Your search keyword '"Bartlomiej Gielniewski"' showing total 26 results

1. Comprehensive analysis of the REST transcription factor regulatory networks in IDH mutant and IDH wild-type glioma cell lines and tumors

Author

Malgorzata Perycz, Michal J. Dabrowski, Marta Jardanowska-Kotuniak, Adria-Jaume Roura, Bartlomiej Gielniewski, Karolina Stepniak, Michał Dramiński, Iwona A. Ciechomska, Bozena Kaminska, and Bartosz Wojtas

Subjects

Differentiation, Glioblastoma, IDH mutation, REST, KAISO, ZBTB33, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract The RE1-silencing transcription factor (REST) acts either as a repressor or activator of transcription depending on the genomic and cellular context. REST is a key player in brain cell differentiation by inducing chromatin modifications, including DNA methylation, in a proximity of its binding sites. Its dysfunction may contribute to oncogenesis. Mutations in IDH1/2 significantly change the epigenome contributing to blockade of cell differentiation and glioma development. We aimed at defining how REST modulates gene activation and repression in the context of the IDH mutation-related phenotype in gliomas. We studied the effects of REST knockdown, genome wide occurrence of REST binding sites, and DNA methylation of REST motifs in IDH wild type and IDH mutant gliomas. We found that REST target genes, REST binding patterns, and TF motif occurrence proximal to REST binding sites differed in IDH wild-type and mutant gliomas. Among differentially expressed REST targets were genes involved in glial cell differentiation and extracellular matrix organization, some of which were differentially methylated at promoters or gene bodies. REST knockdown differently impacted invasion of the parental or IDH1 mutant glioma cells. The canonical REST-repressed gene targets showed significant correlation with the GBM NPC-like cellular state. Interestingly, results of REST or KAISO silencing suggested the interplay between these TFs in regulation of REST-activated and repressed targets. The identified gene regulatory networks and putative REST cooperativity with other TFs, such as KAISO, show distinct REST target regulatory networks in IDH-WT and IDH-MUT gliomas, without concomitant DNA methylation changes. We conclude that REST could be an important therapeutic target in gliomas.

Published

2024

2. H2A.Z histone variants facilitate HDACi-dependent removal of H3.3K27M mutant protein in pediatric high-grade glioma cells

Author

Katarzyna B. Leszczynska, Amanda Freitas-Huhtamäki, Chinchu Jayaprakash, Monika Dzwigonska, Francisca N.L. Vitorino, Cynthia Horth, Kamil Wojnicki, Bartlomiej Gielniewski, Paulina Szadkowska, Beata Kaza, Javad Nazarian, Maciej K. Ciolkowski, Joanna Trubicka, Wieslawa Grajkowska, Benjamin A. Garcia, Jacek Majewski, Bozena Kaminska, and Jakub Mieczkowski

Subjects

CP: Cancer, Biology (General), QH301-705.5

Abstract

Summary: Diffuse intrinsic pontine gliomas (DIPGs) are deadly pediatric brain tumors, non-resectable due to brainstem localization and diffusive growth. Over 80% of DIPGs harbor a mutation in histone 3 (H3.3 or H3.1) resulting in a lysine-to-methionine substitution (H3K27M). Patients with DIPG have a dismal prognosis with no effective therapy. We show that histone deacetylase (HDAC) inhibitors lead to a significant reduction in the H3.3K27M protein (up to 80%) in multiple glioma cell lines. We discover that the SB939-mediated H3.3K27M loss is partially blocked by a lysosomal inhibitor, chloroquine. The H3.3K27M loss is facilitated by co-occurrence of H2A.Z, as evidenced by the knockdown of H2A.Z isoforms. Chromatin immunoprecipitation sequencing (ChIP-seq) analysis confirms the occupancy of H3.3K27M and H2A.Z at the same SB939-inducible genes. We discover a mechanism showing that HDAC inhibition in DIPG leads to pharmacological modulation of the oncogenic H3.3K27M protein levels. These findings show the possibility of directly targeting the H3.3K27M oncohistone.

Published

2024

3. EGFR/FOXO3a/BIM signaling pathway determines chemosensitivity of BMP4-differentiated glioma stem cells to temozolomide

Author

Iwona Anna Ciechomska, Bartlomiej Gielniewski, Bartosz Wojtas, Bozena Kaminska, and Jakub Mieczkowski

Subjects

Medicine, Biochemistry, QD415-436

Abstract

Brain cancer: Stem cell properties may determine chemotherapy success The properties of individual glioma stem cells (GSCs) may influence the success of chemotherapy in tackling aggressive brain cancer. GSCs promote tumor growth and chemotherapy resistance in glioblastoma tumors. One potential treatment approach uses bone morphogenetic proteins to induce GSCs to differentiate into less harmful cells. Once the GSC population has dwindled, chemoresistance reduces in many but not all cases. Jakub Mieczkowski, Bozena Kaminska and co-workers at the Nencki Institute of Experimental Biology in Warsaw, Poland, conducted experiments on patient-derived glioblastoma cell cultures. They found that samples with high expression levels of the epidermal growth factor receptor (EGFR) protein in GSCs showed heightened sensitivity to the chemotherapy drug temozolomide after differentiation. Conversely, low levels of EGFR resulted in chemoresistance being maintained after differentiation, which may explain the failure of chemotherapy in some patients.

