ME, Wouters BJ, Skrabanek L, Glass J, Li Y, Erpelinck-Verschueren CA, Langerak AW, Löwenberg B, Fazzari M, Greally JM, Valk PJ, Melnick A, and Delwel R

Subjects

Adolescent, Adult, Cohort Studies, CpG Islands genetics, DNA, Neoplasm genetics, Drug Resistance, Neoplasm genetics, Gene Expression Regulation, Leukemic, Gene Silencing, Granulocyte Colony-Stimulating Factor pharmacology, Granulocyte-Macrophage Colony-Stimulating Factor pharmacology, Hematopoietic Stem Cells metabolism, Humans, Interleukin-3 pharmacology, Leukemia, Myeloid, Acute classification, Leukemia, Myeloid, Acute pathology, Male, Middle Aged, Neoplasm Proteins genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma classification, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Tumor Cells, Cultured cytology, Tumor Cells, Cultured drug effects, Tumor Cells, Cultured metabolism, CCAAT-Enhancer-Binding Proteins genetics, DNA Methylation, DNA, Neoplasm chemistry, Gene Expression Profiling, Gene Regulatory Networks, Leukemia, Myeloid, Acute genetics

Abstract

Acute myeloid leukemia is a heterogeneous disease from the molecular and biologic standpoints, and even patients with a specific gene expression profile may present clinical and molecular heterogeneity. We studied the epigenetic profiles of a cohort of patients who shared a common gene expression profile but differed in that only half of them harbored mutations of the CEBPA locus, whereas the rest presented with silencing of this gene and coexpression of certain T-cell markers. DNA methylation studies revealed that these 2 groups of patients could be readily segregated in an unsupervised fashion based on their DNA methylation profiles alone. Furthermore, CEBPA silencing was associated with the presence of an aberrant DNA hypermethylation signature, which was not present in the CEBPA mutant group. This aberrant hypermethylation occurred more frequently at sites within CpG islands. CEBPA-silenced leukemias also displayed marked hypermethylation compared with normal CD34(+) hematopoietic cells, whereas CEBPA mutant cases showed only mild changes in DNA methylation compared with these normal progenitors. Biologically, CEBPA-silenced leukemias presented with a decreased response to myeloid growth factors in vitro.

Published

2009

26. Scan2S: increasing the precision of PROSITE pattern motifs using secondary structure constraints.

Author

Skrabanek L and Niv MY

Subjects

Amino Acid Motifs, Animals, Humans, Lipocalins chemistry, Databases, Protein, Protein Structure, Secondary, Sequence Analysis, Protein methods, Software

Abstract

Sequence signature databases such as PROSITE, which include protein pattern motifs indicative of a protein's function, are widely used for function prediction studies, cellular localization annotation, and sequence classification. Correct annotation relies on high precision of the motifs. We present a new and general approach for increasing the precision of established protein pattern motifs by including secondary structure constraints (SSCs). We use Scan2S, the first sequence motif-scanning program to optionally include SSCs, to augment PROSITE pattern motifs. The constraints were derived from either the DSSP secondary structure assignment or the PSIPRED predictions for PROSITE-documented true positive hits. The secondary structure-augmented motifs were scanned against all SwissProt sequences, for which secondary structure predictions were precalculated. Against this dataset, motifs with PSIPRED-derived SSCs exhibited improved performance over motifs with DSSP-derived constraints. The precision of 763 of the 782 PSIPRED-augmented motifs remained unchanged or increased compared to the original motifs; 26 motifs showed an absolute precision increase of 10-30%. We provide the complete set of augmented motifs and the Scan2S program at http://physiology.med.cornell.edu/go/scan2s. Our results suggest a general protocol for increasing the precision of protein pattern detection via the inclusion of SSCs., (2008 Wiley-Liss, Inc.)

