Your search keyword '"Bohumil Fafilek"' showing total 27 results

1. Ligand bias underlies differential signaling of multiple FGFs via FGFR1

Author

Kelly Karl, Nuala Del Piccolo, Taylor Light, Tanaya Roy, Pooja Dudeja, Vlad-Constantin Ursachi, Bohumil Fafilek, Pavel Krejci, and Kalina Hristova

Subjects

signal transduction, FGFR, biased signaling, Medicine, Science, Biology (General), QH301-705.5

Abstract

The differential signaling of multiple FGF ligands through a single fibroblast growth factor (FGF) receptor (FGFR) plays an important role in embryonic development. Here, we use quantitative biophysical tools to uncover the mechanism behind differences in FGFR1c signaling in response to FGF4, FGF8, and FGF9, a process which is relevant for limb bud outgrowth. We find that FGF8 preferentially induces FRS2 phosphorylation and extracellular matrix loss, while FGF4 and FGF9 preferentially induce FGFR1c phosphorylation and cell growth arrest. Thus, we demonstrate that FGF8 is a biased FGFR1c ligand, as compared to FGF4 and FGF9. Förster resonance energy transfer experiments reveal a correlation between biased signaling and the conformation of the FGFR1c transmembrane domain dimer. Our findings expand the mechanistic understanding of FGF signaling during development and bring the poorly understood concept of receptor tyrosine kinase ligand bias into the spotlight.

Published

2024

2. One reporter for in-cell activity profiling of majority of protein kinase oncogenes

Author

Iva Gudernova, Silvie Foldynova-Trantirkova, Barbora El Ghannamova, Bohumil Fafilek, Miroslav Varecha, Lukas Balek, Eva Hruba, Lucie Jonatova, Iva Jelinkova, Michaela Kunova Bosakova, Lukas Trantirek, Jiri Mayer, and Pavel Krejci

Subjects

receptor tyrosine kinase, protein kinase, activity, in cell, profiling, reporter, Medicine, Science, Biology (General), QH301-705.5

Abstract

In-cell profiling enables the evaluation of receptor tyrosine activity in a complex environment of regulatory networks that affect signal initiation, propagation and feedback. We used FGF-receptor signaling to identify EGR1 as a locus that strongly responds to the activation of a majority of the recognized protein kinase oncogenes, including 30 receptor tyrosine kinases and 154 of their disease-associated mutants. The EGR1 promoter was engineered to enhance trans-activation capacity and optimized for simple screening assays with luciferase or fluorescent reporters. The efficacy of the developed, fully synthetic reporters was demonstrated by the identification of novel targets for two clinically used tyrosine kinase inhibitors, nilotinib and osimertinib. A universal reporter system for in-cell protein kinase profiling will facilitate repurposing of existing anti-cancer drugs and identification of novel inhibitors in high-throughput screening studies.

Published

2017

3. Supplementary Figures S1-3, Tables S1-3 from HIC1 Tumor Suppressor Loss Potentiates TLR2/NF-κB Signaling and Promotes Tissue Damage–Associated Tumorigenesis

Author

Vladimir Korinek, Hynek Strnad, Katerina Galuskova, Eva Sloncova, Jitka Stancikova, Adela Hlavata, Monika Horazna, Nikol Baloghova, Dominique Leprince, Marion Dubuissez, Jan Dobes, Jolana Tureckova, Martina Vojtechova, Bohumil Fafilek, Vendula Pospichalova, and Lucie Janeckova

Abstract

Supplementary Figures S1-3, Tables S1-3. Supplementary Figure S1. Heatmaps depicting gene expression in Hic1flox/flox MEFs treated with 4- OHT when compared to MEFs treated with vehicle (ethanol) only. Genes (299 in total) displaying significantly (q < 0.05) changed expression in at least one of the indicated time points are listed. The position of Hic1 and six genes whose expression was changed more than twice (|log FC| > 1) in at least two time points is highlighted. Supplementary Figure S2. Loss of Hic1 results in increased counts of goblet and enteroendocrine cells. A,B, goblet (A) and enteroendocrine (B) cell distribution in the indicated segments of the small intestine. Specimens obtained from four Hic1flox/flox and four Hic1flox/flox Villin-Cre+ mice were stained using Periodic acid Schiff (PAS) and an anti-chromogranin A antibody to visualize goblet and enteroendocrine cells, respectively. Stained cells (indicated by black arrowheads in the histology images on the right) were in several different fields indicated by numbers on the X axis. C, no changes in enterocytes were noted in the Hic1-deficient small intestine. Left, qRT-PCR analysis of enterocytespecific markers hairy and enhancer of split-1 (Hes1) and sucrase-isomaltase (SI). The expression level of the respective gene in wt mice (upon normalization to Ubb) was arbitrarily set to 1. Right, staining of brush border enzyme alkaline phosphatase (AP) produced by differentiated enterocytes in the small intestine. Scale bar: 0.15 mm; error bars: SDs. Supplementary Figure S3. DSS-induced transcriptional response in the colon of Hic1flox/flox and Hic1flox/flox Villin-Cre+ mice six and nine days after DSS withdrawal. Epithelial lining of the colon obtained from four animals of each genotype was analyzed using qRT-PCR. The results were normalized to the Ubiquitin B (Ubb) housekeeping gene; the relative expression of another housekeeping gene, β-actin, is also shown. The expression level of the corresponding gene in mice without DSS treatment was arbitrarily set to 1. Error bars: SDs. Supplementary Table S1 Primers used for qRT-PCR analysis Supplementary Table S2. List of genes differentially expressed in Hic1flox/flox MEFs treated with 4- OHT for 48, 72, and 120 hours when compared to control MEFs treated (for the given time periods) with vehicle. Selection criterion: q < 0.05. Of note, none of the genes passed the selection criterion for the 24-hour time point. Supplementary Table S3. The most different 'Gene Ontology Biological Processes' (GO BPs) and WikiPathways categories in expression profiles of Hic1flox/flox MEFs 72 hours after addition of 4-OHT when compared to MEFs treated with vehicle only. In total, 268 gene probes passed the significance criterion (q-value < 0.05). Corresponding annotated genes (listed in Supplementary Table S2) were analyzed using the GO BP and WikiPathways 2015 Enricher datasets. The results were sorted according to the p-value; GO BPs and WikiPathways with p < 0.05 are listed.

Published

2023

4. Data from HIC1 Tumor Suppressor Loss Potentiates TLR2/NF-κB Signaling and Promotes Tissue Damage–Associated Tumorigenesis

Author

Vladimir Korinek, Hynek Strnad, Katerina Galuskova, Eva Sloncova, Jitka Stancikova, Adela Hlavata, Monika Horazna, Nikol Baloghova, Dominique Leprince, Marion Dubuissez, Jan Dobes, Jolana Tureckova, Martina Vojtechova, Bohumil Fafilek, Vendula Pospichalova, and Lucie Janeckova

Abstract

Hypermethylated in cancer 1 (HIC1) represents a prototypic tumor suppressor gene frequently inactivated by DNA methylation in many types of solid tumors. The gene encodes a sequence-specific transcriptional repressor controlling expression of several genes involved in cell cycle or stress control. In this study, a Hic1 allele was conditionally deleted, using a Cre/loxP system, to identify genes influenced by the loss of Hic1. One of the transcripts upregulated upon Hic1 ablation is the toll-like receptor 2 (TLR2). Tlr2 expression levels increased in Hic1-deficient mouse embryonic fibroblasts (MEF) and cultured intestinal organoids or in human cells upon HIC1 knockdown. In addition, HIC1 associated with the TLR2 gene regulatory elements, as detected by chromatin immunoprecipitation, indicating that Tlr2 indeed represents a direct Hic1 target. The Tlr2 receptor senses “danger” signals of microbial or endogenous origin to trigger multiple signaling pathways, including NF-κB signaling. Interestingly, Hic1 deficiency promoted NF-κB pathway activity not only in cells stimulated with Tlr2 ligand, but also in cells treated with NF-κB activators that stimulate different surface receptors. In the intestine, Hic1 is mainly expressed in differentiated epithelial cells and its ablation leads to increased Tlr2 production. Finally, in a chemical-induced mouse model of carcinogenesis, Hic1 absence resulted in larger Tlr2-positive colonic tumors that showed increased proportion of proliferating cells.Implications: The tumor-suppressive function of Hic1 in colon is related to its inhibitory action on proproliferative signaling mediated by the Tlr2 receptor present on tumor cells. Mol Cancer Res; 13(7); 1139–48. ©2015 AACR.

