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4. Interaction between Chromosomal Protein HMGB1 and DNA Studied by DNA-Melting Analysis

Author

Elena V. Chikhirzhina, Starkova J. Tatiana, and Alexander M. Polyanichko

Subjects
Optics. Light, QC350-467
Abstract

Interaction of HMGB1 nonhistone chromosomal protein with DNA was studied using circular dichroism spectroscopy and thermal denaturation of DNA. Melting DNA in the complex was shown to be a biphasic process. The characteristic melting temperatures of unbound DNA and the DNA bound to HMGB1 in 0.25 mM EDTA solutions were found to be TmI=44.0±0.5°C and TmII=62.0±1°C, respectively. It was shown that the binding of the HMGB1 molecule affects the melting of the DNA region approximately 30 b.p. long.

Published
2014
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6. An activating mutation of GNB1 is associated with resistance to tyrosine kinase inhibitors in ETV6-ABL1-positive leukemia

Author

Zimmermannova, O, Doktorova, E, Stuchly, J, Kanderova, V, Kuzilkova, D, Strnad, H, Starkova, J, Alberich-Jorda, M, Falkenburg, J H F, Trka, J, Petrak, J, Zuna, J, and Zaliova, M

Subjects
Leukemia, Oncogene Proteins, Fusion, GTP-Binding Protein beta Subunits, Protein-Tyrosine Kinases, respiratory tract diseases, Drug Resistance, Neoplasm, hemic and lymphatic diseases, Cell Line, Tumor, Mutation, Imatinib Mesylate, Humans, Original Article, RNA, Small Interfering, Protein Kinase Inhibitors, Signal Transduction
Abstract

Leukemias harboring the ETV6-ABL1 fusion represent a rare subset of hematological malignancies with unfavorable outcomes. The constitutively active chimeric Etv6-Abl1 tyrosine kinase can be specifically inhibited by tyrosine kinase inhibitors (TKIs). Although TKIs represent an important therapeutic tool, so far, the mechanism underlying the potential TKI resistance in ETV6-ABL1-positive malignancies has not been studied in detail. To address this issue, we established a TKI-resistant ETV6-ABL1-positive leukemic cell line through long-term exposure to imatinib. ETV6-ABL1-dependent mechanisms (including fusion gene/protein mutation, amplification, enhanced expression or phosphorylation) and increased TKI efflux were excluded as potential causes of resistance. We showed that TKI effectively inhibited the Etv6-Abl1 kinase activity in resistant cells, and using short hairpin RNA (shRNA)-mediated silencing, we confirmed that the resistant cells became independent from the ETV6-ABL1 oncogene. Through analysis of the genomic and proteomic profiles of resistant cells, we identified an acquired mutation in the GNB1 gene, K89M, as the most likely cause of the resistance. We showed that cells harboring mutated GNB1 were capable of restoring signaling through the phosphoinositide-3-kinase (PI3K)/Akt/mTOR and mitogen-activated protein kinase (MAPK) pathways, whose activation is inhibited by TKI. This alternative GNB1K89M-mediated pro-survival signaling rendered ETV6-ABL1-positive leukemic cells resistant to TKI therapy. The mechanism of TKI resistance is independent of the targeted chimeric kinase and thus is potentially relevant not only to ETV6-ABL1-positive leukemias but also to a wider spectrum of malignancies treated by kinase inhibitors.

Published
2017

10. Integrative analysis of transcriptomics and clinical data uncovers the tumor-suppressive activity of MITF in prostate cancer

Author

Valcarcel-Jimenez L, Macchia A, Martín-Martín N, Cortazar AR, Schaub-Clerigué A, Pujana-Vaquerizo M, Fernández-Ruiz S, Lacasa-Viscasillas I, Santos-Martin A, Loizaga-Iriarte A, Unda-Urzaiz M, Hermanova I, Astobiza I, Graupera M, Starkova J, Sutherland J, Barrio R, Aransay AM, Carracedo A, and Torrano V

Abstract

The dysregulation of gene expression is an enabling hallmark of cancer. Computational analysis of transcriptomics data from human cancer specimens, complemented with exhaustive clinical annotation, provides an opportunity to identify core regulators of the tumorigenic process. Here we exploit well-annotated clinical datasets of prostate cancer for the discovery of transcriptional regulators relevant to prostate cancer. Following this rationale, we identify Microphthalmia-associated transcription factor (MITF) as a prostate tumor suppressor among a subset of transcription factors. Importantly, we further interrogate transcriptomics and clinical data to refine MITF perturbation-based empirical assays and unveil Crystallin Alpha B (CRYAB) as an unprecedented direct target of the transcription factor that is, at least in part, responsible for its tumor-suppressive activity in prostate cancer. This evidence was supported by the enhanced prognostic potential of a signature based on the concomitant alteration of MITF and CRYAB in prostate cancer patients. In sum, our study provides proof-of-concept evidence of the potential of the bioinformatics screen of publicly available cancer patient databases as discovery platforms, and demonstrates that the MITF-CRYAB axis controls prostate cancer biology.

Published
2018

11. PF162 FREQUENCY AND PROGNOSTIC IMPACT OF ZEB2 H1038/Q1072 MUTATIONS IN CHILDHOOD B-OTHER ACUTE LYMPHOBLASTIC LEUKEMIA

Author

Zaliova, M., primary, Potuckova, E., additional, Lukes, J., additional, Winkowska, L., additional, Starkova, J., additional, Janotova, I., additional, Sramkova, L., additional, Stary, J., additional, Zuna, J., additional, Stanulla, M., additional, Zimmermann, M., additional, Bourquin, J.-P., additional, Eckert, C., additional, Cario, G., additional, and Trka, J., additional

Published
2019
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12. Interaction between Chromosomal Protein HMGB1 and DNA Studied by DNA-Melting Analysis

Author

E. V. Chikhirzhina, Starkova J. Tatiana, and A. M. Polyanichko

Subjects
Thermal denaturation, Circular dichroism, Article Subject, biology, Chemistry, chemical and pharmacologic phenomena, HMGB1, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Nucleic acid thermodynamics, chemistry.chemical_compound, Biochemistry, biology.protein, Biophysics, lcsh:QC350-467, Molecule, lcsh:Optics. Light, Spectroscopy, DNA
Abstract

Interaction of HMGB1 nonhistone chromosomal protein with DNA was studied using circular dichroism spectroscopy and thermal denaturation of DNA. Melting DNA in the complex was shown to be a biphasic process. The characteristic melting temperatures of unbound DNA and the DNA bound to HMGB1 in 0.25 mM EDTA solutions were found to beTmI=44.0±0.5°C andTmII=62.0±1°C, respectively. It was shown that the binding of the HMGB1 molecule affects the melting of the DNA region approximately 30 b.p. long.