Published

2008

27. Beyond tissueInfo: functional prediction using tissue expression profile similarity searches.

Author

Aguilar D, Skrabanek L, Gross SS, Oliva B, and Campagne F

Subjects

Animals, Cysteine metabolism, Humans, Mice, Nitric Oxide metabolism, Protein Processing, Post-Translational, Proteins metabolism, RNA, Messenger metabolism, Ribosomal Proteins genetics, Ribosomal Proteins metabolism, Tissue Distribution, Computational Biology methods, Expressed Sequence Tags metabolism, Gene Expression Profiling methods, Proteins genetics

Abstract

We present and validate tissue expression profile similarity searches (TEPSS), a computational approach to identify transcripts that share similar tissue expression profiles to one or more transcripts in a group of interest. We evaluated TEPSS for its ability to discriminate between pairs of transcripts coding for interacting proteins and non-interacting pairs. We found that ordering protein-protein pairs by TEPSS score produces sets significantly enriched in reported pairs of interacting proteins [interacting versus non-interacting pairs, Odds-ratio (OR) = 157.57, 95% confidence interval (CI) (36.81-375.51) at 1% coverage, employing a large dataset of about 50 000 human protein interactions]. When used with multiple transcripts as input, we find that TEPSS can predict non-obvious members of the cytosolic ribosome. We used TEPSS to predict S-nitrosylation (SNO) protein targets from a set of brain proteins that undergo SNO upon exposure to physiological levels of S-nitrosoglutathione in vitro. While some of the top TEPSS predictions have been validated independently, several of the strongest SNO TEPSS predictions await experimental validation. Our data indicate that TEPSS is an effective and flexible approach to functional prediction. Since the approach does not use sequence similarity, we expect that TEPSS will be useful for various gene discovery applications. TEPSS programs and data are distributed at http://icb.med.cornell.edu/crt/tepss/index.xml.

Published

2008

28. Identification of GATC- and CCGG-recognizing Type II REases and their putative specificity-determining positions using Scan2S--a novel motif scan algorithm with optional secondary structure constraints.

Author

Niv MY, Skrabanek L, Roberts RJ, Scheraga HA, and Weinstein H

Subjects

Algorithms, Amino Acid Motifs, Base Sequence, Chemical Phenomena, Chemistry, Physical, Databases, Protein, Protein Structure, Secondary, Sequence Alignment, Software, Substrate Specificity, Deoxyribonucleases, Type II Site-Specific metabolism

Abstract

Restriction endonucleases (REases) are DNA-cleaving enzymes that have become indispensable tools in molecular biology. Type II REases are highly divergent in sequence despite their common structural core, function and, in some cases, common specificities towards DNA sequences. This makes it difficult to identify and classify them functionally based on sequence, and has hampered the efforts of specificity-engineering. Here, we define novel REase sequence motifs, which extend beyond the PD-(D/E)XK hallmark, and incorporate secondary structure information. The automated search using these motifs is carried out with a newly developed fast regular expression matching algorithm that accommodates long patterns with optional secondary structure constraints. Using this new tool, named Scan2S, motifs derived from REases with specificity towards GATC- and CGGG-containing DNA sequences successfully identify REases of the same specificity. Notably, some of these sequences are not identified by standard sequence detection tools. The new motifs highlight potential specificity-determining positions that do not fully overlap for the GATC- and the CCGG-recognizing REases and are candidates for specificity re-engineering.

Published

2008

29. Computational prediction of protein-protein interactions.

Author

Skrabanek L, Saini HK, Bader GD, and Enright AJ

Subjects

Biotechnology, Computer Simulation, Databases, Genetic, Gene Fusion, Genomics, Models, Molecular, Multiprotein Complexes, Phylogeny, Protein Array Analysis, Proteomics, Software, Two-Hybrid System Techniques, Protein Interaction Mapping statistics & numerical data

Abstract

Recently a number of computational approaches have been developed for the prediction of protein-protein interactions. Complete genome sequencing projects have provided the vast amount of information needed for these analyses. These methods utilize the structural, genomic, and biological context of proteins and genes in complete genomes to predict protein interaction networks and functional linkages between proteins. Given that experimental techniques remain expensive, time-consuming, and labor-intensive, these methods represent an important advance in proteomics. Some of these approaches utilize sequence data alone to predict interactions, while others combine multiple computational and experimental datasets to accurately build protein interaction maps for complete genomes. These methods represent a complementary approach to current high-throughput projects whose aim is to delineate protein interaction maps in complete genomes. We will describe a number of computational protocols for protein interaction prediction based on the structural, genomic, and biological context of proteins in complete genomes, and detail methods for protein interaction network visualization and analysis.

