Your search keyword '"Petr Müller"' showing total 61 results

1. Catechol-O-methyl transferase suppresses cell invasion and interplays with MET signaling in estrogen dependent breast cancer

Author

Lucia Janacova, Michaela Stenckova, Petr Lapcik, Sarka Hrachovinova, Pavla Bouchalova, David Potesil, Roman Hrstka, Petr Müller, and Pavel Bouchal

Subjects

Multidisciplinary, Breast cancer, Cell invasion, Protein–protein interaction networks, Proteomics, RNA

Abstract

Catechol-O-methyl transferase (COMT) is involved in detoxification of catechol estrogens, playing cancer-protective role in cells producing or utilizing estrogen. Moreover, COMT suppressed migration potential of breast cancer (BC) cells. To delineate COMT role in metastasis of estrogen receptor (ER) dependent BC, we investigated the effect of COMT overexpression on invasion, transcriptome, proteome and interactome of MCF7 cells, a luminal A BC model, stably transduced with lentiviral vector carrying COMT gene (MCF7-COMT). 2D and 3D assays revealed that COMT overexpression associates with decreased cell invasion (p p FTO, PIR, TACSTD2, ANXA3, KRT80, S100P, PREX1, CLEC3A, LCP1) being downregulated in MCF7-COMT cells, while genes associated with less aggressive phenotype (RBPMS, ROBO2, SELENBP, EPB41L2) were upregulated both at transcript (|log2FC|> 1, adj. p 0.58, q q = 1.04−7). In conclusion, COMT may act as tumor suppressor in ER dependent BC not only by detoxification of catechol estrogens but also by suppressing cell invasion and interplay with MET pathway.

Published

2023

2. Renal artery pseudoaneurysm after open renal enucleation

Author

Petr Müller

Subjects

General Medicine

Published

2022

3. Hydrogen deuterium exchange mass spectrometry identifies the dominant paratope in CD20 antigen binding to the NCD1.2 monoclonal antibody

Author

Lukas Uhrik, Kathryn L. Ball, Maciej Parys, David Argyle, Chris Nortcliffe, Barbara C. Ruetgen, Umesh Kalathiya, Borivoj Vojtesek, Pavlína Zatloukalová, Marta Nekulova, Mikolaj Kocikowski, Małgorzata Lisowska, Lenka Hernychová, Jakub Faktor, Ted R. Hupp, Robin Fåhraeus, and Petr Müller

Subjects

Protein Engineering, Biochemistry, Molecular Bases of Health & Disease, law.invention, 0302 clinical medicine, Structural Biology, Tandem Mass Spectrometry, law, Comparative medicine, Diagnostics & Biomarkers, Research Articles, Cancer, 0303 health sciences, Molecular Interactions, biology, Chemistry, Antibodies, Monoclonal, IgG binding, 030220 oncology & carcinogenesis, Recombinant DNA, Antibody, Immunoglobulin Heavy Chains, medicine.drug_class, Recombinant Fusion Proteins, Omics, Hydrogen Deuterium Exchange-Mass Spectrometry, lymphoma, chemical and pharmacologic phenomena, Monoclonal antibody, Immunoglobulin light chain, 03 medical and health sciences, hydrogen deuterium exchange mass spectrometry, Dogs, Antigen, Peptide Library, Cell Line, Tumor, medicine, Animals, Humans, CD20, Amino Acid Sequence, Molecular Biology, 030304 developmental biology, Cell Biology, Antigens, CD20, Molecular biology, Kinetics, monoclonal antibody, Immunoglobulin G, biology.protein, hydrogen deuterium, Immunoglobulin Light Chains, exchange mass spectrometry, Hydrogen–deuterium exchange, Paratope, Binding Sites, Antibody, comparative medicine, Chromatography, Liquid

Abstract

A comparative canine–human therapeutics model is being developed in B-cell lymphoma through the generation of a hybridoma cell that produces a murine monoclonal antibody specific for canine CD20. The hybridoma cell produces two light chains, light chain-3, and light chain-7. However, the contribution of either light chain to the authentic full-length hybridoma derived IgG is undefined. Mass spectrometry was used to identify only one of the two light chains, light chain-7, as predominating in the full-length IgG. Gene synthesis created a recombinant murine–canine chimeric monoclonal antibody expressing light chain-7 that reconstituted the IgG binding to CD20. Using light chain-7 as a reference sequence, hydrogen deuterium exchange mass spectrometry was used to identify the dominant CDR region implicated in CD20 antigen binding. Early in the deuteration reaction, the CD20 antigen suppressed deuteration at CDR3 (VH). In later time points, deuterium suppression occurred at CDR2 (VH) and CDR2 (VL), with the maintenance of the CDR3 (VH) interaction. These data suggest that CDR3 (VH) functions as the dominant antigen docking motif and that antibody aggregation is induced at later time points after antigen binding. These approaches define a methodology for fine mapping of CDR contacts using nested enzymatic reactions and hydrogen deuterium exchange mass spectrometry. These data support the further development of an engineered, synthetic canine–murine monoclonal antibody, focused on CDR3 (VH), for use as a canine lymphoma therapeutic that mimics the human–murine chimeric anti-CD20 antibody Rituximab.

Published

2021

4. Impairment of carbonic anhydrase IX ectodomain cleavage reinforces tumorigenic and metastatic phenotype of cancer cells

Author

Silvia Pastorekova, Tereza Golias, Jaromir Pastorek, Ivana Kajanova, Andreas Ludwig, Lucia Csaderova, Miriam Zatovicova, Petr Müller, Martina Labudova, Monika Barathova, Borivoj Vojtesek, Lubomira Lukacikova, Olga Sedlakova, Lenka Jelenska, Michaela Debreova, Katarina Grossmannova, and Eliska Svastova

Subjects

Cancer microenvironment, Cancer Research, Carcinogenesis, Cell, ADAM17 Protein, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Neoplasms, medicine, Extracellular, Animals, Humans, Neoplasm Invasiveness, Carbonic Anhydrase IX, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Chemistry, Cell migration, Transmembrane protein, In vitro, Cell biology, Mice, Inbred C57BL, Phenotype, Mechanisms of disease, medicine.anatomical_structure, Enzyme, Oncology, Ectodomain, 030220 oncology & carcinogenesis, Cancer cell

Abstract

British journal of cancer : BJC 122(11), 1590-1603 (2020). doi:10.1038/s41416-020-0804-z, Published by Nature Publ. Group, Edinburgh

Published

2020

5. An Ultrasensitive Biosensor for Detection of Femtogram Levels of the Cancer Antigen AGR2 Using Monoclonal Antibody Modified Screen-Printed Gold Electrodes

Author

Zofia Cebula, Ted R. Hupp, Karolina Dziąbowska, Daniel Bigus, Natalia Malinowska, Elżbieta Czaczyk, Borivoj Vojtesek, Radovan Krejcir, Wioleta Białobrzeska, Katarzyna Pala, M. Aiman Mohtar, Małgorzata Lisowska, Petr Müller, Dawid Nidzworski, Sabina Żołędowska, Robert O’Neill, Ewelina Bięga, Białobrzeska, Wioleta [0000-0001-7662-1880], Dziąbowska, Karolina [0000-0002-0226-3635], Lisowska, Małgorzata [0000-0003-4858-9312], Mohtar, M Aiman [0000-0002-9015-9802], Vojtesek, Borivoj [0000-0001-6194-3705], Krejcir, Radovan [0000-0002-8475-1228], O'Neill, Robert [0000-0003-2230-7137], Hupp, Ted R [0000-0003-0391-0352], Malinowska, Natalia [0000-0001-9146-9565], Bięga, Ewelina [0000-0002-2216-5493], Bigus, Daniel [0000-0001-8477-3761], Czaczyk, Elżbieta [0000-0002-6149-0651], and Apollo - University of Cambridge Repository

Subjects

medicine.drug_class, Clinical Biochemistry, AGR2, Metal Nanoparticles, Biosensing Techniques, AGR2 protein, Monoclonal antibody, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, Mucoproteins, Antigen, law, sensor, Limit of Detection, Neoplasms, medicine, Humans, Protein disulfide-isomerase, Electrodes, 030304 developmental biology, Oncogene Proteins, 0303 health sciences, Chromatography, Chemistry, Cancer, Antibodies, Monoclonal, General Medicine, Electrochemical Techniques, medicine.disease, electrochemical impedance spectroscopy, 030220 oncology & carcinogenesis, Electrode, Recombinant DNA, screen-printed gold electrode, Gold, Biosensor, TP248.13-248.65, Biotechnology

Abstract

The detection of cancer antigens is a major aim of cancer research in order to develop better patient management through early disease detection. Many cancers including prostate, lung, and ovarian secrete a protein disulfide isomerase protein named AGR2 that has been previously detected in urine and plasma using mass spectrometry. Here we determine whether a previously developed monoclonal antibody targeting AGR2 can be adapted from an indirect two-site ELISA format into a direct detector using solid-phase printed gold electrodes. The screen-printed gold electrode was surface functionalized with the anti-AGR2 specific monoclonal antibody. The interaction of the recombinant AGR2 protein and the anti-AGR2 monoclonal antibody functionalized electrode changed its electrochemical impedance spectra. Nyquist diagrams were obtained after incubation in an increasing concentration of purified AGR2 protein with a range of concentrations from 0.01 fg/mL to 10 fg/mL. In addition, detection of the AGR2 antigen can be achieved from cell lysates in medium or artificial buffer. These data highlight the utility of an AGR2-specific monoclonal antibody that can be functionalized onto a gold printed electrode for a one-step capture and quantitation of the target antigen. These platforms have the potential for supporting methodologies using more complex bodily fluids including plasma and urine for improved cancer diagnostics.

Published

2021

6. Protocol for subcellular targeted microthermal protein damage in cells cultivated on plasmonic nanosilver-modified surfaces

Author

Martin Mistrik, Zdenek Skrott, Veronika Vandová, Libor Kvítek, Katarina Chroma, Petr Müller, Tereza Buchtova, Aleš Panáček, Lucie Hochvaldová, and Jiri Bartek

Subjects

Microthermal, Chemistry, Nanotechnology, Plasmon

Abstract

Despite proteotoxic stress and heat shock are implicated in diverse pathologies, currently no methodology to inflict defined, subcellular thermal damage exists. Here, we present a protocol for such a single-cell method compatible with laser-scanning microscopes, adopting the plasmon resonance principle. The method is based on modified microscopic cell culture plates, pre-coated by a layer of anisotropic silver NPs allowing excitation through targeted irradiation by conventional lasers used in the laser scanning microscopes and allowing controllable heating. Dose-defined heat causes protein damage in subcellular compartments, rapid heat-shock chaperones recruitment and stress signalling, thereby allowing unprecedented spatiotemporal analysis of thermal damage with broad applicability in biomedicine.

Published

2021

7. Microthermal-induced subcellular-targeted protein damage in cells on plasmonic nanosilver-modified surfaces evokes a two-phase HSP-p97/VCP response

Author

Martin Mistrik, Tereza Buchtova, Lucie Hochvaldová, Katarina Chroma, Jiri Bartek, Veronika Vandová, Aleš Panáček, Petr Müller, Libor Kvítek, and Zdenek Skrott

Subjects

Proteasome Endopeptidase Complex, Hot Temperature, Silver, Ubiquitylation, Science, General Physics and Astronomy, Metal Nanoparticles, General Biochemistry, Genetics and Molecular Biology, Article, law.invention, Ubiquitin, Confocal microscopy, law, Valosin Containing Protein, Cell Line, Tumor, Chaperones, Translocase, Humans, HSP70 Heat-Shock Proteins, Heat shock, Surface plasmon resonance, Plasmon, Multidisciplinary, biology, Chemistry, General Chemistry, Surface Plasmon Resonance, Hsp70, Cell biology, Protein quality control, Chaperone (protein), biology.protein, Single-Cell Analysis, Heat-Shock Response

Abstract

Despite proteotoxic stress and heat shock being implicated in diverse pathologies, currently no methodology to inflict defined, subcellular thermal damage exists. Here, we present such a single-cell method compatible with laser-scanning microscopes, adopting the plasmon resonance principle. Dose-defined heat causes protein damage in subcellular compartments, rapid heat-shock chaperone recruitment, and ensuing engagement of the ubiquitin–proteasome system, providing unprecedented insights into the spatiotemporal response to thermal damage relevant for degenerative diseases, with broad applicability in biomedicine. Using this versatile method, we discover that HSP70 chaperone and its interactors are recruited to sites of thermally damaged proteins within seconds, and we report here mechanistically important determinants of such HSP70 recruitment. Finally, we demonstrate a so-far unsuspected involvement of p97(VCP) translocase in the processing of heat-damaged proteins. Overall, we report an approach to inflict targeted thermal protein damage and its application to elucidate cellular stress-response pathways that are emerging as promising therapeutic targets., Existing methods for inflicting cellular heat shock are limited by the time delay in achieving the desired temperature and the spatial precision that can be achieved. Here the authors report a method to induce focused thermal protein damage using plasmonic silver nanoparticles.

Published

2020

8. The MDM2 ligand Nutlin-3 differentially alters expression of the immune blockade receptors PD-L1 and CD276

Author

Yaxin Wang, Pavlína Zatloukalová, Simon Wilkinson, Alain J. Kemp, Maria Gil-Mir, Sachin Kote, Kathryn L. Ball, Borivoj Vojtesek, Petr Müller, Ted R. Hupp, Kaixiong Tao, Lenka Hernychová, and Ruidong Li

Subjects

0301 basic medicine, p53, B7 Antigens, Protein-protein interactions, Receptor expression, Cell, Gene editing, Ligands, Biochemistry, B7-H1 Antigen, Piperazines, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Immune system, MDM2, Cell Line, Tumor, medicine, Humans, lcsh:QH573-671, Receptor, Molecular Biology, Melanoma, Cell Proliferation, A549 cell, lcsh:Cytology, Chemistry, Research, Cell Cycle, Imidazoles, Nutlin-3, Proto-Oncogene Proteins c-mdm2, Cell Biology, Nutlin, HCT116 Cells, Immune checkpoint, Cell biology, Up-Regulation, 030104 developmental biology, medicine.anatomical_structure, A549 Cells, 030220 oncology & carcinogenesis, Cancer cell, Tumor Suppressor Protein p53

Abstract

Background The links between the p53/MDM2 pathway and the expression of pro-oncogenic immune inhibitory receptors in tumor cells are undefined. In this report, we evaluate whether there is p53 and/or MDM2 dependence in the expression of two key immune receptors, CD276 and PD-L1. Methods Proximity ligation assays were used to quantify protein-protein interactions in situ in response to Nutlin-3. A panel of p53-null melanoma cells was created using CRISPR-Cas9 guide RNA mediated genetic ablation. Flow cytometric analyses were used to assess the impact of TP53 or ATG5 gene ablation, as well as the effects of Nutlin-3 and an ATM inhibitor on cell surface PD-L1 and CD276. Targeted siRNA was used to deplete CD276 to assess changes in cell cycle parameters by flow cytometry. A T-cell proliferation assay was used to assess activity of CD4+ T-cells as a function of ATG5 genotype. Results CD276 forms protein-protein interactions with MDM2 in response to Nutlin-3, similar to the known MDM2 interactors p53 and HSP70. Isogenic HCT116 p53-wt/null cancer cells demonstrated that CD276 is induced on the cell surface by Nutlin-3 in a p53-dependent manner. PD-L1 was also unexpectedly induced by Nutlin-3, but PD-L1 does not bind MDM2. The ATM inhibitor KU55993 reduced the levels of PD-L1 under conditions where Nutlin-3 induces PD-L1, indicating that MDM2 and ATM have opposing effects on PD-L1 steady-state levels. PD-L1 is also up-regulated in response to genetic ablation of TP53 in A375 melanoma cell clones under conditions in which CD276 remains unaffected. A549 cells with a deletion in the ATG5 gene up-regulated only PD-L1, further indicating that PD-L1 and CD276 are under distinct genetic control. Conclusion Genetic inactivation of TP53, or the use of the MDM2 ligand Nutlin-3, alters the expression of the immune blockade receptors PD-L1 and CD276. The biological function of elevated CD276 is to promote altered cell cycle progression in response to Nutlin-3, whilst the major effect of elevated PD-L1 is T-cell suppression. These data indicate that TP53 gene status, ATM and MDM2 influence PD-L1 and CD276 paralogs on the cell surface. These data have implications for the use of drugs that target the p53 pathway as modifiers of immune checkpoint receptor expression.

Published

2020

9. Tomm34 is commonly expressed in epithelial ovarian cancer and associates with tumour type and high FIGO stage

Author

Filip Trčka, Josef Chovanec, Petr Müller, Veronika Brychtová, Rudolf Nenutil, Philip J. Coates, Roman Hrstka, and Borivoj Vojtesek

Subjects

Adult, 0301 basic medicine, Mutant, Chaperone, Carcinoma, Ovarian Epithelial, Mitochondrial Membrane Transport Proteins, lcsh:Gynecology and obstetrics, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Mitochondrial Precursor Protein Import Complex Proteins, Biomarkers, Tumor, medicine, Humans, Tomm34, Gene, lcsh:RG1-991, Aged, Neoplasm Staging, Aged, 80 and over, Ovarian Neoplasms, Lung, Heat shock protein, business.industry, Research, Ovary, Obstetrics and Gynecology, Middle Aged, Epithelial ovarian cancer, Prognosis, medicine.disease, Immunohistochemistry, 3. Good health, Serous fluid, 030104 developmental biology, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Mutation, Disease Progression, Cancer research, Female, Tumor Suppressor Protein p53, Tumour, Ovarian cancer, business, Clear cell

Abstract

Background Increased activity of the chaperones Hsp70 and Hsp90 is a common feature of solid tumours. Translocase of the outer mitochondrial membrane 34 (Tomm34) is a cochaperone of both Hsp70 and Hsp90 that was found to be overexpressed in colorectal, hepatocellular, lung and breast carcinomas. The expression profile of Tomm34 in ovarian cancer has not been investigated. Therefore, the aim of the current study was to investigate the expression pattern of Tomm34 in ovarian carcinomas and analyse its correlation with clinico-pathological parameters. Results Epithelial ovarian cancers (140) were histologically classified based on their morphology and graded into two types comprising 5 histologic subgroups. Type I carcinomas comprise low grade serous (LGSC), clear cell (CCOC) and endometrioid (ENOC), type II comprises high grade serous carcinomas (HGSC) and solid, pseudoendometrioid, transitional carcinomas (SET). Tomm34 was more highly expressed in type II than type I carcinomas (p

Published

2019

10. The effects of p53 gene inactivation on mutant proteome expression in a human melanoma cell model

Author

J. Robert O’Neill, Giuseppa Grasso, Marcos Yebenes Mayordomo, Jakub Faktor, Małgorzata Kurkowiak, Borek Vojtesek, David R. Goodlett, Filip Zavadil Kokas, Ashita Singh, Petr Müller, Sachin Kote, Ted R. Hupp, and Li Ruidong

Subjects

Protein mass spectrometry, Proteome, Mutant, Biophysics, Proteomics, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Mutant protein, Cell Line, Tumor, Humans, Gene Silencing, Molecular Biology, Gene, Melanoma, 030304 developmental biology, Proteogenomics, 0303 health sciences, Chemistry, RNA, Cell biology, Gene Expression Regulation, Neoplastic, 030220 oncology & carcinogenesis, Mutation, Tumor Suppressor Protein p53, DNA

Abstract

Background The identification of mutated proteins in human cancer cells-termed proteogenomics, requires several technologically independent research methodologies including DNA variant identification, RNA sequencing, and mass spectrometry. Any one of these methodologies are not optimized for identifying potential mutated proteins and any one output fails to cover completely a specific landscape. Methods An isogenic melanoma cell with a p53-null genotype was created by CRISPR/CAS9 system to determine how p53 gene inactivation affects mutant proteome expression. A mutant peptide reference database was developed by comparing two distinct DNA and RNA variant detection platforms using these isogenic cells. Chemically fractionated tryptic peptides from lysates were processed using a TripleTOF 5600+ mass spectrometer and their spectra were identified against this mutant reference database. Results Approximately 190 mutated peptides were enriched in wt-p53 cells, 187 mutant peptides were enriched in p53-null cells, with an overlap of 147 mutated peptides. STRING analysis highlighted that the wt-p53 cell line was enriched for mutant protein pathways such as CDC5L and POLR1B, whilst the p53-null cell line was enriched for mutated proteins comprising EGF/YES, Ubiquitination, and RPL26/5 nodes. Conclusion Our study produces a well annotated p53-dependent and p53-independent mutant proteome of a common melanoma cell line model. Coupled to the application of an integrated DNA and RNA variant detection platform (CLCbio) and software for identification of proteins (ProteinPilot), this pipeline can be used to detect high confident mutant proteins in cells. General significance This pipeline forms a blueprint for identifying mutated proteins in diseased cell systems.

Published

2020

11. p53 promotes its own polyubiquitination by enhancing the HDM2 and HDMX interaction

Author

Vanesa Olivares-Illana, Robin Fåhraeus, Jesús Hernandez-Monge, Ixaura Medina-Medina, Petr Müller, and Mayra Martínez-Sánchez

Subjects

0301 basic medicine, Multiprotein complex, biology, Chemistry, Allosteric regulation, P53 Tumor Suppressor, Biochemistry, Cell biology, Ubiquitin ligase, 03 medical and health sciences, 030104 developmental biology, Ubiquitin, Molecular mechanism, biology.protein, Molecular Biology, P53 binding

Abstract

HDM2 and HDMX are two homologs essential for controlling p53 tumor suppressor activity under normal conditions. Both proteins bind different sites on the p53 N-terminus, and while HDM2 has E3 ubiquitin ligase activity towards p53, HDMX does not. Nevertheless, HDMX is required for p53 polyubiquitination and degradation, but the underlying molecular mechanism remains unclear. Alone, HDMX and HDM2 interact via their respective C-terminal RING domains but here we show that the presence of p53 induces an N-terminal interface under normal cellular conditions. This results in an increase in HDM2-mediated p53 polyubiquitination and degradation. The HDM2 inhibitor Nutlin-3 binds the N-terminal p53 binding pocket and is sufficient to induce the HDM2-HDMX interaction, suggesting that the mechanism depends on allosteric changes that control the multiprotein complex formation. These results demonstrate an allosteric interchange between three different proteins (HDMX-HDM2-p53) and help to explain the molecular mechanisms of HDM2-inhibitory drugs.

Published

2018

12. Evidence for allosteric effects on p53 oligomerization induced by phosphorylation

Author

Borivoj Vojtesek, Oliver Simoncik, Ted R. Hupp, Petr Müller, Miroslav Fojta, David P. Lane, and Juliana M. Chan

Subjects

0301 basic medicine, Conformational change, biology, Chemistry, Allosteric regulation, Protein domain, Intrinsically disordered proteins, Biochemistry, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Protein structure, Allosteric enzyme, 030220 oncology & carcinogenesis, biology.protein, Biophysics, Phosphorylation, Protein folding, Molecular Biology

Abstract

p53 is a tetrameric protein with a thermodynamically unstable deoxyribonucleic acid (DNA)-binding domain flanked by intrinsically disordered regulatory domains that control its activity. The unstable and disordered segments of p53 allow high flexibility as it interacts with binding partners and permits a rapid on/off switch to control its function. The p53 tetramer can exist in multiple conformational states, any of which can be stabilized by a particular modification. Here, we apply the allostery model to p53 to ask whether evidence can be found that the "activating" C-terminal phosphorylation of p53 stabilizes a specific conformation of the protein in the absence of DNA. We take advantage of monoclonal antibodies for p53 that measure indirectly the following conformations: unfolded, folded, and tetrameric. A double antibody capture enzyme linked-immunosorbent assay was used to observe evidence of conformational changes of human p53 upon phosphorylation by casein kinase 2 in vitro. It was demonstrated that oligomerization and stabilization of p53 wild-type conformation results in differential exposure of conformational epitopes PAb1620, PAb240, and DO12 that indicates a reduction in the "unfolded" conformation and increases in the folded conformation coincide with increases in its oligomerization state. These data highlight that the oligomeric conformation of p53 can be stabilized by an activating enzyme and further highlight the utility of the allostery model when applied to understanding the regulation of unstable and intrinsically disordered proteins.

Published

2017

13. The interaction of the mitochondrial protein importer TOMM34 with HSP70 is regulated by TOMM34 phosphorylation and binding to 14-3-3 adaptors

Author

Oliver Simoncik, Daniel Kavan, Pavla Vankova, Petr Müller, Petr Man, Filip Trčka, Michal Durech, Borivoj Vojtesek, and Veronika Vandová

Subjects

0301 basic medicine, HSP72 Heat-Shock Proteins, Plasma protein binding, Biochemistry, Mitochondrial Membrane Transport Proteins, Protein–protein interaction, Mitochondrial Proteins, 03 medical and health sciences, Mitochondrial Precursor Protein Import Complex Proteins, Translocase, Humans, HSP70 Heat-Shock Proteins, HSP90 Heat-Shock Proteins, Phosphorylation, Protein kinase A, Molecular Biology, 030102 biochemistry & molecular biology, biology, Chemistry, Cell Biology, Cyclic AMP-Dependent Protein Kinases, Transport protein, DNA-Binding Proteins, Tetratricopeptide, 030104 developmental biology, 14-3-3 Proteins, Mitochondrial Membranes, Protein Structure and Folding, biology.protein, Biophysics, MCF-7 Cells, Protein folding, Molecular Chaperones, Protein Binding, Signal Transduction, Transcription Factors

Abstract

Translocase of outer mitochondrial membrane 34 (TOMM34) orchestrates heat shock protein 70 (HSP70)/HSP90–mediated transport of mitochondrial precursor proteins. Here, using in vitro phosphorylation and refolding assays, analytical size-exclusion chromatography, and hydrogen/deuterium exchange MS, we found that TOMM34 associates with 14-3-3 proteins after its phosphorylation by protein kinase A (PKA). PKA preferentially targeted two serine residues in TOMM34: Ser(93) and Ser(160), located in the tetratricopeptide repeat 1 (TPR1) domain and the interdomain linker, respectively. Both of these residues were necessary for efficient 14-3-3 protein binding. We determined that phosphorylation-induced structural changes in TOMM34 are further augmented by binding to 14-3-3, leading to destabilization of TOMM34's secondary structure. We also observed that this interaction with 14-3-3 occludes the TOMM34 interaction interface with ATP-bound HSP70 dimers, which leaves them intact and thereby eliminates an inhibitory effect of TOMM34 on HSP70-mediated refolding in vitro. In contrast, we noted that TOMM34 in complex with 14-3-3 could bind HSP90. Both TOMM34 and 14-3-3 participated in cytosolic precursor protein transport mediated by the coordinated activities of HSP70 and HSP90. Our results provide important insights into how PKA-mediated phosphorylation and 14-3-3 binding regulate the availability of TOMM34 for its interaction with HSP70.

Published

2020

14. MDM2's dual mRNA binding domains co-ordinate its oncogenic and tumour suppressor activities

Author

Sa Chen, Laurence Malbert-Colas, Chrysoula Daskalogianni, Petr Müller, Robin Fåhraeus, Leïla T. S. Fusée, Norman Salomao, and Sivakumar Vadivel Gnanasundram

Subjects

Herpesvirus 4, Human, endocrine system, Carcinogenesis, AcademicSubjects/SCI00010, Ribosome biogenesis, Biology, 03 medical and health sciences, 0302 clinical medicine, p14arf, Protein Domains, Neoplasms, Tumor Suppressor Protein p14ARF, Genetics, Protein biosynthesis, E2F1, Humans, Genes, Tumor Suppressor, RNA, Messenger, Phosphorylation, Molecular Biology, 030304 developmental biology, Cell Proliferation, 0303 health sciences, Messenger RNA, Cell growth, Cell Cycle, Biochemistry and Molecular Biology, Translation (biology), Proto-Oncogene Proteins c-mdm2, Oncogenes, Cell biology, RNA Recognition Motif Proteins, 030220 oncology & carcinogenesis, Tumor Suppressor Protein p53, biological phenomena, cell phenomena, and immunity, E2F1 Transcription Factor, Biokemi och molekylärbiologi, DNA Damage

Abstract

Cell growth requires a high level of protein synthesis and oncogenic pathways stimulate cell proliferation and ribosome biogenesis. Less is known about how cells respond to dysfunctional mRNA translation and how this feeds back into growth regulatory pathways. The Epstein-Barr virus (EBV)-encoded EBNA1 causes mRNA translation stress in cis that activates PI3Kδ. This leads to the stabilization of MDM2, induces MDM2’s binding to the E2F1 mRNA and promotes E2F1 translation. The MDM2 serine 166 regulates the interaction with the E2F1 mRNA and deletion of MDM2 C-terminal RING domain results in a constitutive E2F1 mRNA binding. Phosphorylation on serine 395 following DNA damage instead regulates p53 mRNA binding to its RING domain and prevents the E2F1 mRNA interaction. The p14Arf tumour suppressor binds MDM2 and in addition to preventing degradation of the p53 protein it also prevents the E2F1 mRNA interaction. The data illustrate how two MDM2 domains selectively bind specific mRNAs in response to cellular conditions to promote, or suppress, cell growth and how p14Arf coordinates MDM2’s activity towards p53 and E2F1. The data also show how EBV via EBNA1-induced mRNA translation stress targets the E2F1 and the MDM2 - p53 pathway.

Published

2020

15. Synthetic Lethality - Its Current Application and Potential in Oncological Treatment

Author

Lucie Bortlíková, Petr Müller, Bořivoj Vojtěšek, Vladimír Rak, and Marek Svoboda

Subjects

Ovarian Neoplasms, BRCA1 Protein, Poly (ADP-Ribose) Polymerase-1, Antineoplastic Agents, Breast Neoplasms, Poly(ADP-ribose) Polymerase Inhibitors, Prognosis, Oncology, Drug Resistance, Neoplasm, Drug Discovery, Humans, Female, Molecular Targeted Therapy, Synthetic Lethal Mutations

Abstract

Synthetic lethality is a gene interaction where a defect in one of the interacting genes is compatible with cell viability, whereas the disruption of both genes leads to cell death. The discovery of the lethal effect of poly(ADP-ribose) polymerase (PARP) inhibitors in BRCA1/2 mutant cells has opened an important direction in the development of targeted therapy in oncology. The PARP inhibitor olaparib has become the first registered drug for recurrent high-grade serous ovarian cancer treatment based on synthetic lethality that has reached the clinic. Current research focuses on the combination of PARP inhibitors and inhibitors of kinases, which control the cell cycle, to prevent or overcome resistance to PARP inhibitors. There are also ongoing clinical trials which examine PARP inhibitor treatment in other types of cancers including tumours presenting the so-called BRCAness phenotype. Screenings for new synthetic lethalities which could serve as potential targets for new drug development have improved with the CRISPR/Cas9 technology, but another key problem persists in the screening efforts, namely the incomplete penetrance of synthetic lethality throughout a tumour cell population.This paper summarises the current application of synthetic lethality principles in oncology and discusses the challenges in research focused on potential new drugs based on synthetic lethality.

Published

2019

16. HSPA1A conformational mutants reveal a conserved structural unit in Hsp70 proteins

Author

Petr Müller, Petr Man, Josef Houser, Filip Trčka, Pavla Vankova, Daniel Kavan, Veronika Vandová, and Michal Durech

Subjects

Protein Conformation, Allosteric regulation, Biophysics, Peptide, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Adenosine Triphosphate, Allosteric Regulation, Protein Domains, Humans, HSP70 Heat-Shock Proteins, Surface plasmon resonance, Molecular Biology, Structural unit, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Binding Sites, Chemistry, Deuterium Exchange Measurement, Docking (molecular), Proteome, Mutation, Hydrogen–deuterium exchange, Linker, 030217 neurology & neurosurgery, Protein Binding

Abstract

Background The Hsp70 proteins maintain proteome integrity through the capacity of their nucleotide- and substrate-binding domains (NBD and SBD) to allosterically regulate substrate affinity in a nucleotide-dependent manner. Crystallographic studies showed that Hsp70 allostery relies on formation of contacts between ATP-bound NBD and an interdomain linker, accompanied by SBD subdomains docking onto distinct sites of the NBD leading to substrate release. However, the mechanics of ATP-induced SBD subdomains detachment is largely unknown. Methods Here, we investigated the structural and allosteric properties of human HSPA1A using hydrogen/deuterium exchange mass spectrometry, ATPase assays, surface plasmon resonance and fluorescence polarization-based substrate binding assays. Results Analysis of HSPA1A proteins bearing mutations at the interface of SBD subdomains close to the interdomain linker (amino acids L399, L510, I515, and D529) revealed that this region forms a folding unit stabilizing the structure of both SBD subdomains in the nucleotide-free state. The introduced mutations modulate HSPA1A allostery as they localize to the NBD-SBD interfaces in the ATP-bound protein. Conclusions These findings show that residues forming the hydrophobic structural unit stabilizing the SBD structure are relocated during ATP-activated detachment of the SBD subdomains to different NBD-SBD docking interfaces enabling HSPA1A allostery. General significance Mutation-induced perturbations tuned HSPA1A sensitivity to peptide/protein substrates and to Hsp40 in a way that is common for other Hsp70 proteins. Our results provide an insight into structural rearrangements in the SBD of Hsp70 proteins and highlight HSPA1A-specific allostery features, which is a prerequisite for selective targeting in Hsp-related pathologies.

Published

2019

17. The Role of HSP70 in Cancer and its Exploitation as a Therapeutic Target

Author

Bořivoj Vojtěšek, Filip Trčka, Veronika Martinková, and Petr Müller

Subjects

biology, Cancer, medicine.disease, Hsp90, Cell biology, Hsp70, Oncology, Apoptosis, Neoplasms, Cancer cell, biology.protein, medicine, Homeostasis, Humans, Protein folding, HSP70 Heat-Shock Proteins, HSP90 Heat-Shock Proteins, Signal transduction, Protein quality

Abstract

Background Sustained proliferation and genetic instability of cancer cells are associated with enhanced production of mutated and conformationally unstable proteins. Excessive proteosynthesis along with increased metabolic turnover generates stress conditions that cancer cells must permanently compensate for. Tumor cells thus become dependent on the maintenance of protein homeostasis, which involves protein quality control, folding, transport and stabilization. These tasks are provided by molecular chaperones, predominantly the stress proteins HSP70 and HSP90. Their expression and activity is increased in all malignant tumors, where they associate with their cochaperones to form large multiprotein complexes. HSP70 and HSP90 maintain the malignant phenotype because they facilitate the folding of numerous oncogenic proteins, maintain proliferative potential, and inhibit apoptosis. In this regard, heat-shock proteins represent an important target for cancer therapy because their inactivation results in the simultaneous blockade of multiple signaling pathways. Although several specific HSP90 inhibitors have been developed in the past decade, their antitumor activity as single agents is limited due to the induction of HSP70, which enables cell survival. Inhibitors of HSP70 thus present new possibilities for targeting proteostatic mechanisms in cancer cells. Aim The aim of this article is to summarize information on the structure of HSP70 and its role in maintaining protein homeostasis in normal and cancer cells. The mechanisms of HSP70 inhibition by low-molecular weight compounds and their application in targeted antitumor therapy are also described. Key words: HSP70 - stress proteins - molecular chaperons - cellular stress - tumours - protein folding This work was supported by the project MEYS - NPS I - LO1413. The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study. The Editorial Board declares that the manuscript met the ICMJE recommendation for biomedical papers. Accepted: 16. 08. 2018.

Published

2019

18. A Single Conserved Amino Acid Residue as a Critical Context-Specific Determinant of the Differential Ability of Mdm2 and MdmX RING Domains to Dimerize

Author

Pavlína Kosztyu, Iva Slaninová, Barbora Valčíková, Amandine Verlande, Petr Müller, Jan J. Paleček, and Stjepan Uldrijan

Subjects

0301 basic medicine, p53, MDMX, Physiology, Mutant, Ring (chemistry), lcsh:Physiology, 03 medical and health sciences, Mdm4, 0302 clinical medicine, E3, Mdm2, Physiology (medical), Asparagine, neoplasms, Original Research, dimerization, lcsh:QP1-981, biology, Chemistry, Mutagenesis, Ubiquitin ligase, enzymes and coenzymes (carbohydrates), 030104 developmental biology, 030220 oncology & carcinogenesis, RING domain ubiquitin protein ligase, biology.protein, Biophysics, MdmX, mutagenesis, Cysteine

Abstract

Mdm2 and MdmX are related proteins serving in the form of the Mdm2 homodimer or Mdm2/MdmX heterodimer as an E3 ubiquitin ligase for the tumor suppressor p53. The dimerization is required for the E3 activity and is mediated by the conserved RING domains present in both proteins, but only the RING domain of Mdm2 can form homodimers efficiently. We performed a systematic mutational analysis of human Mdm2, exchanging parts of the RING with the corresponding MdmX sequence, to identify the molecular determinants of this difference. Mdm2 can also promote MdmX degradation, and we identified several mutations blocking it. They were located mainly at the Mdm2/E2 interface and did not disrupt the MdmX-Mdm2 interaction. Surprisingly, some mutations of the Mdm2/E2 interface inhibited MdmX degradation, which is mediated by the Mdm2/MdmX heterodimer, but did not affect p53 degradation, mediated by the Mdm2 homodimer. Only one mutant, replacing a conserved cysteine 449 with asparagine (C449N), disrupted the ability of Mdm2 to dimerize with MdmX. When we introduced the cysteine residue into the corresponding site in MdmX, the RING domain became capable of forming dimers with other MdmX molecules in vivo, suggesting that one conserved amino acid residue in the RINGs of Mdm2 and MdmX could serve as the determinant of the differential ability of these domains to form dimers and their E3 activity. In immunoprecipitations, however, the homodimerization of MdmX could be observed only when the asparagine residue was replaced with cysteine in both RINGs. This result suggested that heterocomplexes consisting of one mutated MdmX RING with cysteine and one wild-type MdmX RING with asparagine might be less stable, despite being readily detectable in the cell-based assay. Moreover, Mdm2 C449N blocked Mdm2-MdmX heterodimerization but did not disrupt the ability of Mdm2 homodimer to promote p53 degradation, suggesting that the effect of the conserved cysteine and asparagine residues on dimerization was context-specific. Collectively, our results indicate that the effects of individual exchanges of conserved residues between Mdm2 and MdmX RING domains might be context-specific, supporting the hypothesis that Mdm2 RING homodimers and Mdm2-MdmX heterodimers may not be entirely structurally equivalent, despite their apparent similarity.

Published

2019

19. Toskové a Gegové v Albánii a jejich pohled na Albánce v okolních státech

Author

Petr Müller

Subjects

Ghegs, lcsh:Ethnology. Social and cultural anthropology, Kosovian Albanians, lcsh:GN301-674, Albanians, Tosks, Kosovo, nationalism, ethnicity, Great Albanian, identity

Abstract

This paper aims to examine ethnic identity of Albanians both inside and outside of Albania. This paper is based on field research and qualitative research conducted in Albania and Kosovo. The paper follows several basic ethnic differentiation characters and their relevance in the construction of ethnic identities selected groups living in Albania and Kosovo. The work is focused on the question of language, religion, historical memory, politics, ethnic stereotypes and perceptions of ethnic itself.

Published

2016

20. Novel Entropically Driven Conformation-specific Interactions with Tomm34 Protein Modulate Hsp70 Protein Folding and ATPase Activities

Author

Petr Man, Elizabeth A. Blackburn, Daniel Kavan, Petra Dvorakova, Lenka Hernychova, Borivoj Vojtesek, Dominika Coufalová, Petr Müller, Filip Trčka, and Michal Durech

Subjects

Models, Molecular, 0301 basic medicine, Protein Folding, Plasma protein binding, Crystallography, X-Ray, Mitochondrial Membrane Transport Proteins, Biochemistry, Analytical Chemistry, 03 medical and health sciences, Adenosine Triphosphate, Protein structure, Heat shock protein, Mitochondrial Precursor Protein Import Complex Proteins, Humans, HSP70 Heat-Shock Proteins, Molecular Biology, Binding Sites, 030102 biochemistry & molecular biology, biology, Chemistry, Research, Hsp90, Protein Structure, Tertiary, Molecular Docking Simulation, Tetratricopeptide, 030104 developmental biology, Proteostasis, Chaperone (protein), Mutation, Biophysics, biology.protein, Protein folding, Protein Binding

Abstract

Co-chaperones containing tetratricopeptide repeat (TPR) domains enable cooperation between Hsp70 and Hsp90 to maintain cellular proteostasis. Although the details of the molecular interactions between some TPR domains and heat shock proteins are known, we describe a novel mechanism by which Tomm34 interacts with and coordinates Hsp70 activities. In contrast to the previously defined Hsp70/Hsp90-organizing protein (Hop), Tomm34 interaction is dependent on the Hsp70 chaperone cycle. Tomm34 binds Hsp70 in a complex process; anchorage of the Hsp70 C terminus by the TPR1 domain is accompanied by additional contacts formed exclusively in the ATP-bound state of Hsp70 resulting in a high affinity entropically driven interaction. Tomm34 induces structural changes in determinants within the Hsp70-lid subdomain and modulates Hsp70/Hsp40-mediated refolding and Hsp40-stimulated Hsp70 ATPase activity. Because Tomm34 recruits Hsp90 through its TPR2 domain, we propose a model in which Tomm34 enables Hsp70/Hsp90 scaffolding and influences the Hsp70 chaperone cycle, providing an additional role for co-chaperones that contain multiple TPR domains in regulating protein homeostasis.

Published

2016

21. Experimental investigation of the compressive strength of normal-strength air-entrained concrete at high temperatures

Author

Petr Müller, Josef Novak, Jakub Holan, and Radek Štefan

Subjects

Materials science, 0211 other engineering and technologies, 020101 civil engineering, Strength reduction, 02 engineering and technology, Building and Construction, Compression (physics), Spall, 0201 civil engineering, Compressive strength, Properties of concrete, 021105 building & construction, General Materials Science, Air entrainment, Composite material, Porosity, Intensity (heat transfer), Civil and Structural Engineering

Abstract

Over the past decades, the mechanical properties of concrete during fire have been extensively investigated; however, not many studies were aimed at the properties of air-entrained concrete (AEC), and even fewer were aimed at the properties of AEC during fire, i.e. at high temperatures. The lack of studies is unfortunate as the higher porosity of concrete caused by the air entrainment (AE) could decrease the pore vapour pressure, which could in turn decrease the amount and intensity of micro-cracks and spalling of concrete, which is the main cause of concrete structure failures at high temperatures. This study investigates how the AE affects the heat-induced concrete spalling and the compressive strength of normal-strength concrete at temperatures ranging from 20 °C to 800 °C. When performing the experiments, heat treatments were first conducted on reference, i.e. non-air-entrained, and air-entrained specimens. Immediately after the heat treatments, compression tests were performed on the hot specimens in order to obtain the stress-strain diagrams and the compressive strengths of the investigated materials at high temperatures. The results obtained by the experiments suggest that the AE reduces the risk of massive concrete spalling when concrete is exposed to a high rate of temperature increase. The results also show that the AE reduces the compressive strength of concrete when the concrete is subjected to high temperatures for a long time period. This indicates that when using an air-entraining agent, a higher strength reduction should be assumed at high temperatures. It does, however, suggest that AE is very beneficial in the environments where a high rate of temperature increase can be expected.

Published

2020

22. Human Stress-inducible Hsp70 Has a High Propensity to Form ATP-dependent Antiparallel Dimers That Are Differentially Regulated by Cochaperone Binding

Author

Julien Marcoux, Pavla Vankova, Michal Durech, Petr Man, Alan Kadek, Petr Müller, Veronika Martinková, Jiri Hausner, Borivoj Vojtesek, Josef Chmelík, Filip Trčka, Tomáš Klumpler, Institut de pharmacologie et de biologie structurale (IPBS), Centre National de la Recherche Scientifique (CNRS)-Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées, Institute of Microbiology, and Czech Academy of Sciences [Prague] (CAS)

Subjects

Models, Molecular, Dimer, Ubiquitin-Protein Ligases, Antiparallel (biochemistry), Crystallography, X-Ray, Biochemistry, Mitochondrial Membrane Transport Proteins, Analytical Chemistry, Protein–protein interaction, 03 medical and health sciences, chemistry.chemical_compound, Protein structure, Adenosine Triphosphate, Stress, Physiological, Mitochondrial Precursor Protein Import Complex Proteins, Scattering, Small Angle, Humans, HSP70 Heat-Shock Proteins, Molecular Biology, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0303 health sciences, biology, [SDV.BBM.BS]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Structural Biology [q-bio.BM], Chemistry, Research, 030302 biochemistry & molecular biology, Tetratricopeptide, Proteostasis, HEK293 Cells, Structural biology, Chaperone (protein), biology.protein, Biophysics, Protein Multimerization, Protein Binding

Abstract

Eukaryotic protein homeostasis (proteostasis) is largely dependent on the action of highly conserved Hsp70 molecular chaperones. Recent evidence indicates that, apart from conserved molecular allostery, Hsp70 proteins have retained and adapted the ability to assemble as functionally relevant ATP-bound dimers throughout evolution. Here, we have compared the ATP-dependent dimerization of DnaK, human stress-inducible Hsp70, Hsc70 and BiP Hsp70 proteins, showing that their dimerization propensities differ, with stress-inducible Hsp70 being predominantly dimeric in the presence of ATP. Structural analyses using hydrogen/deuterium exchange mass spectrometry, native electrospray ionization mass spectrometry and small-angle X-ray scattering revealed that stress-inducible Hsp70 assembles in solution as an antiparallel dimer with the intermolecular interface closely resembling the ATP-bound dimer interfaces captured in DnaK and BiP crystal structures. ATP-dependent dimerization of stress-inducible Hsp70 is necessary for its efficient interaction with Hsp40, as shown by experiments with dimerization-deficient mutants. Moreover, dimerization of ATP-bound Hsp70 is required for its participation in high molecular weight protein complexes detected ex vivo, supporting its functional role in vivo. As human cytosolic Hsp70 can interact with tetratricopeptide repeat (TPR) domain containing cochaperones, we tested the interaction of Hsp70 ATP-dependent dimers with Chip and Tomm34 cochaperones. Although Chip associates with intact Hsp70 dimers to form a larger complex, binding of Tomm34 disrupts the Hsp70 dimer and this event plays an important role in Hsp70 activity regulation. In summary, this study provides structural evidence of robust ATP-dependent antiparallel dimerization of human inducible Hsp70 protein and suggests a novel role of TPR domain cochaperones in multichaperone complexes involving Hsp70 ATP-bound dimers.

Published

2019

23. An inter-subunit protein-peptide interface that stabilizes the specific activity and oligomerization of the AAA+ chaperone Reptin

Author

Ted R. Hupp, Petr Müller, Nicholas J. Westwood, Srinivasaraghavan Kannan, Dominika Coufalová, Douglas R. Houston, Lucy Remnant, Borek Vojtesek, Chandra S. Verma, Lenka Hernychová, Alan R. Healy, University of St Andrews. School of Chemistry, University of St Andrews. EaSTCHEM, University of St Andrews. Biomedical Sciences Research Complex, and School of Biological Sciences

Subjects

Bioengineering [Engineering], 0301 basic medicine, AAA Domain, Protein subunit, Biophysics, Random hexamer, Molecular Dynamics Simulation, Reptin, Biochemistry, Interactome, Oligomer, Protein–protein interaction, 03 medical and health sciences, chemistry.chemical_compound, Mutant protein, Humans, QD, Protein Interaction Domains and Motifs, 030102 biochemistry & molecular biology, biology, Protein, Ligand binding assay, DNA Helicases, DAS, QD Chemistry, 030104 developmental biology, chemistry, Chaperone (protein), Mutation, biology.protein, ATPases Associated with Diverse Cellular Activities, Tyrosine, Protein Multimerization, Carrier Proteins, Molecular Chaperones

Abstract

Reptin is a member of the AAA+ superfamily whose members can exist in equilibrium between monomeric apo forms and ligand bound hexamers. Inter-subunit protein-protein interfaces that stabilize Reptin in its oligomeric state are not well-defined. A self-peptide binding assay identified a protein-peptide interface mapping to an inter-subunit “rim” of the hexamer bridged by Tyrosine-340. A Y340A mutation reduced ADP-dependent oligomer formation using a gel filtration assay, suggesting that Y340 forms a dominant oligomer stabilizing side chain. The monomeric ReptinY340A mutant protein exhibited increased activity to its partner protein AGR2 in an ELISA assay, further suggesting that hexamer formation can preclude certain protein interactions. Hydrogen-deuterium exchange mass spectrometry (HDX-MS) demonstrated that the Y340A mutation attenuated deuterium suppression of Reptin in this motif in the presence of ligand. By contrast, the tyrosine motif of Reptin interacts with a shallower pocket in the hetero-oligomeric structure containing Pontin and HDX-MS revealed no obvious role of the Y340 side chain in stabilizing the Reptin-Pontin oligomer. Molecular dynamic simulations (MDS) rationalized how the Y340A mutation impacts upon a normally stabilizing inter-subunit amino acid contact. MDS also revealed how the D299N mutation can, by contrast, remove oligomer de-stabilizing contacts. These data suggest that the Reptin interactome can be regulated by a ligand dependent equilibrium between monomeric and hexameric forms through a hydrophobic inter-subunit protein-protein interaction motif bridged by Tyrosine-340. Significance: Discovering dynamic protein-protein interactions is a fundamental aim of research in the life sciences. An emerging view of protein-protein interactions in higher eukaryotes is that they are driven by small linear polypeptide sequences; the linear motif. We report on the use of linear-peptide motif screens to discover a relatively high affinity peptide-protein interaction for the AAA+ and pro-oncogenic protein Reptin. This peptide interaction site was shown to form a ‘hot-spot’ protein-protein interaction site, and validated to be important for ligand-induced oligomerization of the Reptin protein. These biochemical data provide a foundation to understand how single point mutations in Reptin can impact on its oligomerization and protein-protein interaction landscape. Agency for Science, Technology and Research (A*STAR) National Supercomputing Centre (NSCC) Singapore Accepted version The work was supported by: the Czech Science Foundation 16-20860S (PM, LH) and 16-07321S (BV, TH), the project MEYS–NPS I–LO1413, and MH CZ - DRO (MMCI, 00209805); the BBSRC RASORconsortium (BB/C511599/1; United Kingdom); Cancer Research UK(C21383/A6950); The International Centre for Cancer Vaccine Scienceproject carried out within the International Research Agendas pro-gramme of the Foundation for Polish Science co-financed by theEuropean Union under the European Regional Development Fund;A*STAR, Singapore and NSCC, Singapore.

Published

2018

24. The Role of HSF1 Protein in Malignant Transformation

Author

Petr Müller, Michal Pastorek, Oliver Simoncik, and Bořivoj Vojtěšek

Subjects

biology, fungi, Protein degradation, Hsp90, Malignant transformation, Heat shock factor, Cell Transformation, Neoplastic, Heat Shock Transcription Factors, Oncology, Proteasome, Neoplasms, Heat shock protein, biology.protein, Cancer research, Humans, HSF1, Transcription factor

Abstract

Background The heat shock transcription factor, HSF1, is the main regulator of the proteotoxic stress response that orchestrates the adaptation of cells to stress conditions such as elevated temperature, oxidative stress, and proteotoxic stress. As such, HSF1 regulates a large number of stress response-related genes, primarily those encoding heat shock proteins (HSPs). HSPs are molecular chaperones involved in the acquisition of native protein conformations and the prevention of protein degradation, and they also contribute to the removal of denatured proteins via the proteasome. Representative members of the HSP family are HSP70 and HSP90. The stress response is a highly conserved mechanism across all eukaryotes, and HSF1 has been linked to a number of physiological processes (ribosomal biogenesis, translation, transcription, cell cycle, and metabolism) and pathological disorders (neurodegenerative disorders such as Parkinson´s and Alzheimer´s diseases). HSF1 activation is also prominent in different types of cancer (prostate, breast, colorectal carcinoma etc.) where it correlates with tumor aggressiveness and poor prognosis. HSF1 is therefore considered a diagnostic and prognostic marker and is currently being targeted to develop new cancer therapies. Several inhibitors of HSF1 have already been synthesized, but their molecular mechanism (s) of action, specificity those of HSF1, nontoxicity in healthy tissues, and their efficacy in targeting tumor cells remain to be elucidated. Purpose This review summarizes known mechanisms of HSF1 regulation and activation, the role of HSF1 during malignant transformation, and the potential of designing small molecule HSF1 inhibitors for cancer therapy. Key words: HSF1 transcription factor - molecular chaperones - cellular stress - tumor transformation - cancer This work was supported by the project MEYS - NPS I - LO1413. The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study. The Editorial Board declares that the manuscript met the ICMJE recommendation for biomedical papers. Accepted: 10. 8. 2018.

Published

2018

25. Pull-down Assay on Streptavidin Beads and Surface Plasmon Resonance Chips for SWATH-MS-based Interactomics

Author

Jakub Faktor, Pavel Bouchal, Lenka Čápková, Petr Müller, Petr Skládal, and Josef Maryáš

Subjects

0301 basic medicine, Streptavidin, Cancer Research, Immunoprecipitation, Mass spectrometry, Biochemistry, Interactome, Protein–protein interaction, 03 medical and health sciences, chemistry.chemical_compound, Affinity chromatography, Tandem Mass Spectrometry, Neoplasms, Genetics, Humans, Protein Interaction Domains and Motifs, Surface plasmon resonance, Molecular Biology, Chromatography, Elution, Chemistry, Microfilament Proteins, LIM Domain Proteins, Surface Plasmon Resonance, 030104 developmental biology, Chromatography, Liquid, Research Article

Abstract

Background/aim Pul-down assay is a popular in vitro method for identification of physical interactors of selected proteins. Here, for the first time, we compared three conventional variants of pull-down assay with the streptavidin-modified surface plasmon resonance (SPR) chips for the detection of PDZ and LIM domain protein 2 (PDLIM2) interaction partners. Materials and methods PDLIM2 protein-protein interactions were analysed by three variants of pull-down assay on streptavidin beads using LC-MS/MS in "Sequential Window Acquisition of all Theoretical fragment ion spectra (SWATH)" mode and compared with LC-SWATH-MS/MS data from SPR chips. Results The results showed that (i) the use of SPR chip led to comparable data compared to on-column streptavidin beads, (ii) gravity flow and microflow in wash and elution steps provided better results than centrifugation, and (iii) type and concentration of detergent did not significantly affect the interactome data of cancer-associated PDLIM2. Conclusion Our study supports further application of SPR-based affinity purification with SWATH mass spectrometry for reproducible and controlled characterization of cancer-associated interactomes.

Published

2018

26. Phosphomimetic Mutation of the N-Terminal Lid of MDM2 Enhances the Polyubiquitination of p53 through Stimulation of E2-Ubiquitin Thioester Hydrolysis

Author

Susanne Pettersson, Elizabeth A. Blackburn, Borek Vojtesek, Petr Müller, Jennifer Fraser, Ted R. Hupp, Erin G. Worrall, Yao Lin, Malcolm D. Walkinshaw, Vivien Landre, and Kathryn L. Ball

Subjects

Protein Conformation, Amino Acid Motifs, Molecular Sequence Data, Allosteric regulation, Thioester, Mice, Allosteric Regulation, Ubiquitin, Structural Biology, Cell Line, Tumor, Animals, Humans, Point Mutation, Amino Acid Sequence, Polyubiquitin, Molecular Biology, chemistry.chemical_classification, biology, Hydrolysis, Ubiquitination, Tryptophan, Proto-Oncogene Proteins c-mdm2, Protein Structure, Tertiary, Ubiquitin ligase, Enzyme, chemistry, Biochemistry, Ubiquitin-Conjugating Enzymes, biology.protein, Biophysics, Mdm2, Tumor Suppressor Protein p53, P53 binding

Abstract

Mouse double minute 2 (MDM2) has a phosphorylation site within a lid motif at Ser17 whose phosphomimetic mutation to Asp17 stimulates MDM2-mediated polyubiquitination of p53. MDM2 lid deletion, but not Asp17 mutation, induced a blue shift in the λ(max) of intrinsic fluorescence derived from residues in the central domain including Trp235, Trp303, Trp323, and Trp329. This indicates that the Asp17 mutation does not alter the conformation of MDM2 surrounding the tryptophan residues. In addition, Phe235 mutation enhanced MDM2 binding to p53 but did not stimulate its ubiquitination function, thus uncoupling increases in p53 binding from its E3 ubiquitin ligase function. However, the Asp17 mutation in MDM2 stimulated its discharge of the UBCH5a-ubiquitin thioester adduct (UBCH5a is a ubiquitin-conjugating enzyme E2D 1 UBC4/5 homolog yeast). This stimulation of ubiquitin discharge from E2 was independent of the p53 substrate. There are now four known effects of the Asp17 mutