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3. Chromatin Landscapes of Retroviral and Transposon Integration Profiles

Author

De Jong, J. (author), Akhtar, W. (author), Badhai, J. (author), Rust, A.G. (author), Rad, R. (author), Hilkens, J. (author), Berns, A. (author), Van Lohuizen, M. (author), Wessels, L.F.A. (author), De Ridder, J. (author), De Jong, J. (author), Akhtar, W. (author), Badhai, J. (author), Rust, A.G. (author), Rad, R. (author), Hilkens, J. (author), Berns, A. (author), Van Lohuizen, M. (author), Wessels, L.F.A. (author), and De Ridder, J. (author)

Abstract

The ability of retroviruses and transposons to insert their genetic material into host DNA makes them widely used tools in molecular biology, cancer research and gene therapy. However, these systems have biases that may strongly affect research outcomes. To address this issue, we generated very large datasets consisting of to unselected integrations in the mouse genome for the Sleeping Beauty (SB) and piggyBac (PB) transposons, and the Mouse Mammary Tumor Virus (MMTV). We analyzed (epi)genomic features to generate bias maps at both local and genome-wide scales. MMTV showed a remarkably uniform distribution of integrations across the genome. More distinct preferences were observed for the two transposons, with PB showing remarkable resemblance to bias profiles of the Murine Leukemia Virus. Furthermore, we present a model where target site selection is directed at multiple scales. At a large scale, target site selection is similar across systems, and defined by domain-oriented features, namely expression of proximal genes, proximity to CpG islands and to genic features, chromatin compaction and replication timing. Notable differences between the systems are mainly observed at smaller scales, and are directed by a diverse range of features. To study the effect of these biases on integration sites occupied under selective pressure, we turned to insertional mutagenesis (IM) screens. In IM screens, putative cancer genes are identified by finding frequently targeted genomic regions, or Common Integration Sites (CISs). Within three recently completed IM screens, we identified 7%–33% putative false positive CISs, which are likely not the result of the oncogenic selection process. Moreover, results indicate that PB, compared to SB, is more suited to tag oncogenes., Intelligent Systems, Electrical Engineering, Mathematics and Computer Science

Published
2014
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4. Rapid target gene validation in complex cancer mouse models using re-derived embryonic stem cells.

Author

Huijbers, IJ, Bin Ali, R, Pritchard, C, Cozijnsen, M, Kwon, M-C, Proost, N, Song, J-Y, de Vries, H, Badhai, J, Sutherland, K, Krimpenfort, P, Michalak, EM, Jonkers, J, Berns, A, Huijbers, IJ, Bin Ali, R, Pritchard, C, Cozijnsen, M, Kwon, M-C, Proost, N, Song, J-Y, de Vries, H, Badhai, J, Sutherland, K, Krimpenfort, P, Michalak, EM, Jonkers, J, and Berns, A

Abstract

Human cancers modeled in Genetically Engineered Mouse Models (GEMMs) can provide important mechanistic insights into the molecular basis of tumor development and enable testing of new intervention strategies. The inherent complexity of these models, with often multiple modified tumor suppressor genes and oncogenes, has hampered their use as preclinical models for validating cancer genes and drug targets. In our newly developed approach for the fast generation of tumor cohorts we have overcome this obstacle, as exemplified for three GEMMs; two lung cancer models and one mesothelioma model. Three elements are central for this system; (i) The efficient derivation of authentic Embryonic Stem Cells (ESCs) from established GEMMs, (ii) the routine introduction of transgenes of choice in these GEMM-ESCs by Flp recombinase-mediated integration and (iii) the direct use of the chimeric animals in tumor cohorts. By applying stringent quality controls, the GEMM-ESC approach proofs to be a reliable and effective method to speed up cancer gene assessment and target validation. As proof-of-principle, we demonstrate that MycL1 is a key driver gene in Small Cell Lung Cancer.

Published
2014

6. Immunization with PfGBP130 generates antibodies that inhibit RBC invasion by P. falciparum parasites.

Author

Johnson Y, Shakri AR, Pond-Tor S, Jnawali A, Najrana T, Wu H, Badhai J, Alameh MG, Weissman D, Kabyemela E, Duffy P, Fried M, Kurtis J, and Raj DK

Subjects
Animals, Female, Humans, Mice, Antigens, Protozoan immunology, Immunization, Antibodies, Protozoan immunology, Erythrocytes parasitology, Erythrocytes immunology, Malaria Vaccines immunology, Malaria, Falciparum immunology, Malaria, Falciparum prevention & control, Plasmodium falciparum immunology, Protozoan Proteins immunology, Protozoan Proteins genetics
Abstract

Background: Despite decades of effort, Plasmodium falciparum malaria remains a leading killer of children. The absence of a highly effective vaccine and the emergence of parasites resistant to both diagnosis as well as treatment hamper effective public health interventions., Methods and Results: To discover new vaccine candidates, we used our whole proteome differential screening method and identified PfGBP130 as a parasite protein uniquely recognized by antibodies from children who had developed resistance to P. falciparum infection but not from those who remained susceptible. We formulated PfGBP130 as lipid encapsulated mRNA, DNA plasmid, and recombinant protein-based immunogens and evaluated the efficacy of murine polyclonal anti-PfGBP130 antisera to inhibit parasite growth in vitro. Immunization of mice with PfGBP130-A (aa 111-374), the region identified in our differential screen, formulated as a DNA plasmid or lipid encapsulated mRNA, but not as a recombinant protein, induced antibodies that inhibited RBC invasion in vitro . mRNA encoding the full ectodomain of PfGBP130 (aa 89-824) also generated parasite growth-inhibitory antibodies., Conclusion: We are currently advancing PfGBP130-A formulated as a lipid-encapsulated mRNA for efficacy evaluation in non-human primates., Competing Interests: Author JK is a scientific co-founder of Ocean Biomedical which seeks to develop malaria vaccines. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Johnson, Shakri, Pond-Tor, Jnawali, Najrana, Wu, Badhai, Alameh, Weissman, Kabyemela, Duffy, Fried, Kurtis and Raj.)

Published
2024
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7. Combination of EZH2 and ATM inhibition in BAP1-deficient mesothelioma.

Author

Landman N, Hulsman D, Badhai J, Kopparam J, Puppe J, Pandey GK, and van Lohuizen M

Subjects
Humans, Animals, Mice, Cell Line, Tumor, Drug Synergism, Female, Tumor Suppressor Proteins genetics, Tumor Suppressor Proteins deficiency, Enhancer of Zeste Homolog 2 Protein antagonists & inhibitors, Enhancer of Zeste Homolog 2 Protein genetics, Ubiquitin Thiolesterase antagonists & inhibitors, Ubiquitin Thiolesterase genetics, Ubiquitin Thiolesterase deficiency, Mesothelioma drug therapy, Mesothelioma pathology, Mesothelioma genetics, Ataxia Telangiectasia Mutated Proteins antagonists & inhibitors, Ataxia Telangiectasia Mutated Proteins genetics, Ataxia Telangiectasia Mutated Proteins deficiency, Xenograft Model Antitumor Assays
Abstract

Background: More than half of mesothelioma tumours show alterations in the tumour suppressor gene BAP1. BAP1-deficient mesothelioma is shown to be sensitive to EZH2 inhibition in preclinical settings but only showed modest efficacy in clinical trial. Adding a second inhibitor could potentially elevate EZH2i treatment efficacy while preventing acquired resistance at the same time., Methods: A focused drug synergy screen consisting of 20 drugs was performed by combining EZH2 inhibition with a panel of anti-cancer compounds in mesothelioma cell lines. The compounds used are under preclinical investigation or already used in the clinic. The synergistic potential of the combinations was assessed by using the Bliss model. To validate our findings, in vivo xenograft experiments were performed., Results: Combining EZH2i with ATMi was found to have synergistic potential against BAP1-deficient mesothelioma in our drug screen, which was validated in clonogenicity assays. Tumour growth inhibition potential was significantly increased in BAP1-deficient xenografts. In addition, we observe lower ATM levels upon depletion of BAP1 and hypothesise that this might be mediated by E2F1., Conclusions: We demonstrated the efficacy of the combination of ATM and EZH2 inhibition against BAP1-deficient mesothelioma in preclinical models, indicating the potential of this combination as a novel treatment modality using BAP1 as a biomarker., (© 2024. The Author(s).)