Published
2014
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14. Characterization of leukemias with ETV6-ABL1 fusion

Author

Zaliova, M, Moorman, A, Cazzaniga, G, Stanulla, M, Harvey, R, Roberts, K, Heatley, S, Loh, M, Konopleva, M, Chen, I, Zimmermannova, O, Schwab, C, Smith, O, Mozziconacci, M, Chabannon, C, Kim, M, Frederik Falkenburg, J, Norton, A, Marshall, K, Haas, O, Starkova, J, Stuchly, J, Hunger, S, White, D, Mullighan, C, Willman, C, Stary, J, Trka, J, Zuna, J, Moorman, AV, Harvey, RC, Roberts, KG, Heatley, SL, Loh, ML, Chen, IM, Mozziconacci, MJ, Frederik Falkenburg, JH, Haas, OA, Hunger, SP, Mullighan, CG, Willman, CL, Zaliova, M, Moorman, A, Cazzaniga, G, Stanulla, M, Harvey, R, Roberts, K, Heatley, S, Loh, M, Konopleva, M, Chen, I, Zimmermannova, O, Schwab, C, Smith, O, Mozziconacci, M, Chabannon, C, Kim, M, Frederik Falkenburg, J, Norton, A, Marshall, K, Haas, O, Starkova, J, Stuchly, J, Hunger, S, White, D, Mullighan, C, Willman, C, Stary, J, Trka, J, Zuna, J, Moorman, AV, Harvey, RC, Roberts, KG, Heatley, SL, Loh, ML, Chen, IM, Mozziconacci, MJ, Frederik Falkenburg, JH, Haas, OA, Hunger, SP, Mullighan, CG, and Willman, CL

Abstract

To characterize the incidence, clinical features and genetics of ETV6-ABL1 leukemias, representing targetable kinase-activating lesions, we analyzed 44 new and published cases of ETV6-ABL1-positive hematologic malignancies [22 cases of acute lymphoblastic leukemia (13 children, 9 adults) and 22 myeloid malignancies (18 myeloproliferative neoplasms, 4 acute myeloid leukemias)]. The presence of the ETV6-ABL1 fusion was ascertained by cytogenetics, fluorescence in-situ hybridization, reverse transcriptase-polymerase chain reaction and RNA sequencing. Genomic and gene expression profiling was performed by single nucleotide polymorphism and expression arrays. Systematic screening of more than 4,500 cases revealed that in acute lymphoblastic leukemia ETV6-ABL1 is rare in childhood (0.17% cases) and slightly more common in adults (0.38%). There is no systematic screening of myeloproliferative neoplasms; however, the number of ETV6-ABL1-positive cases and the relative incidence of acute lymphoblastic leukemia and myeloproliferative neoplasms suggest that in adulthood ETV6-ABL1 is more common in BCR-ABL1-negative chronic myeloid leukemia-like myeloproliferations than in acute lymphoblastic leukemia. The genomic profile of ETV6-ABL1 acute lymphoblastic leukemia resembled that of BCR-ABL1 and BCR-ABL1- like cases with 80% of patients having concurrent CDKN2A/B and IKZF1 deletions. In the gene expression profiling all the ETV6-ABL1-positive samples clustered in close vicinity to BCR-ABL1 cases. All but one of the cases of ETV6- ABL1 acute lymphoblastic leukemia were classified as BCR-ABL1-like by a standardized assay. Over 60% of patients died, irrespectively of the disease or age subgroup examined. In conclusion, ETV6-ABL1 fusion occurs in both lymphoid and myeloid leukemias; the genomic profile and clinical behavior resemble BCR-ABL1-positive malignancies, including the unfavorable prognosis, particularly of acute leukemias. The poor outcome suggests that treatment with tyros

Published
2016

15. Characterization of leukemias with ETV6-ABL1 fusion

Author

Zaliova, M., primary, Moorman, A. V., additional, Cazzaniga, G., additional, Stanulla, M., additional, Harvey, R. C., additional, Roberts, K. G., additional, Heatley, S. L., additional, Loh, M. L., additional, Konopleva, M., additional, Chen, I.-M., additional, Zimmermannova, O., additional, Schwab, C., additional, Smith, O., additional, Mozziconacci, M.-J., additional, Chabannon, C., additional, Kim, M., additional, Frederik Falkenburg, J. H., additional, Norton, A., additional, Marshall, K., additional, Haas, O. A., additional, Starkova, J., additional, Stuchly, J., additional, Hunger, S. P., additional, White, D., additional, Mullighan, C. G., additional, Willman, C. L., additional, Stary, J., additional, Trka, J., additional, and Zuna, J., additional

Published
2016
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16. Pharmacological inhibition of fatty-acid oxidation synergistically enhances the effect of l-asparaginase in childhood ALL cells

Author

Hermanova, I, primary, Arruabarrena-Aristorena, A, additional, Valis, K, additional, Nuskova, H, additional, Alberich-Jorda, M, additional, Fiser, K, additional, Fernandez-Ruiz, S, additional, Kavan, D, additional, Pecinova, A, additional, Niso-Santano, M, additional, Zaliova, M, additional, Novak, P, additional, Houstek, J, additional, Mracek, T, additional, Kroemer, G, additional, Carracedo, A, additional, Trka, J, additional, and Starkova, J, additional

Published
2015
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17. Homeobox gene expression in acute myeloid leukemia is linked to typical underlying molecular aberrations

Author

Kramarzova, K.S. (Karolina Skvarova), Fiser, K. (Karel), Mejstříková, E. (Ester), Rejlova, K. (Katerina), Zaliova, M. (Marketa), Fornerod, M.W.J. (Maarten), Drabkin, H.A. (Harry), Heuvel-Eibrink, M.M. (Marry) van den, Stary, J. (Jan), Trka, J. (Jan), Starkova, J. (Julia), Kramarzova, K.S. (Karolina Skvarova), Fiser, K. (Karel), Mejstříková, E. (Ester), Rejlova, K. (Katerina), Zaliova, M. (Marketa), Fornerod, M.W.J. (Maarten), Drabkin, H.A. (Harry), Heuvel-Eibrink, M.M. (Marry) van den, Stary, J. (Jan), Trka, J. (Jan), and Starkova, J. (Julia)

Abstract

__Background:__ Although distinct patterns of homeobox (HOX) gene expression have been described in defined cytogenetic and molecular subsets of patients with acute myeloid leukemia (AML), it is unknown whether these patterns are the direct result of transcriptional alterations or rather represent the differentiation stage of the leukemic cell. __Method:__ To address this question, we used qPCR to analyze mRNA expression of HOXA and HOXB genes in bone marrow (BM) samples of 46 patients with AML and sorted subpopulations of healthy BM cells. These various stages of myeloid differentiation represent matched counterparts of morphological subgroups of AML. To further study the transcriptional alterations of HOX genes in hematopoiesis, we also analyzed gene expression of epigenetic modifiers in the subpopluations of healthy BM and leukemic cells. __Results:__ Unsupervised hierarchical clustering divided the AMLs into five clusters characterized by the presence of prevalent molecular genetic aberrations. Notably, the impact of genotype on HOX gene expression was significantly more pronounced than that of the differentiation stage of the blasts. This driving role of molecular aberrations was best exemplified by the repressive effect of the PML-RARa fusion gene on HOX gene expression, regardless of the presence of the FLT3/ITD mutation. Furthermore, HOX gene expression was positively correlated with mRNA levels of histone demethylases (JMJD3 and UTX) and negatively correlated with gene expression of DNA methyltranferases. No such relationships were observed in subpopulations of healthy BM cells. __Conclusion:__ Our results demonstrate that specific molecular genetic aberrations, rather than differentiation per se, underlie the observed differences in HOX gene expression in AML. Moreover, the observed correlations between epigenetic modifiers and HOX ex pression that are specific to malignant hematopoiesis, suggest their potential causal relationships.