Published

2020

4. Defining molecular identity and fates of CNS-border associated macrophages after ischemic stroke in rodents and humans

Author

Wenson D. Rajan, Bartosz Wojtas, Bartlomiej Gielniewski, Francesc Miró-Mur, Jordi Pedragosa, Malgorzata Zawadzka, Paulina Pilanc, Anna M. Planas, and Bozena Kaminska

Subjects

CNS border associated macrophages, RNA-sequencing, Ischemia, Chimeric mice, Human ischemic stroke, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Central nervous system (CNS)-border associated macrophages (BAMs) maintain their steady-state population during adulthood and are not replaced by circulating monocytes under physiological conditions. Their roles in CNS integrity and functions under pathological conditions remain largely unknown. Until recently, BAMs and microglia could not be unequivocally distinguished due to expression of common macrophage markers. We investigated the transcriptional profiles of immunosorted BAMs from rat sham-operated and ischemic brains using RNA sequencing. We found that BAMs express the distinct transcriptional signature than microglia and infiltrating macrophages. The enrichment of functional groups associated with the cell cycle in CD163+ cells isolated 3 days after the ischemic injury indicates the proliferative capacity of these cells. The increased number of CD163+ cells 3 days post-ischemia was corroborated by flow cytometry and detecting the increased number of CD163+ cells positive for a proliferation marker Ki67 at perivascular spaces. CD163+ cells in the ischemic brains up-regulated many inflammatory genes and parenchymal CD163+ cells expressed iNOS, which indicates acquisition of a pro-inflammatory phenotype. In mice, BAMs typically express CD206 and we found a subset of these cells expressing CD169. Chimeric mice generated by transplanting bone marrow of donor Cx3cr1gfpCCR2rfp mice to wild type hosts showed an increased number of CX3CR1+CD169+ perivascular macrophages 3 days post-ischemia. Furthermore, these cells accumulated in the brain parenchyma and we detected replacement of perivascular macrophages by peripheral monocytic cells in the sub-acute phase of stroke. In line with the animal results, post-mortem brain samples from human ischemic stroke cases showed time-dependent accumulation of CD163+ cells in the ischemic parenchyma. Our findings indicate a unique transcriptional signature of BAMs, their local proliferation and migration of inflammatory BAMs to the brain parenchyma after stroke in animal models and humans.

Published

2020

5. Transcriptional and Translational Differences of Microglia from Male and Female Brains

Author

Dilansu Guneykaya, Andranik Ivanov, Daniel Perez Hernandez, Verena Haage, Bartosz Wojtas, Niklas Meyer, Meron Maricos, Philipp Jordan, Alice Buonfiglioli, Bartlomiej Gielniewski, Natalia Ochocka, Cagla Cömert, Corinna Friedrich, Lorena Suarez Artiles, Bozena Kaminska, Philipp Mertins, Dieter Beule, Helmut Kettenmann, and Susanne A. Wolf

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Sex differences in brain structure and function are of substantial scientific interest because of sex-related susceptibility to psychiatric and neurological disorders. Neuroinflammation is a common denominator of many of these diseases, and thus microglia, as the brain’s immunocompetent cells, have come into focus in sex-specific studies. Here, we show differences in the structure, function, and transcriptomic and proteomic profiles in microglia freshly isolated from male and female mouse brains. We show that male microglia are more frequent in specific brain areas, have a higher antigen-presenting capacity, and appear to have a higher potential to respond to stimuli such as ATP, reflected in higher baseline outward and inward currents and higher protein expression of purinergic receptors. Altogether, we provide a comprehensive resource to generate and validate hypotheses regarding brain sex differences. : Guneykaya et al. provide transcriptomic, proteomic, and functional data from male and female microglia, providing a resource for further investigation of sex-based differences in microglia. Keywords: microglia, sex differences, transcriptomics, proteomics

Published

2018

6. Consequences of IDH1/2 Mutations in Gliomas and an Assessment of Inhibitors Targeting Mutated IDH Proteins

Author

Bozena Kaminska, Bartosz Czapski, Rafal Guzik, Sylwia Katarzyna Król, and Bartlomiej Gielniewski

Subjects

IDH mutations, metabolic disturbances, epigenetics, gliomas, tumor microenvironment, IHD mutant inhibitors, Organic chemistry, QD241-441

Abstract

Isocitrate dehydrogenases (IDH) 1 and 2 are key metabolic enzymes that generate reduced nicotinamide adenine dinucleotide phosphate (NADPH) to maintain a pool of reduced glutathione and peroxiredoxin, and produce α-ketoglutarate, a co-factor of numerous enzymes. IDH1/2 is mutated in ~70–80% of lower-grade gliomas and the majority of secondary glioblastomas. The mutant IDH1 (R132H), in addition to losing its normal catalytic activity, gains the function of producing the d-(R)-2-hydroxyglutarate (2-HG). Overproduction of 2-HG in cancer cells interferes with cellular metabolism and inhibits histone and DNA demethylases, which results in histone and DNA hypermethylation and the blockade of cellular differentiation. We summarize recent findings characterizing molecular mechanisms underlying oncogenic alterations associated with mutated IDH1/2, and their impact on tumor microenvironment and antitumor immunity. Isoform-selective IDH inhibitors which suppress 2-HG production and induce antitumor responses in cells with IDH1 and IDH2 mutations were developed and validated in preclinical settings. Inhibitors of mutated IDH1/2 enzymes entered clinical trials and represent a novel drug class for targeted therapy of gliomas. We describe the development of small-molecule compounds and peptide vaccines targeting IDH-mutant gliomas and the results of their testing in preclinical and clinical studies. All those results support the translational potential of strategies targeting gliomas carrying IDH1 mutations.

Published

2019

7. H2A.Z histone variants facilitate HDACi-dependent removal of H3.3K27M mutant protein in paediatric high-grade glioma cells

Author

Katarzyna B. Leszczynska, Amanda Pereira de Freitas, Chinchu Jayaprakash, Monika Dzwigonska, Kamil Wojnicki, Bartlomiej Gielniewski, Paulina Szadkowska, Beata Kaza, Maciej K. Ciolkowski, Joanna Trubicka, Wieslawa Grajkowska, Bozena Kaminska, and Jakub Mieczkowski

Abstract

Diffuse intrinsic pontine gliomas (DIPG) are deadly paediatric brain tumours, non-resectable due to brainstem localisation and diffusive growth. Patients with DIPG have a dismal prognosis of 9-12 months of survival with no effective therapy. Over 80% of DIPGs harbour a mutation in histone 3 (H3.3 or H3.1) resulting in a lysine to methionine substitution (H3K27M). H3K27M causes global epigenetic alterations (a loss of H3K27 trimethylation and an increase in H3K27 acetylation) resulting in aberrant gene expression. To date, no therapeutic strategy exists to suppress the levels of oncogenic H3K27M.We show that pan-HDAC inhibitors (HDACi) lead to the temporary but significant reduction in the H3.3K27M protein (up to 80%) in multiple glioma cell lines expressing the H3.3K27M histone variant, without changes in theH3F3AmRNA expression. The H3.3K27M occupancy at the chromatin is greatly reduced upon HDACi (SB939) treatment, as shown by ChIPseq analysis. H3.3K27M loss is most striking at SB939-upregulated genes suggesting the role in repression of these genes. In addition, genes previously reported as H3K27M-dependent become downregulated in response to SB939 treatment. We discover that the SB939-mediated loss of H3.3K27M is partially blocked by a lysosomal inhibitor, chloroquine. Moreover, the loss of H3.3K27M is facilitated by co-occurrence of H2A.Z, as evidenced by the knock-down of H2A.Z histone isoforms. ChIPseq analysis confirms the occupancy of H3.3K27M and H2A.Z at the same SB939-inducible genes.Altogether, we provide new insight into disease-specific mechanism of HDAC inhibition and demonstrate pharmacological modulation of the oncogenic H3.3K27M protein levels. These findings open a new possibility to directly target the H3.3K27M oncohistone, which may be exploited in future therapies.

Published

2023

8. Molecular analysis of inherited disorders of cornification in polish patients show novel variants and functional data and provokes questions on the significance of secondary findings

Author

Katarzyna Wertheim-Tysarowska, Katarzyna Osipowicz, Katarzyna Woźniak, Justyna Sawicka, Adrianna Mika, Anna Kutkowska-Kaźmierczak, Katarzyna Niepokój, Agnieszka Sobczyńska-Tomaszewska, Bartłomiej Wawrzycki, Aldona Pietrzak, Robert Śmigiel, Bartosz Wojtaś, Bartłomiej Gielniewski, Alicja Szabelska-Beresewicz, Joanna Zyprych-Walczak, Agnieszka Magdalena Rygiel, Alicja Domaszewicz, Natalia Braun-Walicka, Alicja Grabarczyk, Sylwia Rzońca-Niewczas, Ruszkowska Lidia, Mateusz Dawidziuk, Dominik Domański, Tomasz Gambin, Monika Jackiewicz, Katarzyna Duk, Barbara Dorożko, Orest Szczygielski, Natalia Krześniak, Bartłomiej H Noszczyk, Ewa Obersztyn, Jolanta Wierzba, Artur Barczyk, Jennifer Castaneda, Anna Eckersdorf-Mastalerz, Anna Jakubiuk-Tomaszuk, Paweł Własienko, Ilona Jaszczuk, Aleksandra Jezela-Stanek, Jakub Klapecki, Michel van Geel, Cezary Kowalewski, Jerzy Bal, and Antoni Gostyński

Subjects

Genodermatoses, MeDOC, PPK, Ichthyoses, RNAseq, Genes, Medicine

Abstract

Abstract Background The Mendelian Disorders of Cornification (MeDOC) comprise a large number of disorders that present with either localised (palmoplantar keratoderma, PPK) or generalised (ichthyoses) signs. The MeDOC are highly heterogenic in terms of genetics and phenotype. Consequently, diagnostic process is challenging and before implementation of the next generation sequencing, was mostly symptomatic, not causal, which limited research on those diseases. The aim of the study was to genetically characterise a cohort of 265 Polish patients with MeDOC and to get insight into the skin lesions using transcriptome and lipid profile analyses. Results We detected causal variants in 85% (226/265) patients. In addition to the primary gene defect, a pathogenic variant in another gene involved in MeDOC pathology was identified in 23 cases. We found 150 distinct variants in 33 genes, including 32 novel and 16 recurrent (present in > 5 alleles). In 43 alleles large rearrangements were detected, including deletions in the STS, SPINK5, CERS3 and recurrent duplication of exons 10–14 in TGM1. The RNA analysis using samples collected from 18 MeDOC patients and 22 controls identified 1377 differentially expressed genes - DEG. The gene ontology analysis revealed that 114 biological processes were upregulated in the MeDOC group, including i.e. epithelial cell differentiation, lipid metabolic process; homeostasis; regulation of water loss via skin; peptide cross-linking. The DEG between TGM1 and ALOX12B patients, showed that RNA profile is highly similar, though fatty acid profile in epidermal scrapings of those patients showed differences e.g. for the very long chain fatty acids (VLCFAs; FAs ≥ C20), the very long-chain monounsaturated fatty acids (VLC-MUFAs, FAs ≥ C20:1) and the n6 polyunsaturated fatty acids (n6 PUFAs). Conclusion Our results show that NGS-based analysis is an effective MeDOC diagnostic tool. The Polish MeDOC patients are heterogenic, however recurrent variants are present. The novel variants and high number of TGM1 and SPINK5 copy number variations give further insight into molecular pathology of MeDOC. We show that secondary variants in MeDOC-related genes are present in a significant group of patients, which should be further investigated in the context of phenotype modifiers. Finally, we provide novel RNA and lipid data that characterise molecularly MeDOC epidermis.