Published
2024
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8. Combined Inhibition of EZH2 and FGFR is Synergistic in BAP1-deficient Malignant Mesothelioma.

Author

Badhai J, Landman N, Pandey GK, Song JY, Hulsman D, Krijgsman O, Chandrasekaran G, Berns A, and van Lohuizen M

Subjects
Humans, Animals, Mice, Enhancer of Zeste Homolog 2 Protein genetics, Tumor Suppressor Proteins genetics, Ubiquitin Thiolesterase genetics, Mesothelioma, Malignant, Lung Neoplasms drug therapy, Mesothelioma drug therapy, Melanoma drug therapy
Abstract

Malignant mesothelioma is a highly aggressive tumor with a survival of only 4-18 months after diagnosis. Treatment options for this disease are limited. Immune checkpoint blockade using ipilimumab and nivolumab has recently been approved as a frontline therapy, but this led to only a small improvement in overall patient survival. As more than half of patients with mesothelioma have alterations in the gene encoding for BAP1 this could be a potential marker for targeted therapies. In this study, we investigated the synergistic potential of combining EZH2 inhibition together with FGFR inhibition for treatment of BAP1-deficient malignancies. The efficacy of the combination was evaluated using human and murine preclinical models of mesothelioma and uveal melanoma in vitro. The efficacy of the combination was further validated in vivo by using BAP1-deficient mesothelioma xenografts and autochthonous mouse models. In vitro data showed sensitivity to the combined inhibition in BAP1-deficient mesothelioma and uveal melanoma tumor cell lines but not for BAP1-proficient subtypes. In vivo data showed susceptibility to the combination of BAP1-deficient xenografts and demonstrated an increase of survival in autochthonous models of mesothelioma. These results highlight the potential of this novel drug combination for the treatment of mesothelioma using BAP1 as a biomarker. Given these encouraging preclinical results, it will be important to clinically explore dual EZH2/FGFR inhibition in patients with BAP1-deficient malignant mesothelioma and justify further exploration in other BAP1 loss-associated tumors., Significance: Despite the recent approval of immunotherapy, malignant mesothelioma has limited treatment options and poor prognosis. Here, we observe that EZH2 inhibitors dramatically enhance the efficacy of FGFR inhibition, sensitising BAP1-mutant mesothelioma and uveal melanoma cells. The striking synergy of EZH2 and FGFR inhibition supports clinical investigations for BAP1-mutant tumors., (© 2024 The Authors; Published by the American Association for Cancer Research.)

Published
2024
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9. Genomic evidence and virulence properties decipher the extra-host origin of Bordetella bronchiseptica.

Author

Badhai J and Das SK

Subjects
Animals, Child, Preschool, Dogs, Humans, Genomics, Mammals, Phylogeny, Virulence genetics, Bordetella bronchiseptica genetics, Whooping Cough
Abstract

Until recently, members of the classical Bordetella species comprised only pathogenic bacteria that were thought to live exclusively in warm-blooded animals. The close phylogenetic relationship of Bordetella with Achromobacter and Alcaligenes, which include primarily environmental bacteria, suggests that the ancestral Bordetellae were probably free-living. Eventually, the Bordetella species evolved to infect and live within warm-blooded animals. The modern history of pathogens related to the genus Bordetella started towards the end of the 19th century when it was discovered in the infected respiratory epithelium of mammals, including humans. The first identified member was Bordetella pertussis, which causes whooping cough, a fatal disease in young children. In due course, B. bronchiseptica was recovered from the trachea and bronchi of dogs with distemper. Later, a second closely related human pathogen, B. parapertussis, was described as causing milder whooping cough. The classical Bordetellae are strictly host-associated pathogens transmitted via the host-to-host aerosol route. Recently, the B. bronchiseptica strain HT200 has been reported from a thermal spring exhibiting unique genomic features that were not previously observed in clinical strains. Therefore, it advocates that members of classical Bordetella species have evolved from environmental sources. This organism can be transmitted via environmental reservoirs as it can survive nutrient-limiting conditions and possesses a motile flagellum. This study aims to review the molecular basis of origin and virulence properties of obligate host-restricted and environmental strains of classical Bordetella., (© The Author(s) 2023. Published by Oxford University Press on behalf of Applied Microbiology International.)

Published
2023
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10. Genetic screens reveal new targetable vulnerabilities in BAP1-deficient mesothelioma.

Author

Pandey GK, Landman N, Neikes HK, Hulsman D, Lieftink C, Beijersbergen R, Kolluri KK, Janes SM, Vermeulen M, Badhai J, and van Lohuizen M

Subjects
Humans, Animals, Mice, Mevalonic Acid, Tumor Suppressor Proteins genetics, Cholesterol, Ubiquitin Thiolesterase genetics, Ubiquitin Thiolesterase metabolism, Mesothelioma, Malignant, Lung Neoplasms genetics, Mesothelioma genetics, Mesothelioma pathology
Abstract

More than half of patients with malignant mesothelioma show alterations in the BAP1 tumor-suppressor gene. Being a member of the Polycomb repressive deubiquitinating (PR-DUB) complex, BAP1 loss results in an altered epigenome, which may create new vulnerabilities that remain largely unknown. Here, we performed a CRISPR-Cas9 kinome screen in mesothelioma cells that identified two kinases in the mevalonate/cholesterol biosynthesis pathway. Furthermore, our analysis of chromatin, expression, and genetic perturbation data in mesothelioma cells suggests a dependency on PR complex 2 (PRC2)-mediated silencing. Pharmacological inhibition of PRC2 elevates the expression of cholesterol biosynthesis genes only in BAP1-deficient mesothelioma, thereby sensitizing these cells to the combined targeting of PRC2 and the mevalonate pathway. Finally, by subjecting autochthonous Bap1-deficient mesothelioma mice or xenografts to mevalonate pathway inhibition (zoledronic acid) and PRC2 inhibition (tazemetostat), we demonstrate a potent anti-tumor effect, suggesting a targeted combination therapy for Bap1-deficient mesothelioma., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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11. Genomic plasticity and antibody response of Bordetella bronchiseptica strain HT200, a natural variant from a thermal spring.