Published
2014
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19. CD2-positive B-cell precursor acute lymphoblastic leukemia with an early switch to the monocytic lineage

Author

Slamova, L, primary, Starkova, J, additional, Fronkova, E, additional, Zaliova, M, additional, Reznickova, L, additional, van Delft, F W, additional, Vodickova, E, additional, Volejnikova, J, additional, Zemanova, Z, additional, Polgarova, K, additional, Cario, G, additional, Figueroa, M, additional, Kalina, T, additional, Fiser, K, additional, Bourquin, J P, additional, Bornhauser, B, additional, Dworzak, M, additional, Zuna, J, additional, Trka, J, additional, Stary, J, additional, Hrusak, O, additional, and Mejstrikova, E, additional

Published
2013
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25. L-Asparaginase Causes Metabolic Reprogramming in ALL Cells

Author

Hermanova, I., Karel Vališ, Nuskova, H., Alberich-Jorda, M., Aristorena, A. A., Fernandez-Ruiz, S., Bartova, S., Pecinova, A., Kavan, D., Fiser, K., Kuzma, M., Novak, P., Mracek, T., Carracedo, A., Trka, J., and Starkova, J.

26. Experimental therapy with 9-[2-(Phosphonomethoxy)ethyl]-2, 6-diaminopurine (PMEDAP): Origin of resistance

Author

Zapotocky, M., Hanzalova, J., Starkova, J., Votruba, I., Holy, A., and Berta Otová

Subjects
Male, Transcriptional Activation, Lymphoma, Adenine, Antineoplastic Agents, Organ Size, Rats, Gene Expression Regulation, Neoplastic, Rats, Sprague-Dawley, Drug Resistance, Neoplasm, Cell Line, Tumor, Animals, Humans, Multidrug Resistance-Associated Proteins, Neoplasm Transplantation
Abstract

The role of MRP4 and MRP5 transporters in the acyclic nucleoside phosphonate PMEDAP efflux was studied in vitro (CCRF-CEM cells) and in vivo (spontaneous transplantable T-cell lymphoma of SD/Cub inbred rats). The increased resistance against the cytostatic agent PMEDAP during longterm treatment was found to be associated with overexpression of MRP4 and MRP5 genes. The course of both gene activation differs significantly. While the MRP5 function is important in the onset of PMEDAP resistance, the intensity of the relative MRP4 gene expression increases rather continuously. Our data indicate cooperative acting of both MRP4 and MRP5 genes during the PMEDAP resistance development.

28. Characterization of leukemias with ETV6-ABL1 fusion

Author

Kathryn G. Roberts, Marina Konopleva, Jan Stuchly, Anthony V. Moorman, Marie-Joelle Mozziconacci, Jan Stary, Jan Zuna, Stephen P. Hunger, Charles G. Mullighan, Cheryl L. Willman, J.H. Frederik Falkenburg, Owen P. Smith, Giovanni Cazzaniga, Julia Starkova, I-Ming Chen, Deborah L. White, Claire Schwab, Susan L. Heatley, Myungshin Kim, Alice Norton, Oskar A. Haas, Mignon L. Loh, Martin Stanulla, Olga Zimmermannova, Marketa Zaliova, Richard C. Harvey, Jan Trka, Karen E. Marshall, Christian Chabannon, Zaliova, M, Moorman, A, Cazzaniga, G, Stanulla, M, Harvey, R, Roberts, K, Heatley, S, Loh, M, Konopleva, M, Chen, I, Zimmermannova, O, Schwab, C, Smith, O, Mozziconacci, M, Chabannon, C, Kim, M, Frederik Falkenburg, J, Norton, A, Marshall, K, Haas, O, Starkova, J, Stuchly, J, Hunger, S, White, D, Mullighan, C, Willman, C, Stary, J, Trka, J, and Zuna, J

Subjects
Adult, Male, Myeloid, DNA Copy Number Variations, Adolescent, Oncogene Proteins, Fusion, MED/03 - GENETICA MEDICA, Immunology, Biology, Bioinformatics, Biochemistry, Polymorphism, Single Nucleotide, Translocation, Genetic, Fusion gene, Young Adult, CDKN2A, hemic and lymphatic diseases, Protein-Tyrosine Kinase, medicine, Cluster Analysis, Humans, Child, Myeloproliferative neoplasm, In Situ Hybridization, Fluorescence, Aged, DNA Copy Number Variation, ABL, Cluster Analysi, Leukemia, Gene Expression Profiling, Myeloid leukemia, Infant, Articles, Cell Biology, Hematology, Protein-Tyrosine Kinases, Middle Aged, medicine.disease, ETV6, Alternative Splicing, medicine.anatomical_structure, Phenotype, Fusion transcript, Child, Preschool, Cancer research, Female, Transcriptome, Human
Abstract

Introduction The ETV6-ABL1 (TEL-ABL) fusion gene is a rare but recurrent genetic aberration found in various hematological malignancies in children and adults. Due to the inverse orientation of ETV6 (12p13) and ABL1 (9q34) an in-frame fusion cannot be produced by a simple balanced translocation and thus results from a complex rearrangement. Alternative splicing generates two fusion transcripts - type A and B without and with ETV6 exon 5, respectively. Both transcripts encode a constitutively active chimeric tyrosine kinase. The effect of ETV6-ABL1 on cellular proliferation, cell survival and transforming capacity mirrors that seen in BCR-ABL1-positive cases. There is a renewed interest in ETV6-ABL1 since the discovery of a "BCR-ABL1-like" (or "Ph-like") gene expression profile (GEP) among B-cell precursor (BCP) ALL cases lacking an established chromosomal abnormality (so-called "B-other ALL"). The BCR-ABL1-like GEP resembles the BCR-ABL1 GEP because both are driven by the activation of kinase signaling. In vitro studies suggest that many of these kinase fusions, including ETV6-ABL1, are sensitive to specific tyrosine kinase inhibitors (TKI), thus representing a promising and relevant therapeutic target, especially given the reported unfavorable prognosis of BCR-ABL1-like ALL. The aim of this study was to characterize the incidence, clinical features and genetic profile of ETV6-ABL1 leukemias with a focus on ALL as an example of a targetable kinase-activating lesion. Patients and methods The cohort totals 44 ETV6-ABL1 patients and comprises newly identified cases (n=9), published cases with additional new data (n=11) and cases with re-examined published data (n=24). Half of the patients (n=22) was diagnosed with ALL (13 children, 9 adults) while 22 had a myeloid malignancy (18 CML-like myeloproliferative neoplasm (MPN), 4 AML). Besides routine diagnostic examinations, we analyzed the presence of fusion transcript variants, genomic profile using MLPA and SNP-array, gene expression profile on microarrays and the presence of BCR-ABL1-like expression signature using quantitative PCR-based low density expression arrays. Results Systematic screening of >3500 cases revealed that ETV6-ABL1 is rare in childhood ALL (0.17% cases) and slightly more prevalent in adult ALL (0.38%). The equal number of MPN and ALL cases and the relative incidence of ALL and MPN in adulthood suggests ETV6-ABL1 is more common in MPN. The type B variant (including ETV6 exon 5) is the dominant transcript and its detection by PCR screening is a more reliable diagnostic approach than FISH with commercial probes for ETV6-RUNX1 and BCR-ABL1. In BCP ALL, ETV6-ABL1 fusion always localized to the der(12) whereas in T-ALL and myeloid cases the fusion localized to the der(9), der(12) or a third chromosome. The genomic profile of ETV6-ABL1 ALL resembled BCR-ABL1 and BCR-ABL1-like ALL with 80% cases having concurrent CDKN2A/B and IKZF1 deletions. The gene expression signature of ETV6-ABL1 ALL cases was more similar to BCR-ABL1 than BCR-ABL1-like principally due to low CRLF2 expression. Nonetheless, 11/12 ETV6-ABL1 ALL cases were classified as BCR-ABL1-like by a standardized qPCR-based expression array. Survival of ETV6-ABL1-positive ALL is 46% in children (6/13 alive) and 13% in adults (1/8 alive). While prognosis of childhood ALL patients responding well to initial treatment seems to be favorable (3/3 with end-induction MRD < 5x10e-5 are in the 1st remission >4 years from diagnosis), children with inferior response have very poor prognosis. Survival of MPN is 50% (9/18 alive) and depends on the disease status at diagnosis (chronic vs. blastic phase). Conclusion ETV6-ABL1 fusion occurs in lymphoid and myeloid leukemia. Its genomic and expression profile, spectrum of malignancies and clinical behavior resemble BCR-ABL1, including the unfavorable prognosis, particularly in acute leukemias. Systematic screening confirmed low frequency of ETV6-ABL1 fusion in ALL. Due to high false-negative rate of FISH, PCR diagnostics are recommended for systematic screening of ALL and FISH-negative CML-like MPN. Despite the generally poor outcome, childhood ALL cases with favorable early treatment response can be treated with standard modern therapeutic protocols. To improve prognosis of the others, early diagnostics of ETV6-ABL1 and treatment with TKI should be considered. Supported by grants IGA MZ NT/13170-4 and GAUK 694414. Disclosures Mullighan: Amgen: Honoraria; Incyte: Consultancy.

Published
2016

29. Aspartate in tumor microenvironment and beyond: Metabolic interactions and therapeutic perspectives.

Author

Soon JW, Manca MA, Laskowska A, Starkova J, Rohlenova K, and Rohlena J

Subjects
Humans, Animals, Cell Proliferation, Tumor Microenvironment, Aspartic Acid metabolism, Neoplasms metabolism, Neoplasms pathology
Abstract

Aspartate is a proteinogenic non-essential amino acid with several essential functions in proliferating cells. It is mostly produced in a cell autonomous manner from oxalacetate via glutamate oxalacetate transaminases 1 or 2 (GOT1 or GOT2), but in some cases it can also be salvaged from the microenvironment via transporters such as SLC1A3 or by macropinocytosis. In this review we provide an overview of biosynthetic pathways that produce aspartate endogenously during proliferation. We discuss conditions that favor aspartate uptake as well as possible sources of exogenous aspartate in the microenvironment of tumors and bone marrow, where most available data have been generated. We highlight metabolic fates of aspartate, its various functions, and possible approaches to target aspartate metabolism for cancer therapy., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published
2024
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30. Rewired glutamate metabolism diminishes cytostatic action of L-asparaginase.

Author

Hlozkova K, Vasylkivska M, Boufersaoui A, Marzullo B, Kolarik M, Alquezar-Artieda N, Shaikh M, Alaei NF, Zaliova M, Zwyrtkova M, Bakardijeva-Mihaylova V, Alberich-Jorda M, Trka J, Tennant DA, and Starkova J

Subjects
Humans, Animals, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor Cell Lymphoblastic Leukemia-Lymphoma metabolism, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Glutamine metabolism, Cell Line, Tumor, Citric Acid Cycle drug effects, Xenograft Model Antitumor Assays, Antineoplastic Agents pharmacology, Mice, Asparaginase pharmacology, Asparaginase metabolism, Glutamic Acid metabolism, Glutathione metabolism
Abstract

Tumor cells often adapt to amino acid deprivation through metabolic rewiring, compensating for the loss with alternative amino acids/substrates. We have described such a scenario in leukemic cells treated with L-asparaginase (ASNase). Clinical effect of ASNase is based on nutrient stress achieved by its dual enzymatic action which leads to depletion of asparagine and glutamine and is accompanied with elevated aspartate and glutamate concentrations in serum of acute lymphoblastic leukemia patients. We showed that in these limited conditions glutamate uptake compensates for the loss of glutamine availability. Extracellular glutamate flux detection confirms its integration into the TCA cycle and its participation in nucleotide and glutathione synthesis. Importantly, it is glutamate-driven de novo synthesis of glutathione which is the essential metabolic pathway necessary for glutamate's pro-survival effect. In vivo findings support this effect by showing that inhibition of glutamate transporters enhances the therapeutic effect of ASNase. In summary, ASNase induces elevated extracellular glutamate levels under nutrient stress, which leads to a rewiring of intracellular glutamate metabolism and has a negative impact on ASNase treatment., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2024
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32. Restored biosynthetic pathways induced by MSCs serve as rescue mechanism in leukemia cells after L-asparaginase therapy.

Author

Alquezar-Artieda N, Kuzilkova D, Roberts J, Hlozkova K, Pecinova A, Pecina P, Zwyrtkova M, Potuckova E, Kavan D, Hermanova I, Zaliova M, Novak P, Mracek T, Sramkova L, Tennant DA, Trka J, and Starkova J

Subjects
Humans, Asparaginase therapeutic use, Biosynthetic Pathways, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Leukemia drug therapy
Published
2023
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33. PTEN/PI3K/Akt pathway alters sensitivity of T-cell acute lymphoblastic leukemia to L-asparaginase.

Author

Hlozkova K, Hermanova I, Safrhansova L, Alquezar-Artieda N, Kuzilkova D, Vavrova A, Sperkova K, Zaliova M, Stary J, Trka J, and Starkova J

Subjects
Child, Humans, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction, T-Lymphocytes metabolism, Asparaginase pharmacology, Asparaginase therapeutic use, PTEN Phosphohydrolase genetics, PTEN Phosphohydrolase metabolism, Phosphatidylinositol 3-Kinases genetics, Phosphatidylinositol 3-Kinases metabolism, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma drug therapy, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor T-Cell Lymphoblastic Leukemia-Lymphoma metabolism
Abstract

Childhood T-cell acute lymphoblastic leukemia (T-ALL) still remains a therapeutic challenge due to relapses which are resistant to further treatment. L-asparaginase (ASNase) is a key therapy component in pediatric T-ALL and lower sensitivity of leukemia cells to this drug negatively influences overall treatment efficacy and outcome. PTEN protein deletion and/or activation of the PI3K/Akt signaling pathway leading to altered cell growth and metabolism are emerging as a common feature in T-ALL. We herein investigated the relationship amongst PTEN deletion, ASNase sensitivity and glucose metabolism in T-ALL cells. First, we found significant differences in the sensitivity to ASNase amongst T-ALL cell lines. While cell lines more sensitive to ASNase were PTEN wild type (WT) and had no detectable level of phosphorylated Akt (P-Akt), cell lines less sensitive to ASNase were PTEN-null with high P-Akt levels. Pharmacological inhibition of Akt in the PTEN-null cells rendered them more sensitive to ASNase and lowered their glycolytic function which then resembled PTEN WT cells. In primary T-ALL cells, although P-Akt level was not dependent exclusively on PTEN expression, their sensitivity to ASNase could also be increased by pharmacological inhibition of Akt. In summary, we highlight a promising therapeutic option for T-ALL patients with aberrant PTEN/PI3K/Akt signaling., (© 2022. The Author(s).)

Published
2022
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34. Targeting amino acid metabolism in cancer.

Author

Safrhansova L, Hlozkova K, and Starkova J

Subjects
Humans, Cysteine metabolism, Amino Acids metabolism, Arginine metabolism, Arginine therapeutic use, Methionine, Asparagine metabolism, Asparagine therapeutic use, Neoplasms metabolism
Abstract

Metabolic rewiring is a characteristic hallmark of cancer cells. This phenomenon sustains uncontrolled proliferation and resistance to apoptosis by increasing nutrients and energy supply. However, reprogramming comes together with vulnerabilities that can be used against tumor and can be applied in targeted therapy. In the last years, the genetic background of tumors has been identified thoroughly and new therapies targeting those mutations tested. Nevertheless, we propose that targeting the phenotype of cancer cells could be another way of treatment aiming to avoid drug resistance and non-responsiveness of cancer patients. Amino acid metabolism is part of the altered processes in cancer cells. Amino acids are building blocks and also sensors of signaling pathways regulating main biological processes. In this comprehensive review, we described four amino acids (asparagine, arginine, methionine, and cysteine) which have been actively investigated as potential targets for anti-tumor therapy. Asparagine depletion is successfully used for decades in the treatment of acute lymphoblastic leukemia and there is a strong implication to apply it to other types of tumors. Arginine auxotrophic tumors are great candidates for arginine-starvation therapy. Higher requirement for essential amino acids such as methionine and cysteine point out promising targetable weaknesses of cancer cells., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2022
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35. Pancreatitis-associated protein as an early marker of asparaginase-associated pancreatitis.

Author

Lukes J, Wolthers BO, Altaf Raja R, Uhrinova K, Skvarova Kramarzova K, Hermanova I, Simcikova M, Kicko P, Zaliova M, Sramkova L, Stary J, Trka J, Schmiegelow K, and Starkova J

Subjects
Acute Disease, Asparaginase adverse effects, Humans, Pancreatitis-Associated Proteins, Antineoplastic Agents adverse effects, Pancreatitis chemically induced, Pancreatitis diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy
Published
2021
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36. A novel class of ZNF384 aberrations in acute leukemia.

Author

Zaliova M, Winkowska L, Stuchly J, Fiser K, Triska P, Zwyrtkova M, Hrusak O, Starkova J, Sramkova L, Stary J, Trka J, and Zuna J

Subjects
Humans, Immunophenotyping, Transcription Factors, Transcriptome, Leukemia, Myeloid, Acute genetics, Trans-Activators genetics
Abstract

Fusion of the ZNF384 gene as the 3' partner to several different 5' partner genes occurs recurrently in B-cell precursor acute lymphoblastic and mixed phenotype B/myeloid leukemia. These canonical fusions (ZNF384r) contain the complete ZNF384 coding sequence and are associated with a specific gene expression signature. Cases with this signature, but without canonical ZNF384 fusions (ZNF384r-like cases), have been described previously. Although some have been shown to harbor ZNF362 fusions, the primary aberrations remain unknown in a major proportion. We studied 3 patients with the ZNF384r signature and unknown primary genetic background and identified a previously unknown class of genetic aberration affecting the last exon of ZNF384 and resulting in disruption of the C-terminal portion of the ZNF384 protein. Importantly, in 2 cases, the ZNF384 aberration, indel, was missed during the bioinformatic analysis but revealed by the manual, targeted reanalysis. Two cases with the novel aberrations had a mixed (B/myeloid) immunophenotype commonly associated with canonical ZNF384 fusions. In conclusion, we present leukemia cases with a novel class of ZNF384 aberrations that phenocopy leukemia with ZNF384r. Therefore, we show that part of the so-called ZNF384r-like cases represent the same genetic subtype as leukemia with canonical ZNF384 fusions., (© 2021 by The American Society of Hematology. Licensed under Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0), permitting only noncommercial, nonderivative use with attribution. All other rights reserved.)

Published
2021
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37. Frequency and prognostic impact of ZEB2 H1038 and Q1072 mutations in childhood B-other acute lymphoblastic leukemia.

Author

Zaliova M, Potuckova E, Lukes J, Winkowska L, Starkova J, Janotova I, Sramkova L, Stary J, Zuna J, Stanulla M, Zimmermann M, Bornhauser B, Bourquin JP, Eckert C, Cario G, and Trka J

Subjects
Humans, Mutation, Prognosis, Zinc Finger E-box Binding Homeobox 2, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma epidemiology, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor Cell Lymphoblastic Leukemia-Lymphoma epidemiology, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics
Published
2021
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39. A simple, inexpensive, non-enzymatic microwave-assisted method for determining bisphenol-A in urine in the form of trimethylsilyl derivative by GC/MS with single quadrupole.

Author

Polovkov NY, Starkova JE, and Borisov RS

Subjects
Benzhydryl Compounds, Calibration, Gas Chromatography-Mass Spectrometry, Humans, Liquid Phase Microextraction, Microwaves
Abstract

Humans are widely exposed to bisphenol-A (BPA) owing to the ubiquitous use of this chemical in consumer products. Increasing attention is paid to the effect of BPA, because it has the hormone-like structure and it can potentially adversely affect. A simple, efficient, cheap analytical procedure for quantitative determining the analyte is reported in this paper. The suggested method includes the sample preparation based on a double liquid-liquid microextraction combined with non-enzymatic acidic hydrolysis under the influence of microwave radiation of the BPA conjugates with glucuronic and phosphorous acids followed by trimethylsilylation and GC/MS detection. The detection and quantification limits of BPA in the human urine sample are 0.3 and 1 ng/mL respectively. The calibration curve for this analyte is linear with a correlation coefficient of > 0.99 in the range of 1-50 ng/ml. Method recoveries were between 86 % and 110 %, while repeatability was below 10 %. The method was satisfactorily applied to the determination of target compounds in human urine samples from 20 randomly selected individuals. The detection frequency in urines was 40 %. The maximum detected concentration of BPA was 479 ng/mL. The proposed non-enzymatic method is simple, fast, inexpensive and suitable for the determination of BPA in urine samples in the framework of biomonitoring studies and bioanalytical analyses., Competing Interests: Declaration of Competing Interest The authors declare that there are no conflicts of interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published
2020
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41. Metabolic profile of leukemia cells influences treatment efficacy of L-asparaginase.