Published

2023

5. 4‐PBA Treatment Improves Bone Phenotypes in the Aga2 Mouse Model of Osteogenesis Imperfecta

Author

Ivan Duran, Jennifer Zieba, Fabiana Csukasi, Jorge H. Martin, Davis Wachtell, Maya Barad, Brian Dawson, Bohumil Fafilek, Christina M. Jacobsen, Catherine G. Ambrose, Daniel H. Cohn, Pavel Krejci, Brendan H. Lee, and Deborah Krakow

Subjects

Osteoblasts, Endocrinology, Diabetes and Metabolism, osteogenesis imperfecta, Osteogenesis Imperfecta, Butylamines, 4-PBA, bone, Collagen Type I, Aga2, Disease Models, Animal, Mice, Phenotype, Osteogenesis, Mutation, Animals, Orthopedics and Sports Medicine, Bip+/−, Chop−/−, ER stress, Molecular Chaperones

Abstract

Osteogenesis imperfecta (OI) is a genetically heterogenous disorder most often due to heterozygosity for mutations in the type I procollagen genes, COL1A1 or COL1A2. The disorder is characterized by bone fragility leading to increased fracture incidence and long-bone deformities. Although multiple mechanisms underlie OI, endoplasmic reticulum (ER) stress as a cellular response to defective collagen trafficking is emerging as a contributor to OI pathogenesis. Herein, we used 4-phenylbutiric acid (4-PBA), an established chemical chaperone, to determine if treatment of Aga2+/- mice, a model for moderately severe OI due to a Col1a1 structural mutation, could attenuate the phenotype. In vitro, Aga2+/- osteoblasts show increased protein kinase RNA-like endoplasmic reticulum kinase (PERK) activation protein levels, which improved upon treatment with 4-PBA. The in vivo data demonstrate that a postweaning 5-week 4-PBA treatment increased total body length and weight, decreased fracture incidence, increased femoral bone volume fraction (BV/TV), and increased cortical thickness. These findings were associated with in vivo evidence of decreased bone-derived protein levels of the ER stress markers binding immunoglobulin protein (BiP), CCAAT/-enhancer-binding protein homologous protein (CHOP), and activating transcription factor 4 (ATF4) as well as increased levels of the autophagosome marker light chain 3A/B (LC3A/B). Genetic ablation of CHOP in Aga2+/- mice resulted in increased severity of the Aga2+/- phenotype, suggesting that the reduction in CHOP observed in vitro after treatment is a consequence rather than a cause of reduced ER stress. These findings suggest the potential use of chemical chaperones as an adjunct treatment for forms of OI associated with ER stress. © 2022 The Authors. Journal of Bone and Mineral Research published by Wiley Periodicals LLC on behalf of American Society for Bone and Mineral Research (ASBMR).

Published

2022

6. Analysis of domain-specific function reveals significant plasticity in BCR-ABL signaling

Author

Tomas Gregor, Michaela Bosakova, Alexandru Nita, Zuzana Feketova, Bohumil Fafilek, Aleksandra Czyrek, Jiri Mayer, Lukas Trantirek, and Pavel Krejci

Abstract

Discontinuation of the tyrosine kinase inhibitor (TKI) therapy leads to relapse in chronic myeloid leukemia (CML), suggesting that TKIs do not completely eliminate cancer cells. Recently, we showed that TKIs inhibit catalytic activity of BCR-ABL, but do not dissolve the BCR-ABL core complex, consisting of signaling mediators SHC1, GRB2, SOS1, cCBL, SHIP2, p85a, STS1, and CRKL. Here, we examined the contribution of the BCR-ABL structural domains to downstream signaling. Individual deletion of the coiled-coil domain, ABL-binding domain, intrinsically disordered region, and SH3 and SH2 domains downregulated, but not eliminated the BCR-ABL-mediated phosphorylation of STAT1, STAT5, SHC1, SHIP2 and CRKL. Moreover, elimination of the BCR residue Y177 upregulated signaling via the RAS-ERK MAP kinase pathway, possibly through increased BCR-ABL interaction with the SHC1. We demonstrate that removal of individual BCR-ABL domains does not abolish downstream signaling, and may even increase activation of some pathways, such as RAS-ERK. Our data point to significant plasticity in the BCR-ABL signaling, and undermine targeting integrity of the BCR-ABL core complex as an approach to eliminate residual cancer cells in TKI-treated CML.

Published

2022

7. Bias in FGFR1 signaling in response to FGF4, FGF8, and FGF9

Author

Kelly Karl, Nuala Del Piccolo, Taylor Light, Tanaya Roy, Pooja Dudeja, Vlad-Constantin Ursachi, Bohumil Fafilek, Pavel Krejci, and Kalina Hristova

Subjects

stomatognathic diseases

Abstract

FGFR1 signals differently in response to the fgf ligands FGF4, FGF8 and FGF9, but the mechanism behind the differential ligand recognition is poorly understood. Here, we use biophysical tools to quantify multiple aspects of FGFR1 signaling in response to the three FGFs: potency, efficacy, bias, ligand-induced oligomerization and downregulation, and conformation of the active FGFR1 dimers. We find that the three ligands exhibit distinctly different potencies and efficacies for inducing signaling responses in cells. We further find that FGF8 is a biased ligand, as compared to FGF4 and FGF9. This bias is evident in the phosphorylation of FGFR1 and associated proteins, as well as in FGFR1-mediated functional responses. Our data suggest that the FGF bias arises due to structural differences in the FGF-FGFR1 dimers, which impact the interactions of the FGFR1 transmembrane helices, leading to differential recruitment and activation of the downstream signaling adaptor FRS2. This study expands the mechanistic understanding of FGF signaling during development and brings the poorly understood concept of receptor tyrosine kinase ligand bias into the spotlight.