Published

2024

9. Comprehensive analysis of the transcription factor REST regulatory networks in IDH-mutant and IDH-wild type glioma

Author

Malgorzata Perycz, Michal J. Dabrowski, Marta Jardanowska, Adria-Jaume Roura, Bartlomiej Gielniewski, Karolina Stepniak, Michał Dramiński, Bozena Kaminska, and Bartosz Wojtas

Abstract

SummaryREST acts as a transcriptional repressor of neuronal genes in non-neuronal cells but could be a transcriptional activator under certain conditions. REST was implicated in a blockage of cell differentiation and is an important oncogenic factor. As IDH mutations are oncogenic drivers in gliomas causing significant changes in the epigenome and blocking differentiation, we aimed at defining the role of REST in the IDH mutation-related phenotype in gliomas. We studied consequences of REST knockdown in IDH wild-type and mutant U87 cells. Chromatin immunoprecipitation followed by sequencing combined with transcription factor (TF) motif identification and transcriptome analyses revealed different patterns of REST binding and its proximal TF motifs in IDH wild-type and mutant U87 cells. Moreover, we identified putative targets of REST as related to ECM organization and cell differentiation. We demonstrate that the REST role in gliomas is dependent on IDH mutation status.Graphical abstract

Published

2022

10. Activation-induced chromatin reorganization in neurons depends on HDAC1 activity

Author

Agnieszka Grabowska, Hanna Sas-Nowosielska, Bartosz Wojtas, Dagmara Holm-Kaczmarek, Elzbieta Januszewicz, Yana Yushkevich, Iwona Czaban, Pawel Trzaskoma, Katarzyna Krawczyk, Bartlomiej Gielniewski, Ana Martin-Gonzalez, Robert Kuba Filipkowski, Krzysztof Hubert Olszynski, Tytus Bernas, Andrzej Antoni Szczepankiewicz, Malgorzata Alicja Sliwinska, Tambudzai Kanhema, Clive R. Bramham, Grzegorz Bokota, Dariusz Plewczynski, Grzegorz Marek Wilczynski, Adriana Magalska, National Science Centre (Poland), Foundation for Polish Science, and European Commission

Subjects

Neurons, Transcription, Genetic, Long-Term Potentiation, Histone Deacetylase 1, Chromatin condensation, Chromosomes, Mammalian, Hippocampus, General Biochemistry, Genetics and Molecular Biology, Chromatin, HDAC1, Mice, Inbred C57BL, Nuclear bodies, Chromatin organization, Animals, Neuronal activation, Epigenetics, Calcium Signaling, Rats, Wistar, Energy Metabolism

Abstract

Spatial chromatin organization is crucial for transcriptional regulation and might be particularly important in neurons since they dramatically change their transcriptome in response to external stimuli. We show that stimulation of neurons causes condensation of large chromatin domains. This phenomenon can be observed in vitro in cultured rat hippocampal neurons as well as in vivo in the amygdala and hippocampal neurons. Activity-induced chromatin condensation is an active, rapid, energy-dependent, and reversible process. It involves calcium-dependent pathways but is independent of active transcription. It is accompanied by the redistribution of posttranslational histone modifications and rearrangements in the spatial organization of chromosome territories. Moreover, it leads to the reorganization of nuclear speckles and active domains located in their proximity. Finally, we find that the histone deacetylase HDAC1 is the key regulator of this process. Our results suggest that HDAC1-dependent chromatin reorganization constitutes an important level of transcriptional regulation in neurons., This work was supported by the National Science Centre grant nos. UMO-2015/18/E/NZ3/00730 (A.M., A.G., H.S.N., E.J. and Y.Y.), 2014/15/N/NZ2/00379 and 2017/24/T/NZ2/00307 (P.T.), 2019/35/O/ST6/02484 (D.P. and G.B.), and 2014/14/M/NZ4/00561 (K.H.O. and R.K.F.). B.W. and B.G. were supported by the Foundation for Polish Science TEAM-TECH Core Facility project “NGS platform for comprehensive diagnostics and personalized therapy in neuro-oncology,” Foundation for Polish Science co-financed by the European Union under the European Regional Development Fund (TEAM to D.P.). A.M.G. was supported by the H2020-MSCA-COFUND-2014 grant Bio4Med (GA no. 665735).

Published

2022

11. Author Reply to Peer Reviews of The novel, recurrent mutation in the TOP2A gene results in the enhanced topoisomerase activity and transcription deregulation in glioblastoma

Author

Bozena Kaminska, Bartosz Wojtas, Joanna Cieslewicz, Pawel Nauman, Wojciech Kloc, Ewa Izycka-Swieszewska, Miroslaw Zabek, Bartosz Czapski, Mateusz Bujko, Wojciech Szopa, Wojciech Kaspera, Mariusz Banach, Ryszard Czepko, Cezary Szczylik, Maciej Kawecki, Andrzej Styk, Grzegorz Zielinski, Andrzej Koziarski, Tomasz Czernicki, Andrzej Marchel, Beata Kaza, Marta Maleszewska, Paulina Wiechecka, Rafal Guzik, Sylwia K. Krol, Paulina Szadkowska, Adria-Jaume Roura, Katarzyna Poleszak, and Bartlomiej Gielniewski

Published

2021

12. The Changes of the Nuclear Landscape Upon Stimulation of Neuronal Cells are Dependent on the Histone Deacetylase HSAC1

Author

Hanna Sas-Nowosielska, Malgorzata Alicja Sliwinska, Krzysztof H. Olszyński, Pawel Trzaskoma, Iwona Czaban, Dagmara Holm-Kaczmarek, Grzegorz Bokota, Agnieszka Grabowska, Katarzyna Krawczyk, Bartlomiej Gielniewski, Robert K. Filipkowski, Bartosz Wojtas, Ana Martin-Gonzalez, Dariusz Plewczynski, Adriana Magalska, Grzegorz M. Wilczynski, Elzbieta Januszewicz, Tytus Bernas, Clive R. Bramham, Yana Yushkevich, Andrzej Antoni Szczepankiewicz, and Tambudzai Kanhema

Subjects

Histone, Prophase, biology, Chemistry, Cellular differentiation, biology.protein, Transcriptional regulation, Stimulation, Histone deacetylase, HDAC1, Chromatin, Cell biology

Abstract

Spatial chromatin organization is crucial for transcriptional regulation and might therefore be particularly dynamic in neurons since these terminally differentiated cells dramatically change their transcriptome in response to external stimuli. Here, we show that stimulation of neurons causes condensation of large chromatin domains. We find that this phenomenon is not only induced in rat hippocampal neurons cultured in vitro, but is also present in vivo in amygdala neurons of rats subjected to fear conditioning, and hippocampal neurons of animals subjected to kainate evoked seizures or High-Frequency Stimulation (HFS). The activity-induced chromatin condensation is an active, very rapid, and reversible process, that is independent of transcription and precedes the expression of Immediate Early Genes (IEG). It is accompanied by the redistribution of posttranslational modifications of histones, and rearrangements in the spatial organization of chromosome territories. Moreover, it leads to the reorganization of nuclear speckles and active domains located in their proximity. Finally, we find that neurons depleted of the histone deacetylase HDAC1 fail to condense chromatin upon stimulation, a phenomenon that can be fully reversed by the introduction of human HDAC1. Taken together, our results suggest that the HDAC1-dependent chromatin reorganization might constitute an important level of fine-tuning of transcriptional regulation in stimulated neurons.

Published

2021

13. Consequences of

Author

Bozena, Kaminska, Bartosz, Czapski, Rafal, Guzik, Sylwia Katarzyna, Król, and Bartlomiej, Gielniewski

Subjects

Epigenomics, metabolic disturbances, epigenetics, Cell Differentiation, Glioma, Review, IDH mutations, Isocitrate Dehydrogenase, IHD mutant inhibitors, gliomas, Mutation, Animals, Humans, tumor microenvironment

Abstract

Isocitrate dehydrogenases (IDH) 1 and 2 are key metabolic enzymes that generate reduced nicotinamide adenine dinucleotide phosphate (NADPH) to maintain a pool of reduced glutathione and peroxiredoxin, and produce α-ketoglutarate, a co-factor of numerous enzymes. IDH1/2 is mutated in ~70–80% of lower-grade gliomas and the majority of secondary glioblastomas. The mutant IDH1 (R132H), in addition to losing its normal catalytic activity, gains the function of producing the d-(R)-2-hydroxyglutarate (2-HG). Overproduction of 2-HG in cancer cells interferes with cellular metabolism and inhibits histone and DNA demethylases, which results in histone and DNA hypermethylation and the blockade of cellular differentiation. We summarize recent findings characterizing molecular mechanisms underlying oncogenic alterations associated with mutated IDH1/2, and their impact on tumor microenvironment and antitumor immunity. Isoform-selective IDH inhibitors which suppress 2-HG production and induce antitumor responses in cells with IDH1 and IDH2 mutations were developed and validated in preclinical settings. Inhibitors of mutated IDH1/2 enzymes entered clinical trials and represent a novel drug class for targeted therapy of gliomas. We describe the development of small-molecule compounds and peptide vaccines targeting IDH-mutant gliomas and the results of their testing in preclinical and clinical studies. All those results support the translational potential of strategies targeting gliomas carrying IDH1 mutations.

Published

2019

14. DEPLETION OF NEURODEGENERATION-ASSOCIATED PROTEIN TDP-43 PERTURBS CELLULAR ENERGY METABOLISM IN MOTOR NEURONS

Author

Ismail Gbadamosi, Izabela Lepiarz-Raba, Sandra Binias, Bartłomiej Gielniewski, and Ali Jawaid

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023

15. Identification of candidate enhancers controlling the transcriptome during the formation of interphalangeal joints

Author

Karol Nowosad, Rutger W. W. Brouwer, Adrian Odrzywolski, Anne L. Korporaal, Bartłomiej Gielniewski, Bartosz Wojtaś, Wilfred F. J. van IJcken, Frank Grosveld, Danny Huylebroeck, and Przemko Tylzanowski

Subjects

Medicine, Science

Abstract

Abstract The formation of the synovial joint begins with the visible emergence of a stripe of densely packed mesenchymal cells located between distal ends of the developing skeletal anlagen called the interzone. Recently the transcriptome of the early synovial joint was reported. Knowledge about enhancers would complement these data and lead to a better understanding of the control of gene transcription at the onset of joint development. Using ChIP-sequencing we have mapped the H3-signatures H3K27ac and H3K4me1 to locate regulatory elements specific for the interzone and adjacent phalange, respectively. This one-stage atlas of candidate enhancers (CEs) was used to map the association between these respective joint tissue specific CEs and biological processes. Subsequently, integrative analysis of transcriptomic data and CEs identified new putative regulatory elements of genes expressed in interzone (e.g., GDF5, BMP2 and DACT2) and phalange (e.g., MATN1, HAPLN1 and SNAI1). We also linked such CEs to genes known as crucial in synovial joint hypermobility and osteoarthritis, as well as phalange malformations. These analyses show that the CE atlas can serve as resource for identifying, and as starting point for experimentally validating, putative disease-causing genomic regulatory regions in patients with synovial joint dysfunctions and/or phalange disorders, and enhancer-controlled synovial joint and phalange formation.

Published

2022

16. Mapping chromatin accessibility and active regulatory elements reveals pathological mechanisms in human gliomas

Author

Karolina Stępniak, Magdalena A. Machnicka, Jakub Mieczkowski, Anna Macioszek, Bartosz Wojtaś, Bartłomiej Gielniewski, Katarzyna Poleszak, Malgorzata Perycz, Sylwia K. Król, Rafał Guzik, Michał J. Dąbrowski, Michał Dramiński, Marta Jardanowska, Ilona Grabowicz, Agata Dziedzic, Hanna Kranas, Karolina Sienkiewicz, Klev Diamanti, Katarzyna Kotulska, Wiesława Grajkowska, Marcin Roszkowski, Tomasz Czernicki, Andrzej Marchel, Jan Komorowski, Bozena Kaminska, and Bartek Wilczyński

Subjects

Science

Abstract

Gliomas are tumors often associated with epigenetics-related gene deregulation. Here the authors reveal an atlas of active enhancers and promoters in benign and malignant gliomas by performing whole-genome mapping of chromatin accessibility, histone modifications, DNA methylation patterns and transcriptome analysis simultaneously in multiple tumor samples.

Published

2021

17. The Epidermal Transcriptome Analysis of a Novel c.639_642dup LORICRIN Variant-Delineation of the Loricrin Keratoderma Pathology

Author

Katarzyna Wertheim-Tysarowska, Katarzyna Osipowicz, Bartłomiej Gielniewski, Bartosz Wojtaś, Alicja Szabelska-Beręsewicz, Joanna Zyprych-Walczak, Adriana Mika, Andrzej Tysarowski, Katarzyna Duk, Agnieszka Magdalena Rygiel, Katarzyna Niepokój, Katarzyna Woźniak, Cezary Kowalewski, Jolanta Wierzba, and Aleksandra Jezela-Stanek

Subjects

loricrin, loricrin keratoderma, transcriptome, mutation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Loricrin keratoderma (LK) is a rare autosomal dominant genodermatosis caused by LORICRIN gene mutations. The pathogenesis of the disease is not yet fully understood. So far, only 10 pathogenic variants in LORICRIN have been described, with all of them but one being deletions or insertions. The significance of rare nonsense variants remains unclear. Furthermore, no data regarding the RNA expression in affected patients are available. The aim of this study is to describe the two variants in the LORICRIN gene found in two distinct families: the novel pathogenic variant c.639_642dup and a rare c.10C > T (p.Gln4Ter) of unknown significance. We also present the results of the transcriptome analysis of the lesional loricrin keratoderma epidermis of a patient with c.639_642dup. We show that in the LK lesion, the genes associated with epidermis development and keratocyte differentiation are upregulated, while genes engaged in cell adhesion, differentiation developmental processes, ion homeostasis and transport, signaling and cell communication are downregulated. In the context of the p.Gln4Ter clinical significance evaluation, we provide data indicating that LORICRIN haploinsufficiency has no skin consequences. Our results give further insight into the pathogenesis of LK, which may have therapeutic implications in the future and important significance in the context of genetic counseling.

Published

2023

18. Genetic Risk Factors for Neurological Disorders in Children with Adverse Events Following Immunization: A Descriptive Study of a Polish Case Series

Author

Agnieszka Charzewska, Iwona Terczyńska, Agata Lipiec, Tomasz Mazurczak, Paulina Górka-Skoczylas, Róża Szlendak, Karolina Kanabus, Renata Tataj, Mateusz Dawidziuk, Bartosz Wojtaś, Bartłomiej Gielniewski, Jerzy Bal, Elżbieta Stawicka, and Dorota Hoffman-Zacharska

Subjects

epilepsy, vaccination, drug-related side effects and adverse reactions, exome sequencing, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Studies conducted on large populations show a lack of connection between vaccination and serious neurological symptoms. However, there are isolated cases that indicate such a relationship. These reports on adverse effects following immunization (AEFI) reduce social confidence in vaccination; however, their background may be rare genetic defects. The aim of the presented study was to examine if neurological AEFI in children may be associated with variants in genes related to neurodevelopment. To identify such possible associations, a descriptive study of the Polish case series was conducted. We performed next-generation sequencing in patients who, up to 4 weeks of injection of any vaccine, manifested neurological AEFI. We included 23 previously normally developing children with first seizures that occurred after vaccination. We identified pathogenic/likely pathogenic variants in genes engaged in neurodevelopment in nine patients and variants of uncertain significance in another nine patients. The mutated genes belonged to the group of genes related to epilepsy syndromes/epileptic encephalopathy. We showed that AEFI might have a genetic background. We hypothesized that in some AEFI patients, the vaccine might only trigger neurological symptoms that would have been manifested anyway as a result of a pathogenic variant in a gene engaged in neurodevelopment.

Published

2023

19. 615 Reactivating antitumor immunity in gliomas with osteopontin/integrin blocking peptide

Author

Bozena Kaminska, Paulina Pilanc-Kudlek, Katarzyna Poleszak, Aleksandra Ellert-Miklaszewska, Adria-Jaume Roura Canalda, Salwador Cyranowski, Julian Swatler, and Bartłomiej Gielniewski

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Published

2021

20. Heat shock factor 1 (HSF1) cooperates with estrogen receptor α (ERα) in the regulation of estrogen action in breast cancer cells

Author

Natalia Vydra, Patryk Janus, Paweł Kus, Tomasz Stokowy, Katarzyna Mrowiec, Agnieszka Toma-Jonik, Aleksandra Krzywon, Alexander Jorge Cortez, Bartosz Wojtas, Bartłomiej Gielniewski, Roman Jaksik, Marek Kimmel, and Wieslawa Widlak

Subjects

breast cancer, chromatin organization, estrogen receptor, genomic action, heat shock factor 1, Medicine, Science, Biology (General), QH301-705.5

Abstract

Heat shock factor 1 (HSF1), a key regulator of transcriptional responses to proteotoxic stress, was linked to estrogen (E2) signaling through estrogen receptor α (ERα). We found that an HSF1 deficiency may decrease ERα level, attenuate the mitogenic action of E2, counteract E2-stimulated cell scattering, and reduce adhesion to collagens and cell motility in ER-positive breast cancer cells. The stimulatory effect of E2 on the transcriptome is largely weaker in HSF1-deficient cells, in part due to the higher basal expression of E2-dependent genes, which correlates with the enhanced binding of unliganded ERα to chromatin in such cells. HSF1 and ERα can cooperate directly in E2-stimulated regulation of transcription, and HSF1 potentiates the action of ERα through a mechanism involving chromatin reorganization. Furthermore, HSF1 deficiency may increase the sensitivity to hormonal therapy (4-hydroxytamoxifen) or CDK4/6 inhibitors (palbociclib). Analyses of data from The Cancer Genome Atlas database indicate that HSF1 increases the transcriptome disparity in ER-positive breast cancer and can enhance the genomic action of ERα. Moreover, only in ER-positive cancers an elevated HSF1 level is associated with metastatic disease.

Published

2021

21. A Novel Oral Arginase 1/2 Inhibitor Enhances the Antitumor Effect of PD-1 Inhibition in Murine Experimental Gliomas by Altering the Immunosuppressive Environment

Author

Paulina Pilanc, Kamil Wojnicki, Adria-Jaume Roura, Salwador Cyranowski, Aleksandra Ellert-Miklaszewska, Natalia Ochocka, Bartłomiej Gielniewski, Marcin M. Grzybowski, Roman Błaszczyk, Paulina S. Stańczak, Paweł Dobrzański, and Bozena Kaminska

Subjects

arginase inhibitor, tumor microenvironment, glioma associated microglia and macrophages, immune checkpoint inhibitor, immunotherapy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Glioblastomas (GBM) are the common and aggressive primary brain tumors that are incurable by conventional therapies. Immunotherapy with immune checkpoint inhibitors is not effective in GBM patients due to the highly immunosuppressive tumor microenvironment (TME) restraining the infiltration and activation of cytotoxic T cells. Clinical and experimental studies showed the upregulation of expression of the arginase 1 and 2 (ARG1 and ARG2, respectively) in murine and human GBMs. The elevated arginase activity leads to the depletion of L-arginine, an amino-acid required for the proliferation of T lymphocytes and natural killer cells. Inhibition of ARG1/2 in the TME may unblock T cell proliferation and activate effective antitumor responses. To explore the antitumor potential of ARG1/2 inhibition, we analyzed bulk and single-cell RNA sequencing (scRNA-seq) data from human and murine gliomas. We found the upregulation of ARG1/2 expression in GBMs, both in tumor cells and in tumor infiltrating microglia and monocytes/macrophages. We employed selective arginase inhibitors to evaluate if ARG1/2 inhibition in vitro and in vivo exerts the antitumor effects. A novel, selective ARG1/2 inhibitor - OAT-1746 blocked microglia-dependent invasion of U87-MG and LN18 glioma cells in a Matrigel invasion assay better than reference compounds, without affecting the cell viability. OAT-1746 effectively crossed the blood brain barrier in mice and increased arginine levels in the brains of GL261 glioma bearing mice. We evaluated its antitumor efficacy against GL261 intracranial gliomas as a monotherapy and in combination with the PD-1 inhibition. The oral treatment with OAT-1746 did not affect the immune composition of TME, it induced profound transcriptomic changes in CD11b+ cells immunosorted from tumor-bearing brains as demonstrated by RNA sequencing analyses. Treatment with OAT-1746 modified the TME resulting in reduced glioma growth and increased antitumor effects of the anti-PD-1 antibody. Our findings provide the evidence that inhibition of ARG1/2 activity in tumor cells and myeloid cells in the TME unblocks antitumor responses in myeloid cells and NK cells, and improves the efficacy of the PD-1 inhibition.

Published

2021

22. HSF1 Can Prevent Inflammation following Heat Shock by Inhibiting the Excessive Activation of the ATF3 and JUN&FOS Genes

Author

Patryk Janus, Paweł Kuś, Natalia Vydra, Agnieszka Toma-Jonik, Tomasz Stokowy, Katarzyna Mrowiec, Bartosz Wojtaś, Bartłomiej Gielniewski, and Wiesława Widłak

Subjects

cancer biology, gene expression regulation, heat shock response, HSF1, inflammation, Cytology, QH573-671

Abstract

Heat Shock Factor 1 (HSF1), a transcription factor frequently overexpressed in cancer, is activated by proteotoxic agents and participates in the regulation of cellular stress response. To investigate how HSF1 level affects the response to proteotoxic stress, we integrated data from functional genomics analyses performed in MCF7 breast adenocarcinoma cells. Although the general transcriptional response to heat shock was impaired due to HSF1 deficiency (mainly chaperone expression was inhibited), a set of genes was identified, including ATF3 and certain FOS and JUN family members, whose stress-induced activation was stronger and persisted longer than in cells with normal HSF1 levels. These genes were direct HSF1 targets, suggesting a dual (activatory/suppressory) role for HSF1. Moreover, we found that heat shock-induced inflammatory response could be stronger in HSF1-deficient cells. Analyses of The Cancer Genome Atlas data indicated that higher ATF3, FOS, and FOSB expression levels correlated with low HSF1 levels in estrogen receptor-positive breast cancer, reflecting higher heat shock-induced expression of these genes in HSF1-deficient MCF7 cells observed in vitro. However, differences between the analyzed cancer types were noted in the regulation of HSF1-dependent genes, indicating the presence of cell-type-specific mechanisms. Nevertheless, our data indicate the existence of the heat shock-induced network of transcription factors (associated with the activation of TNFα signaling) which includes HSF1. Independent of its chaperone-mediated cytoprotective function, HSF1 may be involved in the regulation of this network but prevents its overactivation in some cells during stress.

Published

2022

23. RRAD, IL4I1, CDKN1A, and SERPINE1 genes are potentially co-regulated by NF-κB and p53 transcription factors in cells exposed to high doses of ionizing radiation

Author

Katarzyna Szołtysek, Patryk Janus, Gracjana Zając, Tomasz Stokowy, Anna Walaszczyk, Wiesława Widłak, Bartosz Wojtaś, Bartłomiej Gielniewski, Simon Cockell, Neil D. Perkins, Marek Kimmel, and Piotr Widlak

Subjects

Co-regulation, Integrative genomics, Radiation response, Transcription network, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background The cellular response to ionizing radiation involves activation of p53-dependent pathways and activation of the atypical NF-κB pathway. The crosstalk between these two transcriptional networks include (co)regulation of common gene targets. Here we looked for novel genes potentially (co)regulated by p53 and NF-κB using integrative genomics screening in human osteosarcoma U2-OS cells irradiated with a high dose (4 and 10 Gy). Radiation-induced expression in cells with silenced TP53 or RELA (coding the p65 NF-κB subunit) genes was analyzed by RNA-Seq while radiation-enhanced binding of p53 and RelA in putative regulatory regions was analyzed by ChIP-Seq, then selected candidates were validated by qPCR. Results We identified a subset of radiation-modulated genes whose expression was affected by silencing of both TP53 and RELA, and a subset of radiation-upregulated genes where radiation stimulated binding of both p53 and RelA. For three genes, namely IL4I1, SERPINE1, and CDKN1A, an antagonistic effect of the TP53 and RELA silencing was consistent with radiation-enhanced binding of both p53 and RelA. This suggested the possibility of a direct antagonistic (co)regulation by both factors: activation by NF-κB and inhibition by p53 of IL4I1, and activation by p53 and inhibition by NF-κB of CDKN1A and SERPINE1. On the other hand, radiation-enhanced binding of both p53 and RelA was observed in a putative regulatory region of the RRAD gene whose expression was downregulated both by TP53 and RELA silencing, which suggested a possibility of direct (co)activation by both factors. Conclusions Four new candidates for genes directly co-regulated by NF-κB and p53 were revealed.

Published

2018

24. Author Correction: Mapping chromatin accessibility and active regulatory elements reveals pathological mechanisms in human gliomas

Author

Karolina Stępniak, Magdalena A. Machnicka, Jakub Mieczkowski, Anna Macioszek, Bartosz Wojtaś, Bartłomiej Gielniewski, Katarzyna Poleszak, Malgorzata Perycz, Sylwia K. Król, Rafał Guzik, Michał J. Dąbrowski, Michał Dramiński, Marta Jardanowska, Ilona Grabowicz, Agata Dziedzic, Hanna Kranas, Karolina Sienkiewicz, Klev Diamanti, Katarzyna Kotulska, Wiesława Grajkowska, Marcin Roszkowski, Tomasz Czernicki, Andrzej Marchel, Jan Komorowski, Bozena Kaminska, and Bartek Wilczyński

Subjects

Science

Published

2021

25. Antifungal Agent 4-AN Changes the Genome-Wide Expression Profile, Downregulates Virulence-Associated Genes and Induces Necrosis in Candida albicans Cells

Author

Aleksandra Martyna, Maciej Masłyk, Monika Janeczko, Elżbieta Kochanowicz, Bartłomiej Gielniewski, Aleksandra Świercz, Oleg M. Demchuk, and Konrad Kubiński

Subjects

4-AN, C. albicans, gene expression, synergy, antifungals, necrosis, Organic chemistry, QD241-441

Abstract

In the light of the increasing occurrence of antifungal resistance, there is an urgent need to search for new therapeutic strategies to overcome this phenomenon. One of the applied approaches is the synthesis of small-molecule compounds showing antifungal properties. Here we present a continuation of the research on the recently discovered anti-Candida albicans agent 4-AN. Using next generation sequencing and transcriptional analysis, we revealed that the treatment of C. albicans with 4-AN can change the expression profile of a large number of genes. The highest upregulation was observed in the case of genes involved in cell stress, while the highest downregulation was shown for genes coding sugar transporters. Real-time PCR analysis revealed 4-AN mediated reduction of the relative expression of genes engaged in fungal virulence (ALS1, ALS3, BCR1, CPH1, ECE1, EFG1, HWP1, HYR1 and SAP1). The determination of the fractional inhibitory concentration index (FICI) showed that the combination of 4-AN with amphotericin B is synergistic. Finally, flow cytometry analysis revealed that the compound induces mainly necrosis in C. albicans cells.

Published

2020

26. HupB Is a Bacterial Nucleoid-Associated Protein with an Indispensable Eukaryotic-Like Tail

Author

Joanna Hołówka, Damian Trojanowski, Katarzyna Ginda, Bartosz Wojtaś, Bartłomiej Gielniewski, Dagmara Jakimowicz, and Jolanta Zakrzewska-Czerwińska

Subjects

HU, HupB, Mycobacterium, chromosome dynamics, chromosome organization, nucleoid-associated proteins, Microbiology, QR1-502

Abstract

ABSTRACT In bacteria, chromosomal DNA must be efficiently compacted to fit inside the small cell compartment while remaining available for the proteins involved in replication, segregation, and transcription. Among the nucleoid-associated proteins (NAPs) responsible for maintaining this highly organized and yet dynamic chromosome structure, the HU protein is one of the most conserved and highly abundant. HupB, a homologue of HU, was recently identified in mycobacteria. This intriguing mycobacterial NAP is composed of two domains: an N-terminal domain that resembles bacterial HU, and a long and distinctive C-terminal domain that contains several PAKK/KAAK motifs, which are characteristic of the H1/H5 family of eukaryotic histones. In this study, we analyzed the in vivo binding of HupB on the chromosome scale. By using PALM (photoactivated localization microscopy) and ChIP-Seq (chromatin immunoprecipitation followed by deep sequencing), we observed that the C-terminal domain is indispensable for the association of HupB with the nucleoid. Strikingly, the in vivo binding of HupB displayed a bias from the origin (oriC) to the terminus (ter) of the mycobacterial chromosome (numbers of binding sites decreased toward ter). We hypothesized that this binding mode reflects a role for HupB in organizing newly replicated oriC regions. Thus, HupB may be involved in coordinating replication with chromosome segregation. IMPORTANCE We currently know little about the organization of the mycobacterial chromosome and its dynamics during the cell cycle. Among the mycobacterial nucleoid-associated proteins (NAPs) responsible for chromosome organization and dynamics, HupB is one of the most intriguing. It contains a long and distinctive C-terminal domain that harbors several PAKK/KAAK motifs, which are characteristic of the eukaryotic histone H1/H5 proteins. The HupB protein is also known to be crucial for the survival of tubercle bacilli during infection. Here, we provide in vivo experimental evidence showing that the C-terminal domain of HupB is crucial for its DNA binding. Our results suggest that HupB may be involved in organizing newly replicated regions and could help coordinate chromosome replication with segregation. Given that tuberculosis (TB) remains a serious worldwide health problem (10.4 million new TB cases were diagnosed in 2015, according to WHO) and new multidrug-resistant Mycobacterium tuberculosis strains are continually emerging, further studies of the biological function of HupB are needed to determine if this protein could be a prospect for novel antimicrobial drug development.

Published

2017