Your search keyword '"Nati Ha"' showing total 6 results

1. COPS: detecting co-occurrence and spatial arrangement of transcription factor binding motifs in genome-wide datasets.

Author

Nati Ha, Maria Polychronidou, and Ingrid Lohmann

Subjects

Medicine, Science

Abstract

In multi-cellular organisms, spatiotemporal activity of cis-regulatory DNA elements depends on their occupancy by different transcription factors (TFs). In recent years, genome-wide ChIP-on-Chip, ChIP-Seq and DamID assays have been extensively used to unravel the combinatorial interaction of TFs with cis-regulatory modules (CRMs) in the genome. Even though genome-wide binding profiles are increasingly becoming available for different TFs, single TF binding profiles are in most cases not sufficient for dissecting complex regulatory networks. Thus, potent computational tools detecting statistically significant and biologically relevant TF-motif co-occurrences in genome-wide datasets are essential for analyzing context-dependent transcriptional regulation. We have developed COPS (Co-Occurrence Pattern Search), a new bioinformatics tool based on a combination of association rules and Markov chain models, which detects co-occurring TF binding sites (BSs) on genomic regions of interest. COPS scans DNA sequences for frequent motif patterns using a Frequent-Pattern tree based data mining approach, which allows efficient performance of the software with respect to both data structure and implementation speed, in particular when mining large datasets. Since transcriptional gene regulation very often relies on the formation of regulatory protein complexes mediated by closely adjoining TF binding sites on CRMs, COPS additionally detects preferred short distance between co-occurring TF motifs. The performance of our software with respect to biological significance was evaluated using three published datasets containing genomic regions that are independently bound by several TFs involved in a defined biological process. In sum, COPS is a fast, efficient and user-friendly tool mining statistically and biologically significant TFBS co-occurrences and therefore allows the identification of TFs that combinatorially regulate gene expression.

Published

2012

2. Abstract 2852: A gene activating in vivo screen identifies EBAG9 as novel metastasis regulator in human colorectal cancer

Author

Martin Schneider, Tania Christiansen, Claudia R. Ball, Karin Laaber, Nati Ha, Taronish D. Dubash, Hanno Glimm, Benedikt Brors, Friederike Herbst, and Anna Maria Melzer

Subjects

Cancer Research, Oncology, Colorectal cancer, business.industry, medicine, Regulator, Cancer research, medicine.disease, business, Gene, Metastasis

Abstract

As colorectal cancer (CRC) mortality remains high due to metastatic spread in patients with advanced disease stages, we here aimed at identifying novel metastasis regulators in CRC and at understanding their mechanism of action. In CRC, tumor progression and metastasis formation are driven by cells that possess tumor-initiating cell (TIC) activity. We therefore employed a collection of primary patient-derived CRC tumor spheroid cultures (TSC) that are enriched for cells with TIC activity to perform a gene activating in vivo screen, intending to identify genes that enhance metastasis formation. To this end, TSC (n=4) were transduced with a lentiviral trapping vector that integrates into the genome and thereby drives the overexpression of genes located in the vicinity of the integration site (IS). Transduced TSC were then serially transplanted under the kidney capsule of immunodeficient mice (NSG) and monitored for the induction of metastasis formation. Analysis of lentiviral IS by linear amplification-mediated (LAM)-PCR revealed an enrichment of an IS within the gene locus of Estrogen Receptor Binding Site Associated Antigen 9 (EBAG9) in metastases. RNA sequencing confirmed the trapping vector mediated upregulation of a truncated version of the EBAG9 gene (exon 5-7), which strongly suggested a contribution of EBAG9 to metastatic spread. To validate these findings, both the truncated (TR) as well as the physiologically occurring full length (FL) EBAG9 gene were overexpressed in TSC (n=4) and serially transplanted into NSG mice. In addition to an augmentation in metastasis upon EBAG9 overexpression compared to controls (FL: 1.4-fold, TR: 2.4-fold), we also detected the occurrence of lymphogenous metastases when EBAG9 levels were increased, indicating that EBAG9 not only contributes to metastatic spread but also modulates tropism. To further characterize the underlying processes, global gene and protein expression analyses were performed in primary TSC as well as in the CRC cell line DLD1. Compared to control transduced cells, EBAG9 overexpression induced expression changes in cell adhesion and microtubule molecules, which led us to investigate cell migration and adhesion as potential contributing mechanisms to metastasis formation. We here observed an increase both in cell migration as well as in adhesion to the extracellular matrix protein collagen I upon EBAG9 overexpression in DLD1. Interestingly, DLD1 adhesion to lymphatic endothelial cells was significantly higher in EBAG9 FL (p=0.008) and EBAG9 TR (p=0.016) overexpressing cells, underscoring the role of EBAG9 in tropism modulation. In summary, we here identified EBAG9 as novel metastasis regulator in CRC which will not only contribute to a better mechanistic understanding of metastatic spread but also to the development of novel future strategies for preventing and targeting advanced disease stages. Citation Format: Karin Laaber, Taronish D. Dubash, Anna Maria Melzer, Tania Christiansen, Nati Ha, Benedikt Brors, Martin Schneider, Friederike Herbst, Hanno Glimm, Claudia R. Ball. A gene activating in vivo screen identifies EBAG9 as novel metastasis regulator in human colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 2852.