Published

2022

8. Author response for '4‐PBA treatment improves bone phenotypes in the Aga2 mouse model of osteogenesis imperfecta'

Author

null Ivan Duran, null Jennifer Zieba, null Fabiana Csukasi, null Jorge H. Martin, null Davis Wachtell, null Maya Barad, null Brian Dawson, null Bohumil Fafilek, null Christina M. Jacobson, null Catherine G. Ambrose, null Daniel H. Cohn, null Pavel Krejci, null Brendan H. Lee, and null Deborah Krakow

Published

2021

9. Expanding horizons of achondroplasia treatment: current options and future developments

Author

Pavel Krejci, Bohumil Fafilek, and Michaela Bosakova

Subjects

musculoskeletal diseases, congenital, hereditary, and neonatal diseases and abnormalities, 0303 health sciences, business.industry, Biomedical Engineering, Dwarfism, medicine.disease, Bioinformatics, 3. Good health, Achondroplasia, 03 medical and health sciences, 0302 clinical medicine, Rheumatology, 030220 oncology & carcinogenesis, Mutation, medicine, Humans, Receptor, Fibroblast Growth Factor, Type 3, Orthopedics and Sports Medicine, business, Repurposing, 030304 developmental biology, Vosoritide, Signal Transduction

Abstract

Summary Activating mutations in the FGFR3 receptor tyrosine kinase lead to most prevalent form of genetic dwarfism in humans, the achondroplasia. Many features of the complex function of FGFR3 in growing skeleton were characterized, which facilitated identification of therapy targets, and drove progress toward treatment. In August 2021, the vosoritide was approved for treatment of achondroplasia, which is based on a stable variant of the C-natriuretic peptide. Other drugs may soon follow, as several conceptually different inhibitors of FGFR3 signaling progress through clinical trials. Here, we review the current achondroplasia therapeutics, describe their mechanisms, and illuminate motivations leading to their development. We also discuss perspectives of curing achondroplasia, and options for repurposing achondroplasia drugs for dwarfing conditions unrelated to FGFR3.

Published

2021

10. Fibroblast growth factor receptor influences primary cilium length through an interaction with intestinal cell kinase

Author

Bohumil Fafilek, Peter Konik, Iva Gudernova, Jennifer Zieba, Miroslav Varecha, Sara P. Abraham, Tomas Gregor, Ivan Duran, David Šmajs, Gert Jansen, Marketa Tomanova, Pavel Krejci, So Hyun Park, Jieun Song, Tomáš Bárta, Deborah Krakow, Lukas Balek, Alexandru Nita, David Potesil, Zheng Fu, Neha Basheer, Hyuk Wan Ko, Aleš Hampl, Michaela Bosakova, Jana Kučerová, Juraj Bosák, Lukáš Trantírek, Zbynek Zdrahal, and Cell biology

Subjects

Proteomics, animal structures, Protein Serine-Threonine Kinases, Fibroblast growth factor, 03 medical and health sciences, Mice, Ciliogenesis, fibroblast growth factor, Animals, Humans, Receptor, Fibroblast Growth Factor, Type 3, Hedgehog Proteins, Protein Interaction Domains and Motifs, Receptor, Fibroblast Growth Factor, Type 4, Cilia, Receptor, Fibroblast Growth Factor, Type 1, Kinase activity, Phosphorylation, 030304 developmental biology, Mice, Knockout, 0303 health sciences, Multidisciplinary, Chemistry, Kinase, FGFR, Cilium, 030302 biochemistry & molecular biology, intestinal cell kinase, Cell Biology, Biological Sciences, ICK, Receptors, Fibroblast Growth Factor, Hedgehog signaling pathway, Cell biology, Fibroblast Growth Factors, Molecular Docking Simulation, HEK293 Cells, PNAS Plus, Fibroblast growth factor receptor, cilia length, Models, Animal, NIH 3T3 Cells, sense organs, CRISPR-Cas Systems, Signal Transduction

Abstract

Significance A properly functioning primary cilium is prerequisite for both normal development and aging of all ciliated organisms, including humans. In vertebrates, the signaling of Hedgehog family morphogens depends entirely on primary cilium. Recently, we reported that fibroblast growth factors (FGF) signaling interacts with that of Hedgehog, and that this is a consequence of FGF regulating length of the cilium and speed of processes that happen therein. In this report, we provide a molecular mechanism of such interaction, identifying intestinal cell kinase as a mediator of the FGF-induced changes in the ciliary morphology and function. This expands our understanding how FGF signaling regulates intracellular processes, and how aberrant FGF signaling contributes to diseases, such as achondroplasia and cancer., Vertebrate primary cilium is a Hedgehog signaling center but the extent of its involvement in other signaling systems is less well understood. This report delineates a mechanism by which fibroblast growth factor (FGF) controls primary cilia. Employing proteomic approaches to characterize proteins associated with the FGF-receptor, FGFR3, we identified the serine/threonine kinase intestinal cell kinase (ICK) as an FGFR interactor. ICK is involved in ciliogenesis and participates in control of ciliary length. FGF signaling partially abolished ICK’s kinase activity, through FGFR-mediated ICK phosphorylation at conserved residue Tyr15, which interfered with optimal ATP binding. Activation of the FGF signaling pathway affected both primary cilia length and function in a manner consistent with cilia effects caused by inhibition of ICK activity. Moreover, knockdown and knockout of ICK rescued the FGF-mediated effect on cilia. We provide conclusive evidence that FGF signaling controls cilia via interaction with ICK.

Published

2019

11. An RNA aptamer restores defective bone growth in FGFR3-related skeletal dysplasia in mice

Author

Josef Kaiser, Regina Gomolkova, Michaela Kavkova, Yosuke Nonaka, Bohumil Fafilek, Ivan Duran, Satoshi Futakawa, Kie Yasuda, Sara P. Abraham, Yoshikazu Nakamura, Michaela Bosakova, Takeshi Kimura, Masatoshi Fujiwara, Tomas Gregor, Tomáš Zikmund, Pavel Krejci, Takuo Kubota, Keiichi Ozono, Marcela Buchtová, Martin Pešl, Fabiana Csukasi, Deborah Krakow, Eva Hruba, and Silvie Belaskova

Subjects

musculoskeletal diseases, 0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, Cellular differentiation, Dwarfism, Biology, Fibroblast growth factor, Chondrocyte, Achondroplasia, Mice, 03 medical and health sciences, Chondrocytes, 0302 clinical medicine, medicine, Animals, Receptor, Fibroblast Growth Factor, Type 3, Induced pluripotent stem cell, Bone growth, Bone Development, Cartilage, Cell Differentiation, General Medicine, Aptamers, Nucleotide, musculoskeletal system, medicine.disease, Rats, 3. Good health, Cell biology, stomatognathic diseases, 030104 developmental biology, medicine.anatomical_structure, 030217 neurology & neurosurgery

Abstract

Achondroplasia is the most prevalent genetic form of dwarfism in humans and is caused by activating mutations in FGFR3 tyrosine kinase. The clinical need for a safe and effective inhibitor of FGFR3 is unmet, leaving achondroplasia currently incurable. Here, we evaluated RBM-007, an RNA aptamer previously developed to neutralize the FGFR3 ligand FGF2, for its activity against FGFR3. In cultured rat chondrocytes or mouse embryonal tibia organ culture, RBM-007 rescued the proliferation arrest, degradation of cartilaginous extracellular matrix, premature senescence, and impaired hypertrophic differentiation induced by FGFR3 signaling. In cartilage xenografts derived from induced pluripotent stem cells from individuals with achondroplasia, RBM-007 rescued impaired chondrocyte differentiation and maturation. When delivered by subcutaneous injection, RBM-007 restored defective skeletal growth in a mouse model of achondroplasia. We thus demonstrate a ligand-trap concept of targeting the cartilage FGFR3 and delineate a potential therapeutic approach for achondroplasia and other FGFR3-related skeletal dysplasias.