Author

Hlozkova K, Pecinova A, Alquezar-Artieda N, Pajuelo-Reguera D, Simcikova M, Hovorkova L, Rejlova K, Zaliova M, Mracek T, Kolenova A, Stary J, Trka J, and Starkova J

Subjects
Adolescent, Antineoplastic Agents therapeutic use, Asparaginase therapeutic use, Biosynthetic Pathways drug effects, Bone Marrow pathology, Cell Line, Tumor, Child, Child, Preschool, Drug Resistance, Neoplasm, Female, Glycolysis drug effects, Humans, Infant, Male, Membrane Potential, Mitochondrial drug effects, Metabolome drug effects, Mitochondria drug effects, Mitochondria metabolism, Oxidative Phosphorylation drug effects, Precursor Cell Lymphoblastic Leukemia-Lymphoma blood, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Treatment Outcome, Young Adult, Antineoplastic Agents pharmacology, Asparaginase pharmacology, Precursor Cell Lymphoblastic Leukemia-Lymphoma drug therapy
Abstract

Background: Effectiveness of L-asparaginase administration in acute lymphoblastic leukemia treatment is mirrored in the overall outcome of patients. Generally, leukemia patients differ in their sensitivity to L-asparaginase; however, the mechanism underlying their inter-individual differences is still not fully understood. We have previously shown that L-asparaginase rewires the biosynthetic and bioenergetic pathways of leukemia cells to activate both anti-leukemic and pro-survival processes. Herein, we investigated the relationship between the metabolic profile of leukemia cells and their sensitivity to currently used cytostatic drugs., Methods: Altogether, 19 leukemia cell lines, primary leukemia cells from 26 patients and 2 healthy controls were used. Glycolytic function and mitochondrial respiration were measured using Seahorse Bioanalyzer. Sensitivity to cytostatics was measured using MTS assay and/or absolute count and flow cytometry. Mitochondrial membrane potential was determined as TMRE fluorescence., Results: Using cell lines and primary patient samples we characterized the basal metabolic state of cells derived from different leukemia subtypes and assessed their sensitivity to cytostatic drugs. We found that leukemia cells cluster into distinct groups according to their metabolic profile. Lymphoid leukemia cell lines and patients sensitive to L-asparaginase clustered into the low glycolytic cluster. While lymphoid leukemia cells with lower sensitivity to L-asparaginase together with resistant normal mononuclear blood cells gathered into the high glycolytic cluster. Furthermore, we observed a correlation of specific metabolic parameters with the sensitivity to L-asparaginase. Greater ATP-linked respiration and lower basal mitochondrial membrane potential in cells significantly correlated with higher sensitivity to L-asparaginase. No such correlation was found in the other cytostatic drugs tested by us., Conclusions: These data support that cell metabolism plays a prominent role in the treatment effect of L-asparaginase. Based on these findings, leukemia patients with lower sensitivity to L-asparaginase with no specific genetic characterization could be identified by their metabolic profile.

Published
2020
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42. Transmembrane adaptor protein WBP1L regulates CXCR4 signalling and murine haematopoiesis.

Author

Borna S, Drobek A, Kralova J, Glatzova D, Splichalova I, Fabisik M, Pokorna J, Skopcova T, Angelisova P, Kanderova V, Starkova J, Stanek P, Matveichuk OV, Pavliuchenko N, Kwiatkowska K, Protty MB, Tomlinson MG, Alberich-Jorda M, Korinek V, and Brdicka T

Subjects
Animals, Germ Cells metabolism, Glycoproteins metabolism, HEK293 Cells, Hematopoietic Stem Cells metabolism, Homeostasis, Humans, Lipoylation, Membrane Proteins genetics, Mice, Inbred C57BL, Protein Binding, RNA, Small Interfering metabolism, Ubiquitin-Protein Ligases metabolism, Ubiquitination, Adaptor Proteins, Signal Transducing metabolism, Hematopoiesis, Membrane Proteins metabolism, Receptors, CXCR4 metabolism, Signal Transduction
Abstract

WW domain binding protein 1-like (WBP1L), also known as outcome predictor of acute leukaemia 1 (OPAL1), is a transmembrane adaptor protein, expression of which correlates with ETV6-RUNX1 (t(12;21)(p13;q22)) translocation and favourable prognosis in childhood leukaemia. It has a broad expression pattern in haematopoietic and in non-haematopoietic cells. However, its physiological function has been unknown. Here, we show that WBP1L negatively regulates signalling through a critical chemokine receptor CXCR4 in multiple leucocyte subsets and cell lines. We also show that WBP1L interacts with NEDD4-family ubiquitin ligases and regulates CXCR4 ubiquitination and expression. Moreover, analysis of Wbp1l-deficient mice revealed alterations in B cell development and enhanced efficiency of bone marrow cell transplantation. Collectively, our data show that WBP1L is a novel regulator of CXCR4 signalling and haematopoiesis., (© 2019 The Authors. Journal of Cellular and Molecular Medicine published by Foundation for Cellular and Molecular Medicine and John Wiley & Sons Ltd.)

Published
2020
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43. ERG deletions in childhood acute lymphoblastic leukemia with DUX4 rearrangements are mostly polyclonal, prognostically relevant and their detection rate strongly depends on screening method sensitivity.

Author

Zaliova M, Potuckova E, Hovorkova L, Musilova A, Winkowska L, Fiser K, Stuchly J, Mejstrikova E, Starkova J, Zuna J, Stary J, and Trka J

Subjects
Adolescent, Child, Child, Preschool, Female, Follow-Up Studies, Gene Expression Regulation, Neoplastic, Humans, Infant, Male, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma classification, Prognosis, Retrospective Studies, Survival Rate, Transcriptional Regulator ERG genetics, Biomarkers, Tumor genetics, Gene Deletion, Gene Rearrangement, Homeodomain Proteins genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma diagnosis, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics
Abstract