Author

Badhai J and Das SK

Subjects
Animals, Antibodies, Bacterial blood, Bacterial Vaccines immunology, Genetic Variation, Mice, Polymorphism, Single Nucleotide, Respiratory System microbiology, Virulence Factors genetics, Antibody Formation immunology, Bordetella bronchiseptica genetics, Bordetella bronchiseptica immunology, Bordetella bronchiseptica pathogenicity, Hot Springs microbiology
Abstract

Classical Bordetella species are primarily isolated from animals and humans causing asymptomatic infection to lethal pneumonia. However, isolation of these bacteria from any extra-host environmental niche has not been reported so far. Here, we have characterized the genomic plasticity and antibody response of Bordetella bronchiseptica strain HT200, isolated from a thermal spring. Genomic ANI value and SNPs-based phylogenetic tree suggest a divergent evolution of strain HT200 from a human-adapted lineage of B. bronchiseptica. Growth and survivability assay showed strain HT200 retained viability for more than 5 weeks in the filter-sterilized spring water. In addition, genes or loci encoding the Bordetella virulence factors such as DNT, ACT and LPS O-antigen were absent in strain HT200, while genes encoding other virulence factors were highly divergent. Phenotypically, strain HT200 was non-hemolytic and showed weak hemagglutination activity, but was able to colonize in the respiratory organs of mice. Further, both infection and vaccination with strain HT200 induced protective antibody response in mouse against challenge infection with virulent B. bronchiseptica strain RB50. In addition, genome of strain HT200 (DSM 26023) showed presence of accessory genes and operons encoding predicted metabolic functions pertinent to the ecological conditions of the thermal spring., (© The Author(s) 2021. Published by Oxford University Press on behalf of FEMS.)

Published
2021
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12. Partial consolidated bioprocessing of pretreated Pennisetum sp. by anaerobic thermophiles for enhanced bioethanol production.

Author

Mohapatra S, Jena S, Jena PK, Badhai J, Acharya AN, and Thatoi H

Subjects
Anaerobiosis, Biomass, Carbohydrates, Cellulase metabolism, Fermentation, Hydrolysis, Sodium Hydroxide, Bacillus metabolism, Biofuels analysis, Bioreactors microbiology, Ethanol analysis, Pennisetum metabolism
Abstract

Rapid industrialization and consumption of fossil fuels have led to considerable progress in the production of renewable biofuels like bioethanol. Lignocellulosic biomass such as grasses serves as cheap feedstocks for the production of bioethanol. However, the process involved in lignocellulosic bioethanol production is expensive which restricts its industrial production. The present study thus attempted to investigate a partially consolidated bioprocessing (PCB) approach using two isolated anaerobic thermophiles i.e. Bacillus paranthracis and Bacillus nitratireducens for direct conversion of ultra-sonication assisted sodium hydroxide (UA-NaOH) pretreated Denannath grass to bioethanol in co-culture consortium batch fermentation experiments. The process parameters for the PCB approach were optimized using the Box-Behnken design of Response Surface Methodology (RSM). The parameters that were considered were substrate concentration (5-10 g), incubation time (30-66 h), inoculum volume [1:1 to 3:3 (% v/v) and temperature (50-65 °C). The maximum ethanol concentration of 8.46 mM (0.39 g/L from 7.5 g/L of substrate loading) and ethanol yield (Yp/s) of 0.55 g/g of reducing sugar was obtained at 57.5 °C. In the same conditions the cellulase and xylanase activities were 0.8 U/mL and 11.53 U/mL respectively, while the lactate and acetate concentrations were 0.2 mM (0.009 g/L) and 2.9 mM (0.13 g/L) correspondingly. An increase in the substrate loadings to 250 g/L in a batch fermenter (3 L) resulted in the production of 373.35 mM (17.1 g/L) of ethanol concentration and Yp/s of 0.16 g/g of reducing sugar., Competing Interests: Declaration of competing interest None, (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2020
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13. Combined deletion of Bap1, Nf2, and Cdkn2ab causes rapid onset of malignant mesothelioma in mice.

Author

Badhai J, Pandey GK, Song JY, Krijgsman O, Bhaskaran R, Chandrasekaran G, Kwon MC, Bombardelli L, Monkhorst K, Grasso C, Zevenhoven J, van der Vliet J, Cozijnsen M, Krimpenfort P, Peeper D, van Lohuizen M, and Berns A

Subjects
Animals, Disease Models, Animal, Disease Progression, Humans, Immunophenotyping, MAP Kinase Signaling System drug effects, Mesothelioma, Malignant genetics, Mesothelioma, Malignant pathology, Mice, Phosphatidylinositol 3-Kinases metabolism, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, Protein Kinase Inhibitors pharmacology, Transcription, Genetic drug effects, Tumor Microenvironment drug effects, Cyclin-Dependent Kinase Inhibitor p15 metabolism, Cyclin-Dependent Kinase Inhibitor p16 metabolism, Gene Deletion, Mesothelioma, Malignant metabolism, Neurofibromin 2 metabolism, Tumor Suppressor Proteins metabolism, Ubiquitin Thiolesterase metabolism
Abstract

We have generated mouse models of malignant mesothelioma (MM) based upon disruption of the Bap1, Nf2, and Cdkn2ab tumor suppressor loci in various combinations as also frequently observed in human MM. Inactivation of all three loci in the mesothelial lining of the thoracic cavity leads to a highly aggressive MM that recapitulates the histological features and gene expression profile observed in human patients. The tumors also show a similar inflammatory phenotype. Bap1 deletion alone does not cause MM but dramatically accelerates MM development when combined with Nf2 and Cdkn2ab (hereafter BNC) disruption. The accelerated tumor development is accompanied by increased Polycomb repression and EZH2-mediated redistribution of H3K27me3 toward promoter sites with concomitant activation of PI3K and MAPK pathways. Treatment of BNC tumor-bearing mice with cisplatin and pemetrexed, the current frontline treatment, prolongs survival. This makes the autochthonous mouse model described here very well suited to explore the pathogenesis of MM and validate new treatment regimens for MM, including immunotherapy., Competing Interests: Disclosures: Dr. Badhai reported a patent to 19209921.8 -1112 pending. Dr. Monkhorst reported personal fees from Roche, personal fees from Pfizer, personal fees from BMS, personal fees from Abbvie, personal fees from AstraZeneca, non-financial support from Roche, non-financial support from Takeda, non-financial support from Pfizer, personal fees from MSD, grants from AstraZeneca, and grants from Roche outside the submitted work. Dr. van Lohuizen reported a patent to 18209921.8 pending. Dr. Berns reported a patent to 19209921.8 -1112 pending. No other disclosures were reported., (© 2020 Badhai et al.)

Published
2020
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14. Draft Genome Sequences of Vibrio alginolyticus Strain S6-61 and Vibrio diabolicus Strain S7-71, Isolated from Corals in the Andaman Sea.

Author

Deb S, Badhai J, and Das SK

Abstract

We report the draft genome sequences of Vibrio alginolyticus strain S6-61 and Vibrio diabolicus strain S7-71, isolated from the corals Pocillopora verrucosa and Fungia danai , respectively. The genomes of strains S6-61 and S7-71 contain 4,880 and 4,641 protein coding genes, respectively, and harbor genes associated with the ectoine biosynthesis pathway., (Copyright © 2020 Deb et al.)

Published
2020
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15. Draft Genome Sequences of Two Vibrio fortis Strains Isolated from Coral ( Fungia sp.) from the Andaman Sea.

Author

Deb S, Badhai J, and Das SK

Abstract

We report the draft genome sequences of Vibrio fortis strains AN-60 and S7-72, which were isolated from coral ( Fungia sp.) from the Andaman Sea. The genome sizes for strains AN-60 and S7-72 are 5.43 and 5.53 Mb, respectively. Both strains harbor genes associated with protocatechuate and azathioprine degradation and the sulfate reduction pathway., (Copyright © 2020 Deb et al.)