Published

2021

12. Inhibitor repurposing reveals ALK, LTK, FGFR, RET and TRK kinases as the targets of AZD1480

Author

Lukáš Trantírek, Stjepan Uldrijan, Bohumil Fafilek, Michaela Bosakova, Pavel Krejci, Miroslav Varecha, Veronika Palušová, Jana Kučerová, Lukas Balek, and Iva Gudernova

Subjects

0301 basic medicine, drug repurposing, Kinase, Mutant, Biology, AZD1480, Receptor tyrosine kinase, 3. Good health, inhibitor, 03 medical and health sciences, Drug repositioning, 030104 developmental biology, 0302 clinical medicine, Oncology, Fibroblast growth factor receptor, 030220 oncology & carcinogenesis, Trk receptor, receptor tyrosine kinase, Cancer research, biology.protein, in-cell profiling, Tyrosine kinase, Repurposing, Research Paper

Abstract

Many tyrosine kinase inhibitors (TKIs) have failed to reach human use due to insufficient activity in clinical trials. However, the failed TKIs may still benefit patients if their other kinase targets are identified by providing treatment focused on syndromes driven by these kinases. Here, we searched for novel targets of AZD1480, an inhibitor of JAK2 kinase that recently failed phase two cancer clinical trials due to a lack of activity. Twenty seven human receptor tyrosine kinases (RTKs) and 153 of their disease-associated mutants were in-cell profiled for activity in the presence of AZD1480 using a newly developed RTK plasmid library. We demonstrate that AZD1480 inhibits ALK, LTK, FGFR1-3, RET and TRKA-C kinases and uncover a physical basis of this specificity. The RTK activity profiling described here facilitates inhibitor repurposing by enabling rapid and efficient identification of novel TKI targets in cells.

Published

2017

13. Phosphoinositide 5-phosphatases SKIP and SHIP2 in ruffles, the endoplasmic reticulum and the nucleus: An update

Author

Tara Suhel, Ana Raquel Ramos, Clément Chevalier, Christophe Erneux, Benjamin Beck, Somadri Ghosh, Pavel Krejci, Bohumil Fafilek, Eric Owusu Obeng, Ramos, Ana Raquel, Ghosh, Somadri, Suhel, Tara, Chevalier, Clément, Obeng, Eric Owusu, Fafilek, Bohumil, Krejci, Pavel, Beck, Benjamin, and Erneux, Christophe

Subjects

0301 basic medicine, Cancer Research, Cell signaling, Cytoskeleton organization, U-251 MG cell, Phosphoinositides, Breast Neoplasms, Mice, SCID, Phosphoinositide, Signal transduction, Endoplasmic Reticulum, Genome function, PI(4,5)P2, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Speckle, Mice, Inbred NOD, Genetics, Speckles, Animals, Humans, Cell migration, Phosphatidylinositol, Molecular Biology, Cellular localization, Cell Nucleus, Chemistry, Kinase, Endoplasmic reticulum, U-251 MG cells, Sciences bio-médicales et agricoles, SHIP2, Phosphoric Monoester Hydrolases, 3. Good health, Cell biology, Neoplasm Proteins, SKIP, 030104 developmental biology, 030220 oncology & carcinogenesis, Phosphatidylinositol-3,4,5-Trisphosphate 5-Phosphatases, MCF-7 Cells, Molecular Medicine, Phosphorylation, Female, Glioblastoma

Abstract

Phosphoinositides (PIs) are phosphorylated derivatives of phosphatidylinositol. They act as signaling molecules linked to essential cellular mechanisms in eukaryotic cells, such as cytoskeleton organization, mitosis, polarity, migration or invasion. PIs are phosphorylated and dephosphorylated by a large number of PI kinases and PI phosphatases acting at the 5-, 4- and 3- position of the inositol ring. PI 5-phosphatases i.e. OCRL, INPP5B, SHIP1/2, Synaptojanin 1/2, INPP5E, INPP5J, SKIP (INPP5K) are enzymes that dephosphorylate the 5-phosphate position of PIs. Several human genetic diseases such as the Lowe syndrome, some congenital muscular dystrophy and opsismodysplasia are due to mutations in PI phosphatases, resulting in loss-of-function. The PI phosphatases are also up or down regulated in several human cancers such as glioblastoma or breast cancer. Their cellular localization, that is dynamic and varies in response to stimuli, is an important issue to understand function. This is the case for two members of the PI 5-phosphatase SKIP and SHIP2. Both enzymes are in ruffles, plasma membranes, the endoplasmic reticulum, a situation that is unique for SKIP, and the nucleus. Following localization, PI 5-phosphatases act on specific cellular pools of PIs, which in turn interact with target proteins. Nuclear PIs have emerged as regulators of genome functions in different area of cell signaling. They often localize to nuclear speckles, as do several PI metabolizing kinases and phosphatases. We asked whether SKIP and SHIP2 could have an impact on nuclear PI(4,5)P2. In two glioblastoma cell models, lowering SKIP expression had an impact on nuclear PI(4,5)P2. In a model of SHIP2 deletion in MCF-7 cells, no change in nuclear PI(4,5)P2 was observed. Finally, we present evidence of an anti-tumoral role of SKIP in vivo, in xenografts using as model U87shSKIP cells., info:eu-repo/semantics/published

Published

2019

14. Elucidation of protein-protein interactions necessary for maintenance of the BCR-ABL signaling complex

Author

Bohumil Fafilek, Silvie Foldynová-Trantírková, Tomas Gregor, Lukáš Trantírek, Sara P. Abraham, Pavel Krejci, Michaela Bosakova, Jiri Mayer, Alexandru Nita, Jan Ryneš, and Nicole H. Cernohorsky

Subjects

0303 health sciences, biology, Chemistry, 3. Good health, Cell biology, Pleckstrin homology domain, CRKL, 03 medical and health sciences, 0302 clinical medicine, hemic and lymphatic diseases, 030220 oncology & carcinogenesis, biology.protein, Phosphorylation, GRB2, Tyrosine, Binding site, Sequence motif, neoplasms, Tyrosine kinase, 030304 developmental biology

Abstract

Approximately 50% of chronic myeloid leukemia (CML) patients in deep remission experience a return of clinical CML after withdrawal of tyrosine kinase inhibitors (TKIs). This suggests signaling of inactive BCR-ABL, which allows for survival of cancer cells, leading to relapse. Understanding the dynamics of BCR-ABL signaling complex holds a key to the mechanism of BCR-ABL signaling. Here, we demonstrate that TKIs inhibit catalytic activity of BCR-ABL, but do not dissolve the BCR-ABL core signaling complex consisting of CrkL, SHC1, Grb2, SOS1, cCbl, and SHIP2. We show that CrkL binds to proline-rich regions located in C-terminal, intrinsically disordered region of BCR-ABL, that deletion of pleckstrin homology domain of BCR-ABL diminishes interaction with SHC1, and that BCR-ABL sequence motif located in disordered region around phosphorylated tyrosine 177 mediates binding of at least three core complex members, the Grb2, SOS1 and cCbl. Introduction of Y177F substitution blocks association with Grb2, SOS1 and cCbl. Further, we identified SHIP2 binding sites within the src-homology and tyrosine kinase domains of BCR-ABL. We found that BCR-ABL is unable to phosphorylate SHC1 in cells lacking SHIP2. Reintroducing SHIP2 into Ship2 knock-out cells restored SHC1 phosphorylation, which depended on inositol phosphatase activity of SHIP2. Our findings provide characterization of protein-protein interactions in the BCR-ABL signaling complex, and support the concept of targeting BCR-ABL signaling in CML by inhibition of its interactions with the members of the core complex.