Published

2008

30. Requirements and ontology for a G protein-coupled receptor oligomerization knowledge base.

Author

Skrabanek L, Murcia M, Bouvier M, Devi L, George SR, Lohse MJ, Milligan G, Neubig R, Palczewski K, Parmentier M, Pin JP, Vriend G, Javitch JA, Campagne F, and Filizola M

Subjects

Dimerization, Receptors, G-Protein-Coupled classification, Receptors, G-Protein-Coupled genetics, User-Computer Interface, Abstracting and Indexing methods, Database Management Systems, Databases, Protein, Information Storage and Retrieval methods, Knowledge Bases, Receptors, G-Protein-Coupled chemistry, Receptors, G-Protein-Coupled metabolism

Abstract

Background: G Protein-Coupled Receptors (GPCRs) are a large and diverse family of membrane proteins whose members participate in the regulation of most cellular and physiological processes and therefore represent key pharmacological targets. Although several bioinformatics resources support research on GPCRs, most of these have been designed based on the traditional assumption that monomeric GPCRs constitute the functional receptor unit. The increase in the frequency and number of reports about GPCR dimerization/oligomerization and the implication of oligomerization in receptor function makes necessary the ability to store and access information about GPCR dimers/oligomers electronically., Results: We present here the requirements and ontology (the information scheme to describe oligomers and associated concepts and their relationships) for an information system that can manage the elements of information needed to describe comprehensively the phenomena of both homo- and hetero-oligomerization of GPCRs. The comprehensive information management scheme that we plan to use for the development of an intuitive and user-friendly GPCR-Oligomerization Knowledge Base (GPCR-OKB) is the result of a community dialog involving experimental and computational colleagues working on GPCRs., Conclusion: Our long term goal is to disseminate to the scientific community organized, curated, and detailed information about GPCR dimerization/oligomerization and its related structural context. This information will be reported as close to the data as possible so the user can make his own judgment on the conclusions drawn for a particular study. The requirements and ontology described here will facilitate the development of future information systems for GPCR oligomers that contain both computational and experimental information about GPCR oligomerization. This information is freely accessible at http://www.gpcr-okb.org.

Published

2007

31. eIF4E is a central node of an RNA regulon that governs cellular proliferation.

Author

Culjkovic B, Topisirovic I, Skrabanek L, Ruiz-Gutierrez M, and Borden KL

Subjects

Animals, Cell Cycle Proteins genetics, Cell Nucleus Structures metabolism, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism, Cyclin D1 metabolism, Eukaryotic Initiation Factor-4E genetics, Humans, Karyopherins, Mice, NIH 3T3 Cells, Neoplasm Proteins metabolism, Nuclear Proteins metabolism, Nucleocytoplasmic Transport Proteins metabolism, Promyelocytic Leukemia Protein, Protein Binding genetics, Protein Biosynthesis, Proto-Oncogene Proteins c-pim-1 metabolism, RNA, Messenger genetics, RNA-Binding Proteins metabolism, Receptors, Cytoplasmic and Nuclear, Transcription Factors metabolism, Transcription, Genetic, Transfection, Tumor Suppressor Proteins metabolism, U937 Cells, Untranslated Regions metabolism, Exportin 1 Protein, Cell Cycle Proteins metabolism, Cell Proliferation, Eukaryotic Initiation Factor-4E metabolism, RNA Transport, RNA, Messenger metabolism, Regulon

Abstract

This study demonstrates that the eukaryotic translation initiation factor eIF4E is a critical node in an RNA regulon that impacts nearly every stage of cell cycle progression. Specifically, eIF4E coordinately promotes the messenger RNA (mRNA) export of several genes involved in the cell cycle. A common feature of these mRNAs is a structurally conserved, approximately 50-nucleotide element in the 3' untranslated region denoted as an eIF4E sensitivity element. This element is sufficient for localization of capped mRNAs to eIF4E nuclear bodies, formation of eIF4E-specific ribonucleoproteins in the nucleus, and eIF4E-dependent mRNA export. The roles of eIF4E in translation and mRNA export are distinct, as they rely on different mRNA elements. Furthermore, eIF4E-dependent mRNA export is independent of ongoing RNA or protein synthesis. Unlike the NXF1-mediated export of bulk mRNAs, eIF4E-dependent mRNA export is CRM1 dependent. Finally, the growth-suppressive promyelocytic leukemia protein (PML) inhibits this RNA regulon. These data provide novel perspectives into the proliferative and oncogenic properties of eIF4E.

Published

2006

32. Mining expressed sequence tags identifies cancer markers of clinical interest.

Author

Campagne F and Skrabanek L

Subjects

Animals, Gene Expression Regulation, Neoplastic, Humans, Mice, Neoplasms metabolism, RNA, Messenger metabolism, RNA-Binding Proteins genetics, Signal Transduction, Biomarkers, Tumor genetics, Expressed Sequence Tags, Genomics methods, Neoplasms genetics, Transcription, Genetic

Abstract

Background: Gene expression data are a rich source of information about the transcriptional dis-regulation of genes in cancer. Genes that display differential regulation in cancer are a subtype of cancer biomarkers., Results: We present an approach to mine expressed sequence tags to discover cancer biomarkers. A false discovery rate analysis suggests that the approach generates less than 22% false discoveries when applied to combined human and mouse whole genome screens. With this approach, we identify the 200 genes most consistently differentially expressed in cancer (called HM200) and proceed to characterize these genes. When used for prediction in a variety of cancer classification tasks (in 24 independent cancer microarray datasets, 59 classifications total), we show that HM200 and the shorter gene list HM100 are very competitive cancer biomarker sets. Indeed, when compared to 13 published cancer marker gene lists, HM200 achieves the best or second best classification performance in 79% of the classifications considered., Conclusion: These results indicate the existence of at least one general cancer marker set whose predictive value spans several tumor types and classification types. Our comparison with other marker gene lists shows that HM200 markers are mostly novel cancer markers. We also identify the previously published Pomeroy-400 list as another general cancer marker set. Strikingly, Pomeroy-400 has 27 genes in common with HM200. Our data suggest that a core set of genes are responsive to the deregulation of pathways involved in tumorigenesis in a variety of tumor types and that these genes could serve as transcriptional cancer markers in applications of clinical interest. Finally, our study suggests new strategies to select and evaluate cancer biomarkers in microarray studies.

Published

2006

33. Modeling activated states of GPCRs: the rhodopsin template.

Author

Niv MY, Skrabanek L, Filizola M, and Weinstein H

Subjects

Proline metabolism, Protein Structure, Secondary, Models, Molecular, Rhodopsin chemistry, Rhodopsin metabolism

Abstract

Activation of G Protein-Coupled Receptors (GPCRs) is an allosteric mechanism triggered by ligand binding and resulting in conformational changes transduced by the transmembrane domain. Models of the activated forms of GPCRs have become increasingly necessary for the development of a clear understanding of signal propagation into the cell. Experimental evidence points to a multiplicity of conformations related to the activation of the receptor, rendered important physiologically by the suggestion that different conformations may be responsible for coupling to different signaling pathways. In contrast to the inactive state of rhodopsin (RHO) for which several high quality X-ray structures are available, the structure-related information for the active states of rhodopsin and all other GPCRs is indirect. We have collected and stored such information in a repository we maintain for activation-specific structural data available for rhodopsin-like GPCRs, http://www.physiology.med.cornell.edu/GPCRactivation/gpcrindex.html . Using these data as structural constraints, we have applied Simulated Annealing Molecular Dynamics to construct a number of different active state models of RHO starting from the known inactive structure. The common features of the models indicate that TM3 and TM5 play an important role in activation, in addition to the well-established rearrangement of TM6. Some of the structural changes observed in these models occur in regions that were not involved in the constraints, and have not been previously tested experimentally; they emerge as interesting candidates for further experimental exploration of the conformational space of activated GPCRs. We show that none of the normal modes calculated from the inactive structure has a dominant contribution along the path of conformational rearrangement from inactive to the active forms of RHO in the models. This result may differentiate rhodopsin from other GPCRs, and the reasons for this difference are discussed in the context of the structural properties and the physiological function of the protein.