Published
2020
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16. Draft Genome Sequence of Marinomonas fungiae Strain AN44 T (JCM 18476 T ), Isolated from the Coral Fungia echinata from the Andaman Sea.

Author

Kumari P, Badhai J, and Das SK

Abstract

Marinomonas fungiae strain AN44 T was isolated from mucus of the coral Fungia echinata Optimum growth occurs at 3 to 5% NaCl. The draft genome is 4.2 Mb, with 3,776 protein-coding genes. It harbors genes for the degradation of aromatic compounds, such as quinate, ferulate, p -coumarate, protocatechuate, and p -hydroxyphenylacetate., (Copyright © 2018 Kumari et al.)

Published
2018
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17. Comprehensive Pharmacogenomic Profiling of Malignant Pleural Mesothelioma Identifies a Subgroup Sensitive to FGFR Inhibition.

Author

Quispel-Janssen JM, Badhai J, Schunselaar L, Price S, Brammeld J, Iorio F, Kolluri K, Garnett M, Berns A, Baas P, McDermott U, Neefjes J, and Alifrangis C

Subjects
Animals, Apoptosis drug effects, Apoptosis genetics, Cell Line, Tumor, Cell Proliferation, Cell Survival drug effects, Cell Survival genetics, Disease Models, Animal, Drug Resistance, Neoplasm, Drug Screening Assays, Antitumor, ErbB Receptors antagonists & inhibitors, Female, Fibroblast Growth Factors metabolism, Gene Amplification, Gene Expression Regulation, Neoplastic, Humans, Lung Neoplasms drug therapy, Lung Neoplasms metabolism, Lung Neoplasms pathology, Male, Mesothelioma drug therapy, Mesothelioma metabolism, Mesothelioma pathology, Mesothelioma, Malignant, Mice, Pleural Neoplasms drug therapy, Pleural Neoplasms metabolism, Pleural Neoplasms pathology, RNA Interference, Signal Transduction, Tumor Suppressor Proteins metabolism, Ubiquitin Thiolesterase metabolism, Xenograft Model Antitumor Assays, Gene Expression Profiling methods, Lung Neoplasms genetics, Mesothelioma genetics, Pharmacogenetics methods, Pleural Neoplasms genetics
Abstract

Purpose: Despite intense research, treatment options for patients with mesothelioma are limited and offer only modest survival advantage. We screened a large panel of compounds in multiple mesothelioma models and correlated sensitivity with a range of molecular features to detect biomarkers of drug response. Experimental design: We utilized a high-throughput chemical inhibitor screen in a panel of 889 cancer cell lines, including both immortalized and primary early-passage mesothelioma lines, alongside comprehensive molecular characterization using Illumina whole-exome sequencing, copy-number analysis and Affymetrix array whole transcriptome profiling. Subsequent validation was done using functional assays such as siRNA silencing and mesothelioma mouse xenograft models. Results: A subgroup of immortalized and primary MPM lines appeared highly sensitive to FGFR inhibition. None of these lines harbored genomic alterations of FGFR family members, but rather BAP1 protein loss was associated with enhanced sensitivity to FGFR inhibition. This was confirmed in an MPM mouse xenograft model and by BAP1 knockdown and overexpression in cell line models. Gene expression analyses revealed an association between BAP1 loss and increased expression of the receptors FGFR1/3 and ligands FGF9/18. BAP1 loss was associated with activation of MAPK signaling. These associations were confirmed in a cohort of MPM patient samples. Conclusions: A subgroup of mesotheliomas cell lines harbor sensitivity to FGFR inhibition. BAP1 protein loss enriches for this subgroup and could serve as a potential biomarker to select patients for FGFR inhibitor treatment. These data identify a clinically relevant MPM subgroup for consideration of FGFR therapeutics in future clinical studies. Clin Cancer Res; 24(1); 84-94. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published
2018
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19. Characterization of Three Novel SXT/R391 Integrating Conjugative Elements ICE Mfu Ind1a and ICE Mfu Ind1b, and ICE Mpr Chn1 Identified in the Genomes of Marinomonas fungiae JCM 18476 T and Marinomonas profundimaris Strain D104.

Author

Badhai J and Das SK

Abstract

The genus Marinomonas comprises Gram negative bacteria which are widespread in the marine environment and there is no report on the genomic analysis of SXT/R391 ICEs derived from this group of bacteria. This study describes the genomic features of three new SXT/R391 integrating conjugating elements (ICEs) identified in the genome of Marinomonas fungiae JCM 18476 T (ICE Mfu Ind1a and ICE Mfu Ind1b) and in Marinomonas profundimaris strain D104 (ICE Mpr Chn1). Structural organizations of the three ICEs were similar to the typical SXT/R391 family of ICEs and showed high degree of conservation in the core genes. Sequence analysis revealed ICE Mfu Ind1b and ICE Mpr Chn1 were inserted into the genome at 5'-end of an typical host prfC gene, while ICE Mfu Ind1a was inserted at 5'-end of an atypical hipA -like gene. Despite their coexistence, the ICE Mfu Ind1a and ICE Mfu Ind1b were not present in a tandem fashion in the genome of M. fungiae. Phylogenetic analyses revealed the three ICEs either evolved independently or high degrees of recombination events had masked their evolution from a common SXT ancestor. Further, we found that the typical entry exclusion mechanism mediated by the TraG/EeX protein pair was likely defective in preventing the conjugative transfer of a second copy of the same S (SXT) group ICE into the M. fungiae genome due to mutations. Our analysis showed the presence of 16, 25, and 27 variable genes in the hotspots of ICE Mfu Ind1a, ICE Mfu Ind1b, and ICE Mpr Chn1, respectively, many of which were not reported earlier for SXT/R391 ICEs. Sequence analysis predicted these hotspot regions were shaped by acquisition of genes through homologous recombination between the SXT and R391 related ICEs or mobile genetic elements present in disparate marine bacteria. Multidrug resistance genes which are hallmark feature of SXT/R391 ICEs were not present in either of the two ICEs from M. fungiae but were present within a transposon cassette in the HS-1 of the ICE Mpr Chn1 from M. profundimaris. Finally, our data provided information on the genetic diversity and predicted functions encoded by variable genes present in the hotspot regions of these new ICEs.

Published
2016
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21. Draft Genome Sequence of Comamonas thiooxydans Strain S23T (DSM 17888T), a Thiosulfate-Oxidizing Bacterium Isolated from a Sulfur Spring in India.

Author

Narayan KD, Badhai J, Whitman WB, and Das SK

Abstract

The genus Comamonas contains species isolated from various environments, such as termite guts, wetlands, activated sludge, soil, humans, and fresh water. Here, we report the draft genome sequence of Comamonas thiooxydans strain S23(T) capable of oxidizing thiosulfate under mixotrophic growth conditions. Based upon draft genome sequencing, the genome is 5.3 Mb and encodes 4,767 proteins. The Comamonas thiooxydans whole-genome sequence will help understand the metabolic diversity in sulfur oxidation pathways., (Copyright © 2016 Narayan et al.)

Published
2016
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22. Draft Genome Sequence of Gulbenkiania indica Strain HT27T (DSM 17901T) Isolated from a Sulfur Spring in India.

Author

Badhai J, Narayan KD, Whitman WB, and Das SK

Abstract

Gulbenkiania indica strain HT27(T) was isolated from a sulfur spring. Here, we report the first representative draft genome sequence of a type strain of the genus Gulbenkiania The estimated genome is 2.8 Mb, with 2,713 protein-coding sequences., (Copyright © 2016 Badhai et al.)

Published
2016
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23. Composition and Functional Characterization of Microbiome Associated with Mucus of the Coral Fungia echinata Collected from Andaman Sea.

Author

Badhai J, Ghosh TS, and Das SK

Abstract

This study describes the community composition and functions of the microbiome associated with the mucus of the coral Fungia echinata based on metagenomic approach. Metagenome sequence data showed a dominance of the class Gammaproteobacteria followed by Alphaproteobacteria, Betaproteobacteria, Deltaproteobacteria, Flavobacteriia, Bacilli, and Clostridia. At the order level, the most abundant groups were Pseudomonadales, Oceanospirillales, Alteromonadales, and Rhodobacterales. The genus Psychrobacter was the most predominant followed by Thalassolituus and Cobetia, although other genera were also present, such as Sulfitobacter, Pseudoalteromonas, Oleispira, Halomonas, Oceanobacter, Acinetobacter, Pseudomonas, Vibrio, and Marinobacter. The metabolic profile of the bacterial community displayed high prevalence of genes associated with core-housekeeping processes, such as carbohydrates, amino acids, proteins, and nucleic acid metabolism. Further, high abundance of genes coding for DNA replication and repair, stress response, and virulence factors in the metagenome suggested acquisition of specific environmental adaptation by the microbiota. Comparative analysis with other coral metagenome exhibits marked differences at the taxonomical and functional level. This study suggests the bacterial community compositions are influenced by the specific coral micro-niche and the oligotrophic marine environment.

Published
2016
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24. Taxonomic and functional characteristics of microbial communities and their correlation with physicochemical properties of four geothermal springs in Odisha, India.

Author

Badhai J, Ghosh TS, and Das SK

Abstract

This study describes microbial diversity in four tropical hot springs representing moderately thermophilic environments (temperature range: 40-58°C; pH: 7.2-7.4) with discrete geochemistry. Metagenome sequence data showed a dominance of Bacteria over Archaea; the most abundant phyla were Chloroflexi and Proteobacteria, although other phyla were also present, such as Acetothermia, Nitrospirae, Acidobacteria, Firmicutes, Deinococcus-Thermus, Bacteroidetes, Thermotogae, Euryarchaeota, Verrucomicrobia, Ignavibacteriae, Cyanobacteria, Actinobacteria, Planctomycetes, Spirochaetes, Armatimonadetes, Crenarchaeota, and Aquificae. The distribution of major genera and their statistical correlation analyses with the physicochemical parameters predicted that the temperature, aqueous concentrations of ions (such as sodium, chloride, sulfate, and bicarbonate), total hardness, dissolved solids and conductivity were the main environmental variables influencing microbial community composition and diversity. Despite the observed high taxonomic diversity, there were only little variations in the overall functional profiles of the microbial communities in the four springs. Genes involved in the metabolism of carbohydrates and carbon fixation were the most abundant functional class of genes present in these hot springs. The distribution of genes involved in carbon fixation predicted the presence of all the six known autotrophic pathways in the metagenomes. A high prevalence of genes involved in membrane transport, signal transduction, stress response, bacterial chemotaxis, and flagellar assembly were observed along with genes involved in the pathways of xenobiotic degradation and metabolism. The analysis of the metagenomic sequences affiliated to the candidate phylum Acetothermia from spring TB-3 provided new insight into the metabolism and physiology of yet-unknown members of this lineage of bacteria.

Published
2015
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25. Chromatin landscapes of retroviral and transposon integration profiles.

Author

de Jong J, Akhtar W, Badhai J, Rust AG, Rad R, Hilkens J, Berns A, van Lohuizen M, Wessels LF, and de Ridder J

Subjects
Animals, CpG Islands genetics, Genome genetics, Mice, Mutagenesis, Insertional methods, Oncogenes genetics, Chromatin genetics, DNA Transposable Elements genetics, Retroviridae genetics
Abstract

The ability of retroviruses and transposons to insert their genetic material into host DNA makes them widely used tools in molecular biology, cancer research and gene therapy. However, these systems have biases that may strongly affect research outcomes. To address this issue, we generated very large datasets consisting of ~ 120,000 to ~ 180,000 unselected integrations in the mouse genome for the Sleeping Beauty (SB) and piggyBac (PB) transposons, and the Mouse Mammary Tumor Virus (MMTV). We analyzed ~ 80 (epi)genomic features to generate bias maps at both local and genome-wide scales. MMTV showed a remarkably uniform distribution of integrations across the genome. More distinct preferences were observed for the two transposons, with PB showing remarkable resemblance to bias profiles of the Murine Leukemia Virus. Furthermore, we present a model where target site selection is directed at multiple scales. At a large scale, target site selection is similar across systems, and defined by domain-oriented features, namely expression of proximal genes, proximity to CpG islands and to genic features, chromatin compaction and replication timing. Notable differences between the systems are mainly observed at smaller scales, and are directed by a diverse range of features. To study the effect of these biases on integration sites occupied under selective pressure, we turned to insertional mutagenesis (IM) screens. In IM screens, putative cancer genes are identified by finding frequently targeted genomic regions, or Common Integration Sites (CISs). Within three recently completed IM screens, we identified 7%-33% putative false positive CISs, which are likely not the result of the oncogenic selection process. Moreover, results indicate that PB, compared to SB, is more suited to tag oncogenes.

Published
2014
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26. Rapid target gene validation in complex cancer mouse models using re-derived embryonic stem cells.

Author

Huijbers IJ, Bin Ali R, Pritchard C, Cozijnsen M, Kwon MC, Proost N, Song JY, de Vries H, Badhai J, Sutherland K, Krimpenfort P, Michalak EM, Jonkers J, and Berns A

Subjects
Animals, Carcinogenesis metabolism, Carcinogenesis pathology, Cell Proliferation, Cells, Cultured, Chimera, Clone Cells, DNA Nucleotidyltransferases metabolism, Disease Models, Animal, Embryonic Stem Cells metabolism, Genes, Reporter, Genomic Instability, Genotype, Germ Cells metabolism, Humans, Luciferases metabolism, Lung Neoplasms metabolism, Mice, Mice, Inbred C57BL, Oncogenes, Phenotype, Pluripotent Stem Cells metabolism, Quality Control, Reproducibility of Results, Small Cell Lung Carcinoma metabolism, Small Cell Lung Carcinoma pathology, Embryonic Stem Cells cytology, Gene Transfer Techniques, Lung Neoplasms pathology
Abstract

Human cancers modeled in Genetically Engineered Mouse Models (GEMMs) can provide important mechanistic insights into the molecular basis of tumor development and enable testing of new intervention strategies. The inherent complexity of these models, with often multiple modified tumor suppressor genes and oncogenes, has hampered their use as preclinical models for validating cancer genes and drug targets. In our newly developed approach for the fast generation of tumor cohorts we have overcome this obstacle, as exemplified for three GEMMs; two lung cancer models and one mesothelioma model. Three elements are central for this system; (i) The efficient derivation of authentic Embryonic Stem Cells (ESCs) from established GEMMs, (ii) the routine introduction of transgenes of choice in these GEMM-ESCs by Flp recombinase-mediated integration and (iii) the direct use of the chimeric animals in tumor cohorts. By applying stringent quality controls, the GEMM-ESC approach proofs to be a reliable and effective method to speed up cancer gene assessment and target validation. As proof-of-principle, we demonstrate that MycL1 is a key driver gene in Small Cell Lung Cancer.