ERG -deletions occur recurrently in acute lymphoblastic leukemia, especially in the DUX4 -rearranged subtype. The ERG -deletion was shown to positively impact prognosis of patients with IKZF1 -deletion and its presence precludes assignment into IKZF1 plus group, a novel high-risk category on AIEOP-BFM ALL trials. We analyzed the impact of different methods on ERG -deletion detection rate, evaluated ERG -deletion as a potential marker for DUX4 -rearranged leukemia, studied its associations with molecular and clinical characteristics within this leukemia subtype, and analyzed its clonality. Using single-nucleotide-polymorphism array, genomic polymerase chain reaction (PCR) and amplicon-sequencing we found ERG -deletion in 34% (16 of 47), 66% (33 of 50) and 78% (39 of 50) of DUX4 -rearranged leukemia, respectively. False negativity of ERG -deletion by single-nucleotide-polymorphism array caused IKZF1 plus misclassification in 5 patients. No ERG -deletion was found outside the DUX4 -rearranged cases. Within DUX4 -rearranged leukemia, the ERG -deletion was associated with higher total number of copy-number aberrations, and, importantly, the ERG -deletion positivity by PCR was associated with better outcome [5-year event-free survival (EFS), ERG -deletion-positive 93% vs. ERG -deletion-negative 68%, P =0.022; 5-year overall survival (OS), ERG -deletion-positive 97% vs. ERG -deletion-negative 75%, P =0.029]. Ultra-deep amplicon-sequencing revealed distinct co-existing ERG -deletions in 22 of 24 patients. In conclusion, our data demonstrate inadequate sensitivity of single-nucleotide-polymorphism array for ERG -deletion detection, unacceptable for proper IKZF1 plus classification. Even using more sensitive methods (PCR/amplicon-sequencing) for its detection, ERG -deletion is absent in 22-34% of DUX4 -rearranged leukemia and does not represent an adequately sensitive marker of this leukemia subtype. Importantly, the ERG -deletion potentially stratifies the DUX4 -rearranged leukemia into biologically/clinically distinct subsets. Frequent polyclonal pattern of ERG -deletions shows that late origin of this lesion is more common than has been previously described., (Copyright© 2019 Ferrata Storti Foundation.)

Published
2019
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44. Genomic landscape of pediatric B-other acute lymphoblastic leukemia in a consecutive European cohort.

Author

Zaliova M, Stuchly J, Winkowska L, Musilova A, Fiser K, Slamova M, Starkova J, Vaskova M, Hrusak O, Sramkova L, Stary J, Zuna J, and Trka J

Subjects
Adolescent, Child, Child, Preschool, Cohort Studies, Europe, Female, Follow-Up Studies, Gene Expression Regulation, Neoplastic, Humans, Infant, Male, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma epidemiology, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma pathology, Prognosis, Biomarkers, Tumor genetics, Chromosome Aberrations, Genomics methods, Mutation, Oncogene Proteins, Fusion genetics, Precursor B-Cell Lymphoblastic Leukemia-Lymphoma genetics, Transcriptome
Abstract

Novel biological subtypes and clinically important genetic aberrations (druggable lesions, prognostic factors) have been described in B-other acute lymphoblastic leukemia (ALL) during the last decade; however, due to a lack of studies on unselected cohorts, their population frequency and mutual associations still have to be established. We studied 110 consecutively diagnosed and uniformly treated childhood B-other patients using single nucleotide polymorphism arrays and whole exome/transcriptome sequencing. The frequency of DUX4 -rearranged, BCR-ABL1 -like, ZNF384 -rearranged, ETV6-RUNX1 -like, iAMP21 and MEF2D -rearranged subtypes was 27%, 15%, 5%, 5%, 4%, and 2%, respectively; 43% of cases were not classified into any of these subtypes (B-rest). We found worse early response to treatment in DUX4 -rearranged leukemia and a strong association of ZNF384 -rearranged leukemia with B-myeloid immunophenotype. Of the druggable lesions, JAK/STAT-class and RAS/RAF/MAPK-class aberrations were found in 21% and 43% of patients, respectively; an ABL-class aberration was found in one patient. A recently described negative prognostic factor, IKZF1 plus , was found in 14% of patients and was enriched in (but not exclusive for) BCR-ABL1 -like subtype. PAX5 fusions (including 4 novel), intragenic amplifications and P80R mutations were mutually exclusive and only occurred in the B-rest subset, altogether accounting for 20% of the B-other group. PAX5 P80R was associated with a specific gene expression signature, potentially defining a novel leukemia subtype. Our study shows unbiased European population-based frequencies of novel ALL subtypes, recurrent (cyto)genetic aberrations and their mutual associations. This study also strengthens and widens the current knowledge of B-other ALL and provides an objective basis for optimization of current genetic diagnostics., (Copyright© 2019 Ferrata Storti Foundation.)

Published
2019
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45. Integrative analysis of transcriptomics and clinical data uncovers the tumor-suppressive activity of MITF in prostate cancer.

Author

Valcarcel-Jimenez L, Macchia A, Martín-Martín N, Cortazar AR, Schaub-Clerigué A, Pujana-Vaquerizo M, Fernández-Ruiz S, Lacasa-Viscasillas I, Santos-Martin A, Loizaga-Iriarte A, Unda-Urzaiz M, Hermanova I, Astobiza I, Graupera M, Starkova J, Sutherland J, Barrio R, Aransay AM, Carracedo A, and Torrano V

Subjects
Animals, Cell Line, Tumor, Computational Biology methods, Gene Expression Regulation, Neoplastic genetics, Humans, Male, Mice, Mice, Nude, PC-3 Cells, Prognosis, Prostatic Neoplasms pathology, Transcription Factors genetics, alpha-Crystallin B Chain genetics, Microphthalmia-Associated Transcription Factor genetics, Prostatic Neoplasms genetics, Transcriptome genetics, Tumor Suppressor Proteins genetics
Abstract

The dysregulation of gene expression is an enabling hallmark of cancer. Computational analysis of transcriptomics data from human cancer specimens, complemented with exhaustive clinical annotation, provides an opportunity to identify core regulators of the tumorigenic process. Here we exploit well-annotated clinical datasets of prostate cancer for the discovery of transcriptional regulators relevant to prostate cancer. Following this rationale, we identify Microphthalmia-associated transcription factor (MITF) as a prostate tumor suppressor among a subset of transcription factors. Importantly, we further interrogate transcriptomics and clinical data to refine MITF perturbation-based empirical assays and unveil Crystallin Alpha B (CRYAB) as an unprecedented direct target of the transcription factor that is, at least in part, responsible for its tumor-suppressive activity in prostate cancer. This evidence was supported by the enhanced prognostic potential of a signature based on the concomitant alteration of MITF and CRYAB in prostate cancer patients. In sum, our study provides proof-of-concept evidence of the potential of the bioinformatics screen of publicly available cancer patient databases as discovery platforms, and demonstrates that the MITF-CRYAB axis controls prostate cancer biology.

Published
2018
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46. Two novel fusion genes, AIF1L-ETV6 and ABL1-AIF1L, result together with ETV6-ABL1 from a single chromosomal rearrangement in acute lymphoblastic leukemia with prenatal origin.