Published

2006

34. eIF4E promotes nuclear export of cyclin D1 mRNAs via an element in the 3'UTR.

Author

Culjkovic B, Topisirovic I, Skrabanek L, Ruiz-Gutierrez M, and Borden KL

Subjects

Active Transport, Cell Nucleus physiology, Animals, Cytoplasm metabolism, Eukaryotic Initiation Factor-4E genetics, Humans, Mice, NIH 3T3 Cells, Protein Binding physiology, Ribonucleoproteins metabolism, Transfection, 3' Untranslated Regions metabolism, Cell Nucleus metabolism, Cell Proliferation, Cyclin D1 biosynthesis, Eukaryotic Initiation Factor-4E metabolism

Abstract

The eukaryotic translation initiation factor eIF4E is a critical modulator of cellular growth with functions in the nucleus and cytoplasm. In the cytoplasm, recognition of the 5' m(7)G cap moiety on all mRNAs is sufficient for their functional interaction with eIF4E. In contrast, we have shown that in the nucleus eIF4E associates and promotes the nuclear export of cyclin D1, but not GAPDH or actin mRNAs. We determined that the basis of this discriminatory interaction is an approximately 100-nt sequence in the 3' untranslated region (UTR) of cyclin D1 mRNA, we refer to as an eIF4E sensitivity element (4E-SE). We found that cyclin D1 mRNA is enriched at eIF4E nuclear bodies, suggesting these are functional sites for organization of specific ribonucleoproteins. The 4E-SE is required for eIF4E to efficiently transform cells, thereby linking recognition of this element to eIF4E mediated oncogenic transformation. Our studies demonstrate previously uncharacterized fundamental differences in eIF4E-mRNA recognition between the nuclear and cytoplasmic compartments and further a novel level of regulation of cellular proliferation.

Published

2005

35. PDZBase: a protein-protein interaction database for PDZ-domains.

Author

Beuming T, Skrabanek L, Niv MY, Mukherjee P, and Weinstein H

Subjects

Natural Language Processing, Protein Structure, Tertiary, Vocabulary, Controlled, Database Management Systems, Databases, Protein, Information Storage and Retrieval methods, Membrane Proteins chemistry, Membrane Proteins metabolism, Periodicals as Topic, Protein Interaction Mapping methods, User-Computer Interface

Abstract

Summary: PDZBase is a database that aims to contain all known PDZ-domain-mediated protein-protein interactions. Currently, PDZBase contains approximately 300 such interactions, which have been manually extracted from > 200 articles. The database can be queried through both sequence motif and keyword-based searches, and the sequences of interacting proteins can be visually inspected through alignments (for the comparison of several interactions), or as residue-based diagrams including schematic secondary structure information (for individual complexes).

Published

2005

36. Quantitative information management for the biochemical computation of cellular networks.

Author

Campagne F, Neves S, Chang CW, Skrabanek L, Ram PT, Iyengar R, and Weinstein H

Subjects

Animals, Databases, Genetic, Humans, Internet, Multiprotein Complexes, Computational Biology, Management Information Systems, Models, Biological, Signal Transduction

Abstract

Understanding complex protein networks within cells requires the ability to develop quantitative models and to numerically compute the properties and behavior of the networks. To carry out such computational analysis, it is necessary to use modeling tools and information management systems (IMSs) where the quantitative data, associated to its biological context, can be stored, curated, and reliably retrieved. We have focused on the biochemical computation of cellular interactions and developed an IMS that stores both quantitative information on the cellular components and their interactions, and the basic reactions governing those interactions. This information can be used to construct pathways and eventually large-scale networks. This system, SigPath, is available on the Internet (http://www.sigpath.org). Key features of the approach include (i) the use of background information (for example, names of molecules, aliases, and accession codes) to ease data submission and link this quantitative database with other qualitative databases, (ii) a strategy to allow refinement of information over time by multiple users, (iii) the development of a data representation that stores both qualitative and quantitative information, and (iv) features to assist contributors and users in assembling custom quantitative models from the information stored in the IMS. Currently, models assembled in SigPath can be automatically exported to several computing environments, such as Kinetikit/Genesis, Virtual Cell, Jarnac/JDesigner, and JSim. We anticipate that, when appropriately populated, such a system will be useful for large-scale quantitative studies of cell-signaling networks and other cellular networks. SigPath is distributed under the GNU General Public License.

Published

2004

37. Characterization of the mouse adeno-associated virus AAVS1 ortholog.

Author

Dutheil N, Yoon-Robarts M, Ward P, Henckaerts E, Skrabanek L, Berns KI, Campagne F, and Linden RM

Subjects

Animals, Base Sequence, Cell Line, HeLa Cells, Humans, Mice, Molecular Sequence Data, NIH 3T3 Cells, Sequence Alignment, Chromosomes, Human, Pair 19 genetics, Dependovirus genetics, Proteins genetics, Proteins metabolism, Virus Integration

Abstract

The nonpathogenic human adeno-associated virus (AAV) has developed a mechanism to integrate its genome into human chromosome 19 at 19q13.4 (termed AAVS1), thereby establishing latency. Here, we provide evidence that the chromosomal signals required for site-specific integration are conserved in the mouse genome proximal to the recently identified Mbs85 gene. These sequence motifs can be specifically nicked by the viral Rep protein required for the initiation of site-specific AAV DNA integration. Furthermore, these signals can serve as a minimal origin for Rep-dependent DNA replication. In addition, we isolated the mouse Mbs85 proximal promoter and show transcriptional activity in three mouse cell lines.

Published

2004

38. Amino acid substitutions in the thyroglobulin gene are associated with susceptibility to human and murine autoimmune thyroid disease.

Author

Ban Y, Greenberg DA, Concepcion E, Skrabanek L, Villanueva R, and Tomer Y

Subjects

Alleles, Animals, Exons, Gene Deletion, Genetic Predisposition to Disease genetics, Graves Disease genetics, HLA-DR3 Antigen genetics, Haplotypes, Mice, Mice, Inbred CBA, Odds Ratio, Polymorphism, Genetic, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Mutation, Thyroglobulin genetics, Thyroiditis, Autoimmune genetics

Abstract

The 8q24 locus, which contains the thyroglobulin (Tg) gene, was previously shown to be strongly linked with autoimmune thyroid disease (AITD). We sequenced all 48 exons of the Tg gene and identified 14 single-nucleotide polymorphisms (SNPs). Case control association studies demonstrated that an exon 10-12 SNP cluster and an exon 33 SNP were significantly associated with AITD (P < 0.01). Haplotype analysis demonstrated that the combination of these two SNP groups was more significantly associated with AITD (P < 0.001). Gene-gene interaction studies provided evidence for an interaction between HLA-DR3 and the exon 33 SNP, giving an odds ratio of 6.1 for Graves' disease. We then sequenced exons 10,12, and 33 of the mouse Tg gene in 19 strains of mice. Fifty percent of the strains susceptible to thyroiditis had a unique SNP haplotype at exons 10 and 12, whereas none of the mouse strains that were resistant to thyroiditis had this SNP haplotype (P = 0.01). We concluded that Tg is a susceptibility gene for AITD, both in humans in and in mice. A combination of at least two Tg SNPs conferred susceptibility to human AITD. Moreover, the exon 33 SNP showed evidence for interaction with HLA-DR3 in conferring susceptibility to Graves' disease.