Published
2014
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27. Presence of SXT integrating conjugative element in marine bacteria isolated from the mucus of the coral Fungia echinata from Andaman Sea.

Author

Badhai J, Kumari P, Krishnan P, Ramamurthy T, and Das SK

Subjects
Animals, Bacteria drug effects, Bacteria genetics, Conjugation, Genetic, Microbial Sensitivity Tests, RNA, Ribosomal, 16S genetics, Anthozoa microbiology, Bacteria isolation & purification, Water Microbiology
Abstract

In this study, we characterize 18 cultivable bacteria associated within the mucus of the coral Fungia echinata from Andaman Sea, India. 16S rRNA gene sequence analysis showed that all the 18 strains isolated in this study from the coral mucus belong to the group Gammaproteobacteria and majority of them were identified as Vibrio core group. Our objective was to investigate the presence of the SXT/R391 integrating conjugative elements (ICEs) targeting integrase int(SXT) and SXT Hotspot IV genetic elements in these isolates. SXT/ICE initially reported in Vibrio cholerae contains many antibiotic and heavy metal resistance genes and acts as an effective tool for the horizontal transfer of resistance genes in other bacterial populations. Two of our strains, AN44 and AN60, were resistant to sulfamethoxazole, trimethoprim, chloramphenicol, and streptomycin, in addition to other antibiotics such as neomycin, ampicillin, rifampicin, and tetracycline. Using PCR followed by sequencing, we detected the SXT/ICE in these strains. The SXT integrase genes of AN44 and AN60 had a 99% and 100% identity with V. cholerae serogroup O139 strain SG24. This study provides the first evidence of the presence of SXT/R391 ICEs in Marinomonas sp. strain AN44 (JCM 18476(T) ) and Vibrio fortis strain AN60 (DSM 26067(T) ) isolated from the mucus of the coral F. echinata., (© 2012 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published
2013
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28. siRNA silencing of proteasome maturation protein (POMP) activates the unfolded protein response and constitutes a model for KLICK genodermatosis.

Author

Dahlqvist J, Törmä H, Badhai J, and Dahl N

Subjects
5' Untranslated Regions genetics, Cell Differentiation genetics, Endoplasmic Reticulum Stress genetics, Epidermis metabolism, Epidermis pathology, Filaggrin Proteins, Gene Knockdown Techniques, HeLa Cells, Humans, Intermediate Filament Proteins metabolism, Molecular Chaperones biosynthesis, Molecular Chaperones metabolism, Mutation, Phenotype, Proteasome Endopeptidase Complex metabolism, Protein Biosynthesis, Skin Diseases metabolism, Skin Diseases pathology, Gene Silencing, Molecular Chaperones genetics, RNA, Small Interfering genetics, Skin Diseases congenital, Skin Diseases genetics, Unfolded Protein Response genetics
Abstract

Keratosis linearis with ichthyosis congenita and keratoderma (KLICK) is an autosomal recessive skin disorder associated with a single-nucleotide deletion in the 5'untranslated region of the proteasome maturation protein (POMP) gene. The deletion causes a relative switch in transcription start sites for POMP, predicted to decrease levels of POMP protein in terminally differentiated keratinocytes. To investigate the pathophysiology behind KLICK we created an in vitro model of the disease using siRNA silencing of POMP in epidermal air-liquid cultures. Immunohistochemical analysis of the tissue constructs revealed aberrant staining of POMP, proteasome subunits and the skin differentiation marker filaggrin when compared to control tissue constructs. The staining patterns of POMP siRNA tissue constructs showed strong resemblance to those observed in skin biopsies from KLICK patients. Western blot analysis of lysates from the organotypic tissue constructs revealed an aberrant processing of profilaggrin to filaggrin in samples transfected with siRNA against POMP. Knock-down of POMP expression in regular cell cultures resulted in decreased amounts of proteasome subunits. Prolonged silencing of POMP in cultured cells induced C/EBP homologous protein (CHOP) expression consistent with an activation of the unfolded protein response and increased endoplasmic reticulum (ER) stress. The combined results indicate that KLICK is caused by reduced levels of POMP, leading to proteasome insufficiency in differentiating keratinocytes. Proteasome insufficiency disturbs terminal epidermal differentiation, presumably by increased ER stress, and leads to perturbed processing of profilaggrin. Our findings underline a critical role for the proteasome in human epidermal differentiation.

Published
2012
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29. 5'UTR variants of ribosomal protein S19 transcript determine translational efficiency: implications for Diamond-Blackfan anemia and tissue variability.

Author

Badhai J, Schuster J, Gidlöf O, and Dahl N

Subjects
Base Sequence, Cell Line, Gene Expression Profiling, Humans, Molecular Sequence Data, Mutation genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Ribosomal Proteins metabolism, Transcription Initiation Site, 5' Untranslated Regions genetics, Anemia, Diamond-Blackfan genetics, Organ Specificity genetics, Protein Biosynthesis genetics, Ribosomal Proteins genetics
Abstract

Background: Diamond-Blackfan anemia (DBA) is a lineage specific and congenital erythroblastopenia. The disease is associated with mutations in genes encoding ribosomal proteins resulting in perturbed ribosomal subunit biosynthesis. The RPS19 gene is mutated in approximately 25% of DBA patients and a variety of coding mutations have been described, all presumably leading to haploinsufficiency. A subset of patients carries rare polymorphic sequence variants within the 5'untranslated region (5'UTR) of RPS19. The functional significance of these variants remains unclear., Methodology/principal Findings: We analyzed the distribution of transcriptional start sites (TSS) for RPS19 mRNAs in testis and K562 cells. Twenty-nine novel RPS19 transcripts were identified with different 5'UTR length. Quantification of expressed w.t. 5'UTR variants revealed that a short 5'UTR correlates with high levels of RPS19. The total levels of RPS19 transcripts showed a broad variation between tissues. We also expressed three polymorphic RPS19 5'UTR variants identified in DBA patients. The sequence variants include two insertions (c.-147_-146insGCCA and c.-147_-146insAGCC) and one deletion (c.-144_-141delTTTC). The three 5'UTR polymorphisms are associated with a 20-30% reduction in RPS19 protein levels when compared to the wild-type (w.t.) 5'UTR of corresponding length., Conclusions: The RPS19 gene uses a broad range of TSS and a short 5'UTR is associated with increased levels of RPS19. Comparisons between tissues showed a broad variation in the total amount of RPS19 mRNA and in the distribution of TSS used. Furthermore, our results indicate that rare polymorphic 5'UTR variants reduce RPS19 protein levels with implications for Diamond-Blackfan anemia.

Published
2011
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30. Ribosomal protein S19 binds to its own mRNA with reduced affinity in Diamond-Blackfan anemia.