Author

Lukes J Jr, Potuckova E, Sramkova L, Stary J, Starkova J, Trka J, Votava F, Zuna J, and Zaliova M

Subjects
Calcium-Binding Proteins, Chromosome Aberrations, DNA-Binding Proteins blood, Female, Gene Expression Regulation, Neoplastic genetics, HEK293 Cells, Humans, In Situ Hybridization, Fluorescence, Infant, Newborn, Karyotyping, Male, Microfilament Proteins, Oncogene Proteins v-abl blood, Oncogene Proteins, Fusion genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma blood, Precursor Cell Lymphoblastic Leukemia-Lymphoma pathology, Proto-Oncogene Proteins c-ets blood, Repressor Proteins blood, Transcriptome genetics, Translocation, Genetic genetics, ETS Translocation Variant 6 Protein, DNA-Binding Proteins genetics, Oncogene Proteins v-abl genetics, Precursor Cell Lymphoblastic Leukemia-Lymphoma genetics, Proto-Oncogene Proteins c-ets genetics, Repressor Proteins genetics
Abstract

Fusion genes resulting from chromosomal rearrangements represent a hallmark of childhood acute lymphoblastic leukemia (ALL). Unlike more common fusion genes generated via simple reciprocal chromosomal translocations, formation of the ETV6-ABL1 fusion gene requires 3 DNA breaks and usually results from an interchromosomal insertion. We report a child with ALL in which a single interchromosomal insertion led to the formation of ETV6-ABL1 and 2 novel fusion genes: AIF1L-ETV6 and ABL1-AIF1L. We demonstrate the prenatal origin of this complex chromosomal rearrangement, which apparently initiated the leukemogenic process, by successful backtracking of the ETV6-ABL1 fusion into the patient's archived neonatal blood. We cloned coding sequences of AIF1L-ETV6 and ABL1-AIF1L in-frame fusion transcripts from the patient's leukemic blasts and we show that the chimeric protein containing the DNA binding domain of ETV6 is expressed from the AIF1L-ETV6 transcript and localized in both the cytoplasm and nucleus of transfected HEK293T cells. Transcriptomic and genomic profiling of the diagnostic bone marrow sample revealed Ph-like gene expression signature and loss of the IKZF1 and CDKN2A/B genes, the typical genetic lesions accompanying ETV6-ABL1-positive ALL. The prenatal origin of the rearrangement confirms that ETV6-ABL1 is not sufficient to cause overt leukemia, even when combined with the 2 novel fusions. We did not find the AIF1L-ETV6 and ABL1-AIF1L fusions in other ETV6-ABL1-positive ALL. Nevertheless, functional studies would be needed to establish the biological role of AIF1L-ETV6 and ABL1-AIF1L and to determine whether they contribute to leukemogenesis and/or to the final leukemia phenotype., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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47. Low HOX gene expression in PML-RARα-positive leukemia results from suppressed histone demethylation.

Author

Rejlova K, Musilova A, Kramarzova KS, Zaliova M, Fiser K, Alberich-Jorda M, Trka J, and Starkova J

Subjects
Benzazepines pharmacology, Cell Differentiation drug effects, Cell Differentiation genetics, Cell Line, Tumor, DNA Methylation, Epigenesis, Genetic, Histone Demethylases genetics, Histone Demethylases metabolism, Humans, Jumonji Domain-Containing Histone Demethylases antagonists & inhibitors, Jumonji Domain-Containing Histone Demethylases genetics, Jumonji Domain-Containing Histone Demethylases metabolism, Leukemia, Myeloid, Acute drug therapy, Leukemia, Myeloid, Acute pathology, Methylation, Nuclear Proteins genetics, Nuclear Proteins metabolism, Oncogene Proteins, Fusion genetics, Promoter Regions, Genetic, Pyrimidines pharmacology, Tretinoin pharmacology, Gene Expression Regulation, Leukemic, Genes, Homeobox, Histones metabolism, Leukemia, Myeloid, Acute genetics, Oncogene Proteins, Fusion metabolism
Abstract

Homeobox (HOX) genes are frequently dysregulated in leukemia. Previous studies have shown that aberrant HOX gene expression accompanies leukemogenesis and affects disease progression and leukemia patient survival. Patients with acute myeloid leukemia (AML) bearing PML-RARα fusion gene have distinct HOX gene signature in comparison to other subtypes of AML patients, although the mechanism of transcription regulation is not completely understood. We previously found an association between the mRNA levels of HOX genes and those of the histone demethylases JMJD3 and UTX in PML-RARα- positive leukemia patients. Here, we demonstrate that the release of the PML-RARα-mediated block in PML-RARα-positive myeloid leukemia cells increased both JMJD3 and HOX gene expression, while inhibition of JMJD3 using the specific inhibitor GSK-J4 reversed the effect. This effect was driven specifically through PML-RARα fusion protein since expression changes did not occur in cells with mutated RARα and was independent of differentiation. We confirmed that gene expression levels were inversely correlated with alterations in H3K27me3 histone marks localized at HOX gene promoters. Furthermore, data from chromatin immunoprecipitation followed by sequencing broaden a list of clustered HOX genes regulated by JMJD3 in PML-RARα-positive leukemic cells. Interestingly, the combination of GSK-J4 and all-trans retinoic acid (ATRA) significantly increased PML-RARα-positive cell apoptosis compared with ATRA treatment alone. This effect was also observed in ATRA-resistant NB4 clones, which may provide a new therapeutic opportunity for patients with acute promyelocytic leukemia (APL) resistant to current treatment. The results of our study reveal the mechanism of HOX gene expression regulation and contribute to our understanding of APL pathogenesis.

Published
2018
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48. Altered Metabolism of Leukemic Cells: New Therapeutic Opportunity.

Author

Starkova J, Hermanova I, Hlozkova K, Hararova A, and Trka J

Subjects
Animals, Humans, Leukemia metabolism, Leukemia therapy
Abstract

The cancer metabolic program alters bioenergetic processes to meet the higher demands of tumor cells for biomass production, nucleotide synthesis, and NADPH-balancing redox homeostasis. It is widely accepted that cancer cells mostly utilize glycolysis, as opposed to normal cells, in which oxidative phosphorylation is the most employed bioenergetic process. Still, studies examining cancer metabolism had been overlooked for many decades, and it was only recently discovered that metabolic alterations affect both the oncogenic potential and therapeutic response. Since most of the published works concern solid tumors, in this comprehensive review, we aim to summarize knowledge about the metabolism of leukemia cells. Leukemia is a malignant disease that ranks first and fifth in cancer-related deaths in children and adults, respectively. Current treatment has reached its limits due to toxicity, and there has been a need for new therapeutic approaches. One of the possible scenarios is improved use of established drugs and another is to introduce new druggable targets. Herein, we aim to describe the complexity of leukemia metabolism and highlight cellular processes that could be targeted therapeutically and enhance the effectiveness of current treatments., (© 2018 Elsevier Inc. All rights reserved.)

Published
2018
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50. Distinct bilineal leukemia immunophenotypes are not genetically determined.

Author

Kotrova M, Musilova A, Stuchly J, Fiser K, Starkova J, Mejstrikova E, Stary J, Zuna J, Hrusak O, Trka J, and Zaliova M

Subjects
Cell Differentiation genetics, Cell Differentiation immunology, Hematopoiesis genetics, High-Throughput Nucleotide Sequencing, Humans, Leukemia immunology, Myeloid Cells physiology, Phenotype, Precursor Cells, T-Lymphoid immunology, Precursor Cells, T-Lymphoid pathology, Exome Sequencing, Cell Lineage genetics, Cell Lineage immunology, Immunophenotyping methods, Leukemia genetics, Leukemia pathology
Published
2016
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