Published

2019

15. Elucidation of protein interactions necessary for the maintenance of the BCR-ABL signaling complex

Author

Nicole H. Cernohorsky, Silvie Foldynová-Trantírková, Bohumil Fafilek, Daniela Zackova, Lukáš Trantírek, Alexandru Nita, Jan Ryneš, Sara P. Abraham, Jiri Mayer, Michaela Bosakova, Tomas Gregor, and Pavel Krejci

Subjects

Src Homology 2 Domain-Containing, Transforming Protein 1, Amino Acid Motifs, Fusion Proteins, bcr-abl, Protein Array Analysis, Interactome, src Homology Domains, Cellular and Molecular Neuroscience, hemic and lymphatic diseases, Cell Line, Tumor, Leukemia, Myelogenous, Chronic, BCR-ABL Positive, Humans, Tyrosine, Phosphorylation, neoplasms, Molecular Biology, Protein Kinase Inhibitors, Adaptor Proteins, Signal Transducing, Pharmacology, Binding Sites, biology, Chemistry, Cell Biology, Cell biology, Pleckstrin homology domain, CRKL, HEK293 Cells, Pyrimidines, Phosphatidylinositol-3,4,5-Trisphosphate 5-Phosphatases, biology.protein, Molecular Medicine, GRB2, Tyrosine kinase, Proto-oncogene tyrosine-protein kinase Src, Protein Binding, Signal Transduction

Abstract

Many patients with chronic myeloid leukemia in deep remission experience return of clinical disease after withdrawal of tyrosine kinase inhibitors (TKIs). This suggests signaling of inactive BCR-ABL, which allows the survival of cancer cells, and relapse. We show that TKI treatment inhibits catalytic activity of BCR-ABL, but does not dissolve BCR-ABL core signaling complex, consisting of CRKL, SHC1, GRB2, SOS1, cCBL, p85a-PI3K, STS1 and SHIP2. Peptide microarray and co-immunoprecipitation results demonstrate that CRKL binds to proline-rich regions located in C-terminal, intrinsically disordered region of BCR-ABL, that SHC1 requires pleckstrin homology, src homology and tyrosine kinase domains of BCR-ABL for binding, and that BCR-ABL sequence motif located in disordered region around phosphorylated tyrosine 177 mediates binding of three core complex members, i.e., GRB2, SOS1, and cCBL. Further, SHIP2 binds to the src homology and tyrosine kinase domains of BCR-ABL and its inositol phosphatase activity contributes to BCR-ABL-mediated phosphorylation of SHC1. Together, this study characterizes protein-protein interactions within the BCR-ABL core complex and determines the contribution of particular BCR-ABL domains to downstream signaling. Understanding the structure and dynamics of BCR-ABL interactome is critical for the development of drugs targeting integrity of the BCR-ABL core complex.

Published

2019

16. <scp>W</scp> nt Signaling Inhibition Deprives Small Intestinal Stem Cells of Clonogenic Capacity

Author

Vladimir Korinek, Meritxell Alberich-Jorda, Michaela Krausova, Radislav Sedlacek, Monika Horazna, Miroslava Anderova, Bohumil Fafilek, Katerina Galuskova, Martina Vojtechova, Eva Sloncova, and Lucie Janeckova

Subjects

0301 basic medicine, Beta-catenin, Transcription, Genetic, Cellular differentiation, Wnt pathway, Mice, Transgenic, Biology, digestive system, gene targeting, Mice, 03 medical and health sciences, Transcription Factor 4, Endocrinology, Intestinal mucosa, Cre/loxP, Intestine, Small, Genetics, Animals, Intestinal Mucosa, Wnt Signaling Pathway, Research Articles, beta Catenin, TCF/LEF transcription factors, Cell Proliferation, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Stem Cells, Wnt signaling pathway, LRP6, Cell Differentiation, LRP5, Cell Biology, Molecular biology, Intestinal epithelium, 030104 developmental biology, biology.protein, β‐catenin, gut, Stem cell, Cell Division, Research Article

Abstract

Summary The Wnt pathway plays a crucial role in self‐renewal and differentiation of cells in the adult gut. In the present study, we revealed the functional consequences of inhibition of canonical Wnt signaling in the intestinal epithelium. The study was based on generation of a novel transgenic mouse strain enabling inducible expression of an N‐terminally truncated variant of nuclear Wnt effector T cell factor 4 (TCF4). The TCF4 variant acting as a dominant negative (dn) version of wild‐type (wt) TCF4 protein decreased transcription of β‐catenin‐TCF4‐responsive genes. Interestingly, suppression of Wnt/β‐catenin signaling affected asymmetric division of intestinal stem cells (ISCs) rather than proliferation. ISCs expressing the transgene underwent several rounds of division but lost their clonogenic potential and migrated out of the crypt. Expression profiling of crypt cells revealed that besides ISC‐specific markers, the dnTCF4 production downregulated expression levels of epithelial genes produced in other crypt cells including markers of Paneth cells. Additionally, in Apc conditional knockout mice, dnTCF activation efficiently suppressed growth of Apc‐deficient tumors. In summary, the generated mouse strain represents a convenient tool to study cell‐autonomous inhibition of β‐catenin‐Tcf‐mediated transcription. genesis 54:101–114, 2016. © 2016 The Authors genesis Published by Wiley Periodicals, Inc.

Published

2016

17. The inositol phosphatase SHIP2 enables sustained ERK activation downstream of FGF receptors by recruiting Src kinases

Author

Jennifer Zieba, Bohumil Fafilek, Miroslav Varecha, Nicole H. Cernohorsky, Lukáš Trantírek, Iva Gudernova, Alexandru Nita, Jørgen Wesche, Lucie Jonatova, Christophe Erneux, Ellen Margrethe Haugsten, Tomas Gregor, Pavel Krejci, Jitka Krenova, Martin Piskacek, Lukas Balek, Michaela Bosakova, Somadri Ghosh, Deborah Krakow, and Michal Kostas

Subjects

0301 basic medicine, MAPK/ERK pathway, musculoskeletal diseases, MAP Kinase Signaling System, Protein Tyrosine Phosphatase, Non-Receptor Type 11, Protein tyrosine phosphatase, Biochemistry, 03 medical and health sciences, Cell Line, Tumor, Animals, Humans, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Molecular Biology, Adaptor Proteins, Signal Transducing, Kinase, Chemistry, Membrane Proteins, Cell Biology, Receptors, Fibroblast Growth Factor, Cell biology, Enzyme Activation, HEK293 Cells, src-Family Kinases, 030104 developmental biology, Fibroblast growth factor receptor, Phosphatidylinositol-3,4,5-Trisphosphate 5-Phosphatases, Signal transduction, Tyrosine kinase, Protein Binding, Proto-oncogene tyrosine-protein kinase Src

Abstract

Sustained activation of extracellular signal-regulated kinase (ERK) drives pathologies caused by mutations in fibroblast growth factor receptors (FGFRs). We previously identified the inositol phosphatase SHIP2 (also known as INPPL1) as an FGFR-interacting protein and a target of the tyrosine kinase activities of FGFR1, FGFR3, and FGFR4. We report that loss of SHIP2 converted FGF-mediated sustained ERK activation into a transient signal and rescued cell phenotypes triggered by pathologic FGFR-ERK signaling. Mutant forms of SHIP2 lacking phosphoinositide phosphatase activity still associated with FGFRs and did not prevent FGF-induced sustained ERK activation, demonstrating that the adaptor rather than the catalytic activity of SHIP2 was required. SHIP2 recruited Src family kinases to the FGFRs, which promoted FGFR-mediated phosphorylation and assembly of protein complexes that relayed signaling to ERK. SHIP2 interacted with FGFRs, was phosphorylated by active FGFRs, and promoted FGFR-ERK signaling at the level of phosphorylation of the adaptor FRS2 and recruitment of the tyrosine phosphatase PTPN11. Thus, SHIP2 is an essential component of canonical FGF-FGFR signal transduction and a potential therapeutic target in FGFR-related disorders.

Published

2018

18. HIC1 Tumor Suppressor Loss Potentiates TLR2/NF-κB Signaling and Promotes Tissue Damage–Associated Tumorigenesis

Author

Martina Vojtechova, Marion Dubuissez, Bohumil Fafilek, Nikol Baloghova, Jitka Stancikova, Lucie Janeckova, Dominique Leprince, Adela Hlavata, Jolana Tureckova, Vladimir Korinek, Vendula Pospichalova, Eva Sloncova, Hynek Strnad, Jan Dobeš, Katerina Galuskova, and Monika Horazna

Subjects

Cancer Research, Tumor suppressor gene, Carcinogenesis, Azoxymethane, Kruppel-Like Transcription Factors, Mice, Transgenic, Biology, medicine.disease_cause, Mice, Cell Line, Tumor, medicine, Animals, Humans, Receptor, Molecular Biology, Cell Proliferation, Gene knockdown, Tumor Suppressor Proteins, Dextran Sulfate, NF-kappa B, Epithelial Cells, Toll-Like Receptor 2, Up-Regulation, Intestines, Disease Models, Animal, TLR2, Oncology, Gene Knockdown Techniques, Colonic Neoplasms, DNA methylation, Cancer research, Signal transduction, Chromatin immunoprecipitation, Signal Transduction

Abstract

Hypermethylated in cancer 1 (HIC1) represents a prototypic tumor suppressor gene frequently inactivated by DNA methylation in many types of solid tumors. The gene encodes a sequence-specific transcriptional repressor controlling expression of several genes involved in cell cycle or stress control. In this study, a Hic1 allele was conditionally deleted, using a Cre/loxP system, to identify genes influenced by the loss of Hic1. One of the transcripts upregulated upon Hic1 ablation is the toll-like receptor 2 (TLR2). Tlr2 expression levels increased in Hic1-deficient mouse embryonic fibroblasts (MEF) and cultured intestinal organoids or in human cells upon HIC1 knockdown. In addition, HIC1 associated with the TLR2 gene regulatory elements, as detected by chromatin immunoprecipitation, indicating that Tlr2 indeed represents a direct Hic1 target. The Tlr2 receptor senses “danger” signals of microbial or endogenous origin to trigger multiple signaling pathways, including NF-κB signaling. Interestingly, Hic1 deficiency promoted NF-κB pathway activity not only in cells stimulated with Tlr2 ligand, but also in cells treated with NF-κB activators that stimulate different surface receptors. In the intestine, Hic1 is mainly expressed in differentiated epithelial cells and its ablation leads to increased Tlr2 production. Finally, in a chemical-induced mouse model of carcinogenesis, Hic1 absence resulted in larger Tlr2-positive colonic tumors that showed increased proportion of proliferating cells. Implications: The tumor-suppressive function of Hic1 in colon is related to its inhibitory action on proproliferative signaling mediated by the Tlr2 receptor present on tumor cells. Mol Cancer Res; 13(7); 1139–48. ©2015 AACR.

Published

2015

19. NKD1 marks intestinal and liver tumors linked to aberrant Wnt signaling

Author

Monika Horazna, Milan Jirsa, Magdalena Neroldova, Michal Kolar, Radislav Sedlacek, Martin Oliverius, Bohumil Fafilek, Michaela Krausova, Martina Vojtechova, Jitka Stancikova, Vladimir Korinek, Jiri Svec, Lucie Janeckova, and Jan Dobeš

Subjects

Genetically modified mouse, Carcinoma, Hepatocellular, Transcription, Genetic, Hepatocellular carcinoma, Colorectal cancer, NKD1, Adenomatous Polyposis Coli Protein, Intestinal polyp, Mice, Transgenic, Biology, Mice, Intestinal Neoplasms, medicine, Animals, Humans, Lobules of liver, RNA, Messenger, beta Catenin, Adaptor Proteins, Signal Transducing, Calcium-Binding Proteins, Liver Neoplasms, LGR5, Wnt signaling pathway, Cell Biology, medicine.disease, Wnt signaling, Intestine, Wnt Proteins, Gene expression profiling, Liver, Mutation, Immunology, Hepatocytes, Cancer research, Carrier Proteins, Colorectal Neoplasms, Liver cancer, Signal Transduction

Abstract

The activity of the Wnt pathway undergoes complex regulation to ensure proper functioning of this principal signaling mechanism during development of adult tissues. The regulation may occur at several levels and includes both positive and negative feedback loops. In the present study we employed one of such negative feedback regulators, naked cuticle homolog 1 (Nkd1), to follow the Wnt pathway activity in the intestine and liver and in neoplasia originated in these organs. Using lineage tracing in transgenic mice we localized Nkd1 mRNA to the bottom parts of the small intestinal crypts and hepatocytes surrounding the central vein of the hepatic lobule. Furthermore, in two mouse models of intestinal tumorigenesis, Nkd1 expression levels were elevated in tumors when compared to healthy tissue. We utilized a collection of human intestinal polyps and carcinomas to confirm that NKD1 represents a robust marker of neoplastic growth. In addition, expression analysis of NKD1 in liver cancer showed that high expression levels of the gene distinguish a subclass of hepatocellular carcinomas related to aberrant Wnt signaling. Finally, our results were confirmed by bioinformatic analysis of large publicly available datasets that included gene expression profiling and high-throughput sequencing data of human colon and liver cancer specimens.

Published

2015

20. Author response: One reporter for in-cell activity profiling of majority of protein kinase oncogenes

Author

Bohumil Fafilek, Jiri Mayer, Pavel Krejci, Iva Jelínková, Miroslav Varecha, Silvie Foldynová-Trantírková, Eva Hrubá, Barbora El Ghannamova, Michaela Bosakova, Lucie Jonatova, Lukas Balek, Iva Gudernova, and Lukáš Trantírek

Subjects

Activity profiling, Biology, Protein kinase A, Cell biology

Published

2017

21. Expression of the chicken GDNF family receptor α-1 as a marker of spermatogonial stem cells

Author

Bohumil Fafilek, H. Yan, J. Mucksová, Murray R. Bakst, Pavel Trefil, Barbora Benešová, Jiří Hejnar, J. P. Brillard, and Jiří Kalina

Subjects

Male, medicine.medical_specialty, Glial Cell Line-Derived Neurotrophic Factor Receptors, Genotype, Molecular Sequence Data, Heterologous, Spleen, Real-Time Polymerase Chain Reaction, Antibodies, Andrology, Endocrinology, Food Animals, Neurotrophic factors, Internal medicine, Testis, medicine, Glial cell line-derived neurotrophic factor, Animals, Amino Acid Sequence, Cloning, Molecular, Receptor, biology, General Medicine, Epithelium, Adult Stem Cells, medicine.anatomical_structure, Gene Expression Regulation, Polyclonal antibodies, biology.protein, Immunohistochemistry, Animal Science and Zoology, Biomarkers, Stem Cell Transplantation

Abstract

The identification, enrichment and subsequent isolation of spermatogonial stem cells (SSCs) are integral to the success of SCC transplants between fertile donor and sterilized recipient males. In birds generally and particularly in chicken, SSC-specific has yet to be identified. The receptor for glial cell-derived neurotrophic factor (GDNF), i.e. GDNF family receptor alpha-1 (GFRα1), has been identified as a potential marker for different mouse spermatogonial subtypes. In the present study, we characterized the chicken cGFRα1 receptor and compared its predicted amino-acid sequence with mouse, rat and human GFRα1 proteins. Using specific polyclonal mouse anti-cGFRα1 serum, a total of 2.8% cells were recognized as cGFRα1-positive among isolated testicular cells recovered from sexually mature cockerels. The percentages of cGFRα1-positive testicular cells with haploid, diploid, tetraploid and SP DNA content were 1.6%, 2.5%, 39.3% and 76.8%, respectively. The presence of cGFRα1 protein on the surfaces of all cells of the seminiferous epithelium was confirmed by immunocytochemical and immunohistochemical analyses. Tissue specificity of cGFRα1 mRNA expression was significantly higher in adult testes compared to brain tissue which itself was several times higher than tissues prepared from the spleen, liver and heart. No expression was observed in muscular tissue. At last, we demonstrated the successful repopulation of sterilized recipient's testes with transplanted cGFRα1-positive donor testicular cells. Recipient males subsequently produced functional heterologous spermatozoa capable of fertilizing an ovum and obtaining chicks with donor cell genotypes.

Published

2013

22. Statins do not inhibit the FGFR signaling in chondrocytes

Author

Miroslav Varecha, Marcela Buchtová, Iva Gudernova, M. Kunova Bosakova, Bohumil Fafilek, Iva Vesela, Pavel Krejci, Marek Hampl, N. Ricankova, and Lukas Balek

Subjects

musculoskeletal diseases, 0301 basic medicine, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Statin, Limb Buds, medicine.drug_class, Biomedical Engineering, Biology, Chondrocyte, Cell Line, Extracellular matrix, Tissue Culture Techniques, 03 medical and health sciences, Limb bud, Mice, Chondrocytes, Rheumatology, Internal medicine, medicine, Animals, Humans, Receptor, Fibroblast Growth Factor, Type 3, Orthopedics and Sports Medicine, Cells, Cultured, Tibia, Cell Differentiation, musculoskeletal system, Cell biology, Rats, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Fibroblast growth factor receptor, embryonic structures, lipids (amino acids, peptides, and proteins), Lovastatin, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Chondrogenesis, Pravastatin, medicine.drug, Fluvastatin, Signal Transduction

Abstract

Summary Objective Statins are widely used drugs for cholesterol lowering, which were recently found to counteract the effects of aberrant fibroblast growth factor receptor (FGFR3) signaling in cell and animal models of FGFR3-related chondrodysplasia. This opened an intriguing therapeutic possibility for human dwarfing conditions caused by gain-of-function mutations in FGFR3, although the mechanism of statin action on FGFR3 remains unclear. Here, we determine the effect of statins on FGFR signaling in chondrocytes. Design Cultured chondrocyte cell lines, mouse embryonic tibia cultures and limb bud micromasses were treated with FGF2 to activate FGFR signaling. The effects of atorvastatin, fluvastatin, lovastatin and pravastatin on FGFR3 protein stability and on FGFR-mediated chondrocyte growth-arrest, loss of extracellular matrix (ECM), induction of premature senescence and hypertrophic differentiation were evaluated. Results Statins did not alter the level of FGFR3 protein expression nor produce any effect on FGFR-mediated inhibition of chondrocyte proliferation and hypertrophic differentiation in cultured chondrocyte cell lines, mouse tibia cultures or limb bud micromasses. Conclusion We conclude that statins do not inhibit the FGFR signaling in chondrocytes. Therefore the statin-mediated rescue of FGFR3-related chondrodysplasia, described before, is likely not intrinsic to the growth plate cartilage.

Published

2016

23. Dazap2 modulates transcription driven by the Wnt effector TCF-4

Author

Bohumil Fafilek, Petr Mazna, Jan Lukas, Lenka Doubravska, Jakub Novák, Robert Ivanek, Vladimir Korinek, Martina Vojtechova, Jiri Plachy, Vendula Pospichalova, and Tomas Valenta

Subjects

Beta-catenin, animal structures, Transcription, Genetic, Biology, Gene Regulation, Chromatin and Epigenetics, TCF/LEF family, DNA-binding protein, Cell Line, Mice, Transcription Factor 4, Genetics, Animals, Humans, Promoter Regions, Genetic, Transcription factor, beta Catenin, Regulation of gene expression, Binding Sites, Effector, Basic Helix-Loop-Helix Leucine Zipper Transcription Factors, Wnt signaling pathway, RNA-Binding Proteins, DNA-Binding Proteins, Wnt Proteins, Gene Expression Regulation, Gene Knockdown Techniques, embryonic structures, biology.protein, Chromatin immunoprecipitation, Transcription Factors

Abstract

A major outcome of the canonical Wnt/beta-catenin-signalling pathway is the transcriptional activation of a specific set of target genes. A typical feature of the transcriptional response induced by Wnt signalling is the involvement of Tcf/Lef factors that function in the nucleus as the principal mediators of signalling. Vertebrate Tcf/Lef proteins perform two well-characterized functions: in association with beta-catenin they activate gene expression, and in the absence of Wnt ligands they bind TLE/Groucho proteins to act as transcriptional repressors. Although the general characteristics of Tcf/Lef factors are well understood, the mechanisms that control their specific roles in various cellular backgrounds are much less defined. In this report we reveal that the evolutionary conserved Dazap2 protein functions as a TCF-4 interacting partner. We demonstrate that a short region proximal to the TCF-4 HMG box mediates the interaction and that all Tcf/Lef family members associate with Dazap2. Interestingly, knockdown of Dazap2 not only reduced the activity of Wnt signalling as measured by Tcf/beta-catenin reporters but additionally altered the expression of Wnt-signalling target genes. Finally, chromatin immunoprecipitation studies indicate that Dazap2 modulates the affinity of TCF-4 for its DNA-recognition motif.

Published

2009

24. HIC1 attenuates Wnt signaling by recruitment of TCF-4 and β-catenin to the nuclear bodies

Author

Jan Lukas, Vladimir Korinek, Tomas Valenta, Bohumil Fafilek, and Lenka Doubravska

Subjects

Beta-catenin, Transcription, Genetic, Kruppel-Like Transcription Factors, Biology, Article, General Biochemistry, Genetics and Molecular Biology, Mice, Axin Protein, RNA interference, Transcription (biology), Animals, Humans, Promoter Regions, Genetic, Molecular Biology, Transcription factor, beta Catenin, Cell Nucleus, Regulation of gene expression, General Immunology and Microbiology, General Neuroscience, Wnt signaling pathway, Molecular biology, Cell biology, DNA-Binding Proteins, Wnt Proteins, Cytoskeletal Proteins, Gene Expression Regulation, Culture Media, Conditioned, Catenin, biology.protein, RNA Interference, TCF Transcription Factors, Haploinsufficiency, Transcription Factor 7-Like 2 Protein, Protein Binding, Signal Transduction, Transcription Factors

Abstract

The hypermethylated in cancer 1 (HIC1) gene is epigenetically inactivated in cancer, and in addition, the haploinsufficiency of HIC1 is linked to the development of human Miller-Dieker syndrome. HIC1 encodes a zinc-finger transcription factor that acts as a transcriptional repressor. Additionally, the HIC1 protein oligomerizes via the N-terminal BTB/POZ domain and forms discrete nuclear structures known as HIC1 bodies. Here, we provide evidence that HIC1 antagonizes the TCF/beta-catenin-mediated transcription in Wnt-stimulated cells. This appears to be due to the ability of HIC1 to associate with TCF-4 and to recruit TCF-4 and beta-catenin to the HIC1 bodies. As a result of the recruitment, both proteins are prevented from association with the TCF-binding elements of the Wnt-responsive genes. These data indicate that the intracellular amounts of HIC1 protein can modulate the level of the transcriptional stimulation of the genes regulated by canonical Wnt/beta-catenin signaling.

Published

2006

25. Troy, a tumor necrosis factor receptor family member, interacts with lgr5 to inhibit wnt signaling in intestinal stem cells

Author

Milan Jirsa, Ludek Voska, Helena Tlaskalova Hogenova, Martina Huranova, Klara Klimesova, Jiri Svec, Adela Hlavata, Bohumil Fafilek, Vendula Pospichalova, Jan Pačes, Lucie Tumova, Michal Kolar, Ondrej Luksan, Jitka Stancikova, Michaela Krausova, Martina Vojtechova, Eva Sloncova, Vladimir Korinek, Radislav Sedlacek, Martin Oliverius, and Maria Krivjanska

Subjects

Male, Beta-catenin, Adenomatous polyposis coli, Apoptosis, Biology, Receptors, Tumor Necrosis Factor, Receptors, G-Protein-Coupled, Mice, Cell Line, Tumor, Animals, Humans, RNA, Neoplasm, Intestinal Mucosa, Wnt Signaling Pathway, In Situ Hybridization, Cell Proliferation, Oligonucleotide Array Sequence Analysis, Hepatology, Reverse Transcriptase Polymerase Chain Reaction, Gastroenterology, Wnt signaling pathway, LGR5, LRP6, LRP5, Neoplasms, Experimental, Intestinal epithelium, Molecular biology, Immunohistochemistry, Cell biology, Gene Expression Regulation, Neoplastic, Mice, Inbred C57BL, Cell Transformation, Neoplastic, biology.protein, Neoplastic Stem Cells, Stem cell, Colorectal Neoplasms

Abstract

Background & Aims The Wnt signaling pathway is required for maintenance of the intestinal epithelia; blocking this pathway reduces the proliferative capacity of the intestinal stem cells. However, aberrant Wnt signaling leads to intestinal cancer. We investigated the roles of the Wnt pathway in homeostasis of the intestinal epithelium and during malignant transformation in human cells and mice. Methods We performed chromatin immunoprecipitation (ChIP) with DNA microarray analysis (ChIP-on-chip) to identify genes regulated by Wnt signaling in human colorectal cancer cells Colo320, DLD1, LS174T, and SW480. Formation of intestinal tumor was induced in C57BL/6J mice using azoxymethane and dextran sulfate. Intestinal tissues from these mice, as well as Apc +/Min and Apc CKO/CKO /Lgr5-EGFP-IRES-CreERT2 mice, were analyzed by immunohistochemistry and in situ hybridization. Results We identified promoter regions of 960 genes that interacted with the Wnt pathway nuclear effector T-cell factor 4 in 4 different human colorectal cancer–derived cell lines; 18 of these promoters were present in all chromatin precipitates. Wnt signaling up-regulated a member of the tumor necrosis factor receptor superfamily called TROY. Levels of TROY messenger RNA were increased in human cells with deficiencies in the adenomatous polyposis coli ( APC ) gene and in cells stimulated with the Wnt3a ligand. Expression of Troy was significantly up-regulated in neoplastic tissues from mice during intestinal tumorigenesis. Lineage tracing experiments revealed that Troy is produced specifically by fast-cycling intestinal stem cells. TROY associated with a unique marker of these cells, leucine-rich repeat-containing G-protein coupled receptor (LGR) 5. In organoids established from the intestinal crypts, Troy suppressed signaling mediated by R-spondin, a Wnt agonist. Conclusions TROY is up-regulated in human colorectal cancer cell lines and in intestinal tumors in mice. It functions as a negative modulator of the Wnt pathway in LGR5-positive stem cells.

Published

2011

26. Generation of two modified mouse alleles of the Hic1 tumor suppressor gene

Author

Michaela Krausova, Jolana Tureckova, Jan Lukas, Vladimir Korinek, Bohumil Fafilek, Martina Vojtechova, Sylvia Takacova, Vendula Pospichalova, Jiri Plachy, Eva Sloncova, Dominique Leprince, and Vladimir Divoky

Subjects

Male, Tumor suppressor gene, Transgene, Kruppel-Like Transcription Factors, Cre recombinase, Locus (genetics), Mice, Transgenic, Biology, Mice, Endocrinology, Genes, Reporter, Genetics, Animals, Genes, Tumor Suppressor, Gene, Alleles, Regulation of gene expression, Integrases, Gene targeting, Gene Expression Regulation, Developmental, Cell Biology, Embryo, Mammalian, Null allele, Molecular biology, DNA-Binding Proteins, Gene Targeting, Female, Gene Deletion, Transcription Factors

Abstract

HIC1 (hypermethylated in cancer 1) is a tumor suppressor gene located on chromosome 17p13.3, a region frequently hypermethylated or deleted in human neoplasias. In mouse, Hic1 is essential for embryonic development and exerts an antitumor role in adult animals. Since Hic1-deficient mice die perinatally, we generated a conditional Hic1 null allele by flanking the Hic1-coding region by loxP sites. When crossed to animals expressing Cre recombinase in a cell-specific manner, the Hic1 conditional mice will provide new insights into the function of Hic1 in developing and mature tissues. Additionally, we used gene targeting to replace sequence-encoding amino acids 186-893 of Hic1 by citrine fluorescent protein cDNA. We demonstrate that the distribution of Hic1-citrine fusion polypeptide corresponds to the expression pattern of wild-type Hic1. Consequently, Hic1-citrine "reporter" mice can be used to monitor the activity of the Hic1 locus using citrine fluorescence.

Published

2011

27. Fatty acid modification of Wnt1 and Wnt3a at serine is prerequisite for lipidation at cysteine and is essential for Wnt signalling

Author

Jan Lukas, Vladimir Korinek, Tomas Valenta, Ondrej Sebesta, Vendula Pospichalova, Lucie Tumova, Bohumil Fafilek, Jiri Plachy, Martina Vojtechova, Lenka Doubravska, Michaela Krausova, and Dietmar Gradl

Subjects

animal structures, Lipoylation, Xenopus, Molecular Sequence Data, Embryonic Development, Lipid-anchored protein, Wnt1 Protein, Biology, Xenopus Proteins, Cell Line, Serine, Wnt3 Protein, chemistry.chemical_compound, Mice, Wnt3A Protein, Extracellular, Animals, Humans, Amino Acid Sequence, Cysteine, Cysteine metabolism, Wnt signaling pathway, Cell Biology, biology.organism_classification, Rats, Wnt Proteins, chemistry, Biochemistry, Amino Acid Substitution, embryonic structures, Mutation

Abstract

The Wnt family of proteins is a group of extracellular signalling molecules that regulate cell-fate decisions in developing and adult tissues. It is presumed that all 19 mammalian Wnt family members contain two types of post-translational modification: the covalent attachment of fatty acids at two distinct positions, and the N-glycosylation of multiple asparagines. We examined how these modifications contribute to the secretion, extracellular movement and signalling activity of mouse Wnt1 and Wnt3a ligands. We revealed that O-linked acylation of serine is required for the subsequent S-palmitoylation of cysteine. As such, mutant proteins that lack the crucial serine residue are not lipidated. Interestingly, although double-acylation of Wnt1 was indispensable for signalling in mammalian cells, in Xenopus embryos the S-palmitoyl-deficient form retained the signalling activity. In the case of Wnt3a, the functional duality of the attached acyls was less prominent, since the ligand lacking S-linked palmitate was still capable of signalling in various cellular contexts. Finally, we show that the signalling competency of both Wnt1 and Wnt3a is related to their ability to associate with the extracellular matrix.

Published

2010