Author

Schuster J, Fröjmark AS, Nilsson P, Badhai J, Virtanen A, and Dahl N

Subjects
5' Untranslated Regions, Anemia, Diamond-Blackfan genetics, Humans, Protein Binding, Anemia, Diamond-Blackfan metabolism, Mutation, Missense, RNA, Messenger metabolism, Ribosomal Proteins genetics, Ribosomal Proteins metabolism
Abstract

Heterozygous mutations in the ribosomal protein S19 (RPS19) gene are associated with Diamond-Blackfan anemia (DBA). The mechanism by which RPS19 mediates anemia are still unclear, as well as the regulation of RPS19 expression. We show herein that RPS19 binds specifically to the 5' untranslated region of its own mRNA with an equilibrium binding constant (K(D)) of 4.1+/-1.9 nM. We investigated the mRNA binding properties of two mutant RPS19 proteins (W52R and R62W) identified in DBA patients. We observed a significant increase in K(D) for both proteins (16.1+/-2.1 and 14.5+/-4.9 nM, respectively), indicating a reduced RNA binding capability (p<0.05). We suggest that the binding of RPS19 to its mRNA has a regulatory function and hypothesize that the weaker RNA binding of mutant rRPS19 may have implications for the pathophysiological mechanisms in DBA., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published
2010
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31. A single-nucleotide deletion in the POMP 5' UTR causes a transcriptional switch and altered epidermal proteasome distribution in KLICK genodermatosis.

Author

Dahlqvist J, Klar J, Tiwari N, Schuster J, Törmä H, Badhai J, Pujol R, van Steensel MA, Brinkhuizen T, Gijezen L, Chaves A, Tadini G, Vahlquist A, and Dahl N

Subjects
Adult, Base Sequence, Case-Control Studies, Cells, Cultured, Epidermis metabolism, Family, Gene Deletion, Homozygote, Humans, Ichthyosis metabolism, Keratinocytes cytology, Keratinocytes metabolism, Keratosis metabolism, Male, Molecular Sequence Data, Scleroderma, Localized metabolism, Sequence Homology, Nucleic Acid, Syndrome, 5' Untranslated Regions genetics, Epidermis pathology, Ichthyosis genetics, Keratosis genetics, Molecular Chaperones genetics, Polymorphism, Single Nucleotide, Proteasome Endopeptidase Complex metabolism, Scleroderma, Localized genetics, Transcription, Genetic
Abstract

KLICK syndrome is a rare autosomal-recessive skin disorder characterized by palmoplantar keratoderma, linear hyperkeratotic papules, and ichthyosiform scaling. In order to establish the genetic cause of this disorder, we collected DNA samples from eight European probands. Using high-density genome-wide SNP analysis, we identified a 1.5 Mb homozygous candidate region on chromosome 13q. Sequence analysis of the ten annotated genes in the candidate region revealed homozygosity for a single-nucleotide deletion at position c.-95 in the proteasome maturation protein (POMP) gene, in all probands. The deletion is included in POMP transcript variants with long 5' untranslated regions (UTRs) and was associated with a marked increase of these transcript variants in keratinocytes from KLICK patients. POMP is a ubiquitously expressed protein and functions as a chaperone for proteasome maturation. Immunohistochemical analysis of skin biopsies from KLICK patients revealed an altered epidermal distribution of POMP, the proteasome subunit proteins alpha 7 and beta 5, and the ER stress marker CHOP. Our results suggest that KLICK syndrome is caused by a single-nucleotide deletion in the 5' UTR of POMP resulting in altered distribution of POMP in epidermis and a perturbed formation of the outermost layers of the skin. These findings imply that the proteasome has a prominent role in the terminal differentiation of human epidermis., ((c) 2010 The American Society of Human Genetics. Published by Elsevier Inc. All rights reserved.)

Published
2010
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32. Cooperative effect of ribosomal protein s19 and Pim-1 kinase on murine c-Myc expression and myeloid/erythroid cellularity.

Author

Fröjmark AS, Badhai J, Klar J, Thuveson M, Schuster J, and Dahl N

Subjects
Anemia, Diamond-Blackfan genetics, Animals, Apoptosis, Bone Marrow pathology, Cell Proliferation, Erythropoiesis, Gene Expression Regulation, Mice, Myeloid Cells cytology, Proto-Oncogene Proteins c-myc metabolism, Proto-Oncogene Proteins c-pim-1 metabolism, Ribosomal Proteins metabolism, Spleen pathology, Mutation, Myelopoiesis, Proto-Oncogene Proteins c-myc genetics, Proto-Oncogene Proteins c-pim-1 genetics, Ribosomal Proteins genetics
Abstract

Diamond-Blackfan anemia is a bone marrow failure syndrome associated with heterozygous mutations in the ribosomal protein S19 (RPS19) gene in a subgroup of patients. One of the interacting partners with RPS19 is the oncoprotein PIM-1 kinase. We intercrossed Rps19 ( +/- ) and Pim-1 ( -/- ) mice strains to study the effect from the disruption of both genes. The double mutant (Rps19 ( +/- ) Pim-1 ( -/- )) mice display normal growth with increased peripheral white and red blood cell counts when compared to the w.t. mice (Rps19 ( +/+ ) Pim-1 ( +/+ )). Molecular analysis of bone marrow cells in Rps19 ( +/- ) Pim-1 ( -/- ) mice revealed up-regulated levels of c-Myc and the anti-apoptotic factors Bcl(2), Bcl(XL), and Mcl-1. This is associated with a reduction of the apoptotic factors Bak and Caspase 3 as well as the cell cycle regulator p21. Our findings suggest that combined Rps19 insufficiency and Pim-1 deficiency promote murine myeloid cell growth through a deregulation of c-Myc and a simultaneous up-regulation of anti-apoptotic Bcl proteins.

Published
2010
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33. Ribosomal protein S19 and S24 insufficiency cause distinct cell cycle defects in Diamond-Blackfan anemia.

Author

Badhai J, Fröjmark AS, J Davey E, Schuster J, and Dahl N

Subjects
Blotting, Western, Cell Cycle Proteins metabolism, Cell Proliferation, Cells, Cultured, Down-Regulation, Fibroblasts metabolism, Fibroblasts pathology, Humans, Mutation genetics, RNA, Ribosomal metabolism, Anemia, Diamond-Blackfan metabolism, Anemia, Diamond-Blackfan pathology, Cell Cycle, Ribosomal Proteins metabolism
Abstract

Diamond-Blackfan anemia (DBA) is a severe congenital anemia characterized by a specific decrease of erythroid precursors. The disease is also associated with growth retardation, congenital malformations, a predisposition for malignant disease and heterozygous mutations in either of the ribosomal protein (RP) genes RPS7, RPS17, RPS19, RPS24, RPL5, RPL11 and RPL35a. We show herein that primary fibroblasts from DBA patients with truncating mutations in RPS19 or in RPS24 have a marked reduction in proliferative capacity. Mutant fibroblasts are associated with extended cell cycles and normal levels of p53 when compared to w.t. cells. RPS19 mutant fibroblasts accumulate in the G1 phase, whereas the RPS24 mutant cells show an altered progression in the S phase resulting in reduced levels in the G2/M phase. RPS19 deficient cells exhibit reduced levels of Cyclin-E, CDK2 and retinoblastoma (Rb) protein supporting a cell cycle arrest in the G1 phase. In contrast, RPS24 deficient cells show increased levels of the cell cycle inhibitor p21 and a seemingly opposing increase in Cyclin-E, CDK4 and CDK6. In combination, our results show that RPS19 and RPS24 insufficient fibroblasts have an impaired growth caused by distinct blockages in the cell cycle. We suggest this proliferative constraint to be an important contributing mechanism for the complex extra-hematological features observed in DBA.

Published
2009
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34. Targeted resequencing and analysis of the Diamond-Blackfan anemia disease locus RPS19.