Published

2003

39. The proline-rich homeodomain protein, PRH, is a tissue-specific inhibitor of eIF4E-dependent cyclin D1 mRNA transport and growth.

Author

Topisirovic I, Culjkovic B, Cohen N, Perez JM, Skrabanek L, and Borden KL

Subjects

Active Transport, Cell Nucleus physiology, Amino Acid Sequence, Animals, Binding Sites, Cell Fractionation, Cell Nucleus metabolism, Cell Transformation, Neoplastic, Cyclin D1 genetics, Dinucleoside Phosphates chemistry, Dinucleoside Phosphates metabolism, Eukaryotic Initiation Factor-4E antagonists & inhibitors, Genes, Homeobox, Homeodomain Proteins genetics, Humans, Mice, Microscopy, Confocal, Molecular Sequence Data, Protein Binding, RNA Caps chemistry, RNA Caps metabolism, Sequence Alignment, Transcription Factors, Tumor Cells, Cultured, Cyclin D1 metabolism, Eukaryotic Initiation Factor-4E metabolism, Homeodomain Proteins metabolism, Proline metabolism, RNA, Messenger metabolism, Repressor Proteins metabolism

Abstract

The translation initiation factor eIF4E is involved in the modulation of cellular growth. In the nucleus, where eIF4E is associated with PML nuclear bodies, eIF4E mediates nucleocytoplasmic transport of specific transcripts, and this contributes to its transformation activity. Surprisingly, we found that a trans cription factor, the proline-rich homeodomain protein PRH, is a negative regulator of eIF4E in myeloid cells, interacting with eIF4E through a conserved binding site typically found in translational regulators. Through this interaction, PRH inhibits eIF4E-dependent mRNA transport and subsequent transformation. These activities of PRH are independent of its transcriptional functions. Further, we found that 199 homeodomain proteins contain potential eIF4E-binding sites. Thus, there could be many tissue-specific regulators of eIF4E. These findings provide a model for regulation of a general factor, eIF4E, in tissue- specific contexts, and suggest that its regulation is important in differentiation and development.

Published

2003

40. Estimation of synteny conservation and genome compaction between pufferfish (Fugu) and human.

Author

McLysaght A, Enright AJ, Skrabanek L, and Wolfe KH

Subjects

Animals, Base Sequence, Computer Simulation, Conserved Sequence, Gene Library, Humans, Introns, Models, Genetic, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Fishes genetics, Genome, Genome, Human

Abstract

Background: Knowledge of the amount of gene order and synteny conservation between two species gives insights to the extent and mechanisms of divergence. The vertebrate Fugu rubripes (pufferfish) has a small genome with little repetitive sequence which makes it attractive as a model genome. Genome compaction and synteny conservation between human and Fugu were studied using data from public databases., Methods: Intron length and map positions of human and Fugu orthologues were compared to analyse relative genome compaction and synteny conservation respectively. The divergence of these two genomes by genome rearrangement was simulated and the results were compared to the real data., Results: Analysis of 199 introns in 22 orthologous genes showed an eight-fold average size reduction in Fugu, consistent with the ratio of total genome sizes. There was no consistent pattern relating the size reduction in individual introns or genes to gene base composition in either species. For genes that are neighbours in Fugu (genes from the same cosmid or GenBank entry), 40-50% have conserved synteny with a human chromosome. This figure may be underestimated by as much as two-fold, due to problems caused by incomplete human genome sequence data and the existence of dispersed gene families. Some genes that are neighbours in Fugu have human orthologues that are several megabases and tens of genes apart. This is probably caused by small inversions or other intrachromosomal rearrangements., Conclusions: Comparison of observed data to computer simulations suggests that 4000-16 000 chromosomal rearrangements have occurred since Fugu and human shared a common ancestor, implying a faster rate of rearrangement than seen in human/mouse comparisons., (Copyright 2000 John Wiley & Sons, Ltd.)

Published

2000