Published

2021

3. Patient-derived xenografts of gastrointestinal cancers are susceptible to rapid and delayed B-lymphoproliferation

Author

Wilko Weichert, Mark Kriegsmann, Ulrike Heger, Felix Oppel, Jianpeng Gao, Benedikt Brors, Eva Maria Hartinger, Ava Oberlack, Erik R. Schulz, Taronish D. Dubash, Alexis Ulrich, K. Roland Ehrenberg, Sebastian M. Dieter, Martin Schneider, Sarah Weber, Hendrik Strakerjahn, Felix Lasitschka, Hanno Glimm, Klara M. Giessler, Nati Ha, Lino Möhrmann, Manfred Schmidt, Christopher M. Hoffmann, Christine Siegl, Oliver Strobel, Claudia R. Ball, and Christof von Kalle

Subjects

0301 basic medicine, Oncology, Cancer Research, medicine.medical_specialty, Colorectal cancer, business.industry, Xenotransplantation, medicine.medical_treatment, medicine.disease, Primary tumor, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, In vivo, Cell culture, 030220 oncology & carcinogenesis, Internal medicine, Pancreatic cancer, medicine, Carcinoma, CA19-9, business

Abstract

Patient-derived cancer xenografts (PDX) are widely used to identify and evaluate novel therapeutic targets, and to test therapeutic approaches in preclinical mouse avatar trials. Despite their widespread use, potential caveats of PDX models remain considerably underappreciated. Here, we demonstrate that EBV-associated B-lymphoproliferations frequently develop following xenotransplantation of human colorectal and pancreatic carcinomas in highly immunodeficient NOD.Cg-Prkdcscid Il2rgtm1Wjl /SzJ (NSG) mice (18/47 and 4/37 mice, respectively), and in derived cell cultures in vitro. Strikingly, even PDX with carcinoma histology can host scarce EBV-infected B-lymphocytes that can fully overgrow carcinoma cells during serial passaging in vitro and in vivo. As serial xenografting is crucial to expand primary tumor tissue for biobanks and cohorts for preclinical mouse avatar trials, the emerging dominance of B-lymphoproliferations in serial PDX represents a serious confounding factor in these models. Consequently, repeated phenotypic assessments of serial PDX are mandatory at each expansion step to verify "bona fide" carcinoma xenografts.

Published

2017

4. Thiolutin is a zinc chelator that inhibits the Rpn11 and other JAMM metalloproteases

Author

Linda Lauinger, Raymond J. Deshaies, Frauke Melchior, Yaru Zhang, Tobias Schafmeier, Axel Diernfellner, Kyle P. Carter, Anton Shostak, Philipp Merkl, Nicolas Stankovic-Valentin, Simon Obermeyer, Albert A. Bowers, Walter Wever, Ibrahim Avi Cemel, Amy E. Palmer, Michael Brunner, Herbert Tschochner, Jing Li, and Nati Ha

Subjects

0301 basic medicine, Proteasome Endopeptidase Complex, Streptomyces, Article, Deubiquitinating enzyme, 03 medical and health sciences, Structure-Activity Relationship, medicine, Metalloprotein, Structure–activity relationship, Humans, COP9 signalosome, Enzyme Inhibitors, Molecular Biology, Chelating Agents, chemistry.chemical_classification, Metalloproteinase, biology, Dose-Response Relationship, Drug, Cell Biology, biology.organism_classification, Thiolutin, Pyrrolidinones, Cell biology, Zinc, 030104 developmental biology, Biochemistry, chemistry, Proteasome, biology.protein, Metalloproteases, Trans-Activators, medicine.drug, HeLa Cells

Abstract

Thiolutin is a disulfide-containing antibiotic and anti-angiogenic compound produced by Streptomyces. Its biological targets are not known. We show that reduced thiolutin is a zinc-chelator that inhibits the JAB1/MPN/Mov34 (JAMM) domain-containing metalloprotease Rpn11, a de-ubiquinating enzyme of the 19S proteasome. Thiolutin also inhibits the JAMM metalloproteases Csn5, the deneddylase of the COP9 signalosome, Associated-molecule-with-the-SH3-Domain-of-STAM (AMSH), which regulates ubiquitin-dependent sorting of cell-surface receptors, and Brcc36, a K63-specific deubiquitnase of BRCC36-containing isopeptidase complex (BRISC) and BRCA1-BRCA2-containing complex (BRCC). We provide evidence that other dithiolopyrrolones also function as inhibitors of JAMM metalloproteases.

Published

2017

5. Clinical and histopathological characteristics of familial prostate cancer in Finland

Author

Teuvo L.J. Tammela, Sanna Pakkanen, Mika P. Matikainen, Paula Kujala, Johanna Schleutker, and Nati Ha

Subjects

Gynecology, medicine.medical_specialty, education.field_of_study, business.industry, Urology, Population, Case-control study, Retrospective cohort study, urologic and male genital diseases, Familial prostate cancer, Internal medicine, Cohort, medicine, Family history, Age of onset, business, education, Survival analysis

Abstract

Study Type – Aetiology (cohort) Level of Evidence 2b OBJECTIVE • To describe clinical and histopathological characteristics of Finnish familial prostate cancer (PCa) through a detailed analysis of cases in families. PATIENTS AND METHODS • In total, 202 Finnish families with 617 histopathologically confirmed PCa cases of confirmed genealogy were collected. • Complete clinical data, including age and prostate-specific antigen (PSA) at diagnosis, stage, grade and primary treatment, were gathered. The mean (range) number of affected men per family was 3 (2–8). • All the available diagnostic biopsy samples (n= 323) were collected and regraded by the same uropathologist. • A population-based cohort of 3011 hospital district Pirkanmaa PCa patients was used as a control group. RESULTS • The mean (range) year of diagnosis of PCa was 1993 (1962–2006) and the mean (range) age at diagnosis was 68 (43–98 years). • The median (range) primary PSA level was 12.0 (0.8–11 000) ng/mL. After regrading, the Gleason score was ≤6 in 38%, 7 in 37% and ≥8 in 25% of men. • The subset of familial PCa men diagnosed after 1995 had higher PSA levels (P= 9.9 × 10−6) and an earlier age of onset (P= 1.7 × 10−6) than men in the control group, although there were no differences in cancer-specific survival. CONCLUSIONS • We observed an earlier age of onset and higher PSA in familial PCa. • However, differences between sporadic and familial or hereditary PCa cannot be truly solved until genetic testing of high-risk genes in addition to family history is used to define PCa families. • We also emphasize that, when histological samples are collected over a longer study period, reanalysis of the samples by the same experienced uropathologist should be considered. What’s known on the subject? and What does the study add? Previous hospital- or population-based cross-sectional studies comparing the clinical and histopathological features of hereditary, familial and sporadic PCa either reported weak trends or no differences in features measured except the age of onset. In present study we observed higher PSA and earlier age of onset in the subset of 257 familial PCa menin Finnish PCa families.

Published

2011

6. Antagonistic regulation of apoptosis and differentiation by the cut transcription factor represents a tumor-suppressing mechanism in drosophila

Author

Sebastian Sorge, Anne Hamacher-Brady, Nathan R. Brady, Nati Ha, Fani Papagiannouli, Zongzhao Zhai, Ingrid Lohmann, and Daniela Bezdan

Subjects

Cancer Research, Programmed cell death, lcsh:QH426-470, Cellular differentiation, Cell, Apoptosis, Biology, Model Organisms, Molecular Cell Biology, medicine, Genetics, Animals, Drosophila Proteins, Humans, Cell Lineage, Genes, Tumor Suppressor, Molecular Biology, Transcription factor, Psychological repression, Genetics (clinical), Ecology, Evolution, Behavior and Systematics, Homeodomain Proteins, Reaper, Gene Expression Regulation, Developmental, Nuclear Proteins, Cell Differentiation, Animal Models, Cell biology, Repressor Proteins, lcsh:Genetics, Disease Models, Animal, medicine.anatomical_structure, Cell Transformation, Neoplastic, Drosophila melanogaster, HEK293 Cells, Cancer cell, Transcription Factors, Research Article, Developmental Biology

Abstract

Apoptosis is essential to prevent oncogenic transformation by triggering self-destruction of harmful cells, including those unable to differentiate. However, the mechanisms linking impaired cell differentiation and apoptosis during development and disease are not well understood. Here we report that the Drosophila transcription factor Cut coordinately controls differentiation and repression of apoptosis via direct regulation of the pro-apoptotic gene reaper. We also demonstrate that this regulatory circuit acts in diverse cell lineages to remove uncommitted precursor cells in status nascendi and thereby interferes with their potential to develop into cancer cells. Consistent with the role of Cut homologues in controlling cell death in vertebrates, we find repression of apoptosis regulators by Cux1 in human cancer cells. Finally, we present evidence that suggests that other lineage-restricted specification factors employ a similar mechanism to put the brakes on the oncogenic process., Author Summary Apoptosis is a highly conserved cellular function to remove excessive or unstable cells in diverse developmental processes and disease-responses. An important example is the elimination of cells unable to differentiate, which have the potential to generate tumors. Despite the significance of this process, the mechanisms coupling loss of differentiation and apoptosis have remained elusive. Using cell-type specification in Drosophila as a model, we now identify a conserved regulatory logic that underlies cell-type specific removal of uncommitted cells by apoptosis. We find that the transcription factor Cut activates differentiation, while it simultaneously represses cell death via the direct regulation of a pro-apoptotic gene. We show that this regulatory interaction occurs in many diverse cell types and is essential for normal development. Using in vivo Drosophila cancer models, we demonstrate that apoptosis activation in differentiation-compromised cells is an immediate-early cancer prevention mechanism. Importantly, we show that this type of regulatory wiring is also found in vertebrates and that other cell-type specification factors might employ a similar mechanism for tumor suppression. Thus, our findings suggest that the coupling of differentiation and apoptosis by individual transcription factors is a widely used and evolutionarily conserved cancer prevention module, which is hard-wired into the developmental program.

Published

2012