Author

Martinez Barrio A, Eriksson O, Badhai J, Fröjmark AS, Bongcam-Rudloff E, Dahl N, and Schuster J

Subjects
Base Sequence, Binding Sites, Chromosomes, Human, Pair 18, Cohort Studies, DNA, Humans, Molecular Sequence Data, Mutation, Phenotype, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Sequence Homology, Nucleic Acid, Transcription Factors metabolism, Anemia, Diamond-Blackfan genetics, Ribosomal Proteins genetics
Abstract

Background: The Ribosomal protein S19 gene locus (RPS19) has been linked to two kinds of red cell aplasia, Diamond-Blackfan Anemia (DBA) and Transient Erythroblastopenia in Childhood (TEC). Mutations in RPS19 coding sequences have been found in 25% of DBA patients, but not in TEC patients. It has been suggested that non-coding RPS19 sequence variants contribute to the considerable clinical variability in red cell aplasia. We therefore aimed at identifying non-coding variations associated with DBA or TEC phenotypes., Methodology/principal Findings: We targeted a region of 19'980 bp encompassing the RPS19 gene in a cohort of 89 DBA and TEC patients for resequencing. We provide here a catalog of the considerable, previously unrecognized degree of variation in this region. We identified 73 variations (65 SNPs, 8 indels) that all are located outside of the RPS19 open reading frame, and of which 67.1% are classified as novel. We hypothesize that specific alleles in non-coding regions of RPS19 could alter the binding of regulatory proteins or transcription factors. Therefore, we carried out an extensive analysis to identify transcription factor binding sites (TFBS). A series of putative interaction sites coincide with detected variants. Sixteen of the corresponding transcription factors are of particular interest, as they are housekeeping genes or show a direct link to hematopoiesis, tumorigenesis or leukemia (e.g. GATA-1/2, PU.1, MZF-1)., Conclusions: Specific alleles at predicted TFBSs may alter the expression of RPS19, modify an important interaction between transcription factors with overlapping TFBS or remove an important stimulus for hematopoiesis. We suggest that the detected interactions are of importance for hematopoiesis and could provide new insights into individual response to treatment.

Published
2009
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35. Posttranscriptional down-regulation of small ribosomal subunit proteins correlates with reduction of 18S rRNA in RPS19 deficiency.

Author

Badhai J, Fröjmark AS, Razzaghian HR, Davey E, Schuster J, and Dahl N

Subjects
Cell Line, Down-Regulation, Humans, Lymphocytes metabolism, Models, Biological, Mutation, RNA Processing, Post-Transcriptional, RNA, Ribosomal, 28S genetics, RNA, Ribosomal, 28S metabolism, RNA, Small Interfering genetics, Ribosomal Proteins antagonists & inhibitors, Ribosomal Proteins chemistry, Ribosomal Proteins deficiency, Anemia, Diamond-Blackfan genetics, Anemia, Diamond-Blackfan metabolism, RNA, Ribosomal, 18S genetics, RNA, Ribosomal, 18S metabolism, Ribosomal Proteins genetics, Ribosomal Proteins metabolism
Abstract

Ribosomal protein S19 (RPS19) is mutated in patients with Diamond-Blackfan anemia (DBA). We hypothesized that decreased levels of RPS19 lead to a coordinated down-regulation of other ribosomal (r-)proteins at the subunit level. We show that small interfering RNA (siRNA) knock-down of RPS19 results in a relative decrease of small subunit (SSU) r-proteins (S20, S21 and S24) when compared to large subunit (LSU) r-proteins (L3, L9, L30 and L38). This correlates with a relative decrease in 18S rRNA with respect to 28S rRNA. The r-protein mRNA levels remain relatively unchanged indicating a post transcriptional regulation of r-proteins at the level of subunit formation.

Published
2009
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36. Alterations in the expression, structure and function of progesterone receptor membrane component-1 (PGRMC1) in premature ovarian failure.

Author

Mansouri MR, Schuster J, Badhai J, Stattin EL, Lösel R, Wehling M, Carlsson B, Hovatta O, Karlström PO, Golovleva I, Toniolo D, Bione S, Peluso J, and Dahl N

Subjects
Adolescent, Adult, Apoptosis, Chromosomes, Human, X genetics, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, DNA Methylation, Female, Humans, Membrane Proteins genetics, Mutation, Missense, Primary Ovarian Insufficiency metabolism, Primary Ovarian Insufficiency physiopathology, Protein Structure, Tertiary, Receptors, Progesterone genetics, Translocation, Genetic, Young Adult, Gene Expression, Membrane Proteins chemistry, Membrane Proteins metabolism, Primary Ovarian Insufficiency genetics, Receptors, Progesterone chemistry, Receptors, Progesterone metabolism
Abstract

Premature ovarian failure (POF) is characterized by hypergonadotropic hypogonadism and amenorrhea before the age of 40. The condition has a heterogeneous background but genetic factors are demonstrated by the occurrence of familial cases. We identified a mother and daughter with POF both of whom carry an X;autosome translocation [t(X;11)(q24;q13)]. RNA expression studies of genes flanking the X-chromosome breakpoint revealed that both patients have reduced expression levels of the gene Progesterone Receptor Membrane Component-1 (PGRMC1). Mutation screening of 67 females with idiopathic POF identified a third patient with a missense mutation (H165R) located in the cytochrome b5 domain of PGRMC1. PGRMC1 mediates the anti-apoptotic action of progesterone in ovarian cells and it acts as a positive regulator of several cytochrome P450 (CYP)-catalyzed reactions. The CYPs are critical for intracellular sterol metabolism, including biosynthesis of steroid hormones. We show that the H165R mutation associated with POF abolishes the binding of cytochrome P450 7A1 (CYP7A1) to PGRMC1. In addition, the missense mutation attenuates PGRMC1's ability to mediate the anti-apoptotic action of progesterone in ovarian cells. These findings suggest that mutant or reduced levels of PGMRC1 may cause POF through impaired activation of the microsomal cytochrome P450 and increased apoptosis of ovarian cells.

Published
2008
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37. Immunogenicity of cholera toxin B epitope inserted in Salmonella flagellin expressed on bacteria and administered as DNA vaccine.

Author

Chauhan N, Kumar R, Badhai J, Preet A, and Yadava PK

Subjects
Adjuvants, Immunologic, Cholera Toxin genetics, Epitopes genetics, Flagellin genetics, Genetic Engineering, Genetic Vectors, Mutant Chimeric Proteins genetics, Vaccination, Vaccines, DNA administration & dosage, Vaccines, DNA genetics, Cholera Toxin immunology, Epitopes immunology, Flagellin immunology, Immunogenetics, Mutant Chimeric Proteins immunology, Salmonella, Vaccines, DNA immunology
Abstract

Salmonella vaccine strains have been previously reported to evoke immune response against heterologous antigen cloned in the flagellin gene. A non-toxic cholera toxin subunit B epitope was selected by using computer-based program and genetically fused in single and double copy in Salmonella typhimurium flagellin gene. The chimeric flagellin functioned normally as demonstrated by motility assay. Cholera toxin B epitope cloned in flagellin was expressed at the flagellar surface. The expression was verified by Western blotting. Mice administered orally and subcutaneously with aroA flagellin-negative strain of S. dublin expressing the chimeric flagellin gene resulted in generation of antibody against cholera toxin. Mice administered intramuscularly and subcutaneously with naked mammalian expression vector containing the same cholera toxin epitope could also evoke the antibody response though it was less than the chimeric flagellin., ((Mol Cell Biochem 276: 1-6, 2005).)

Published
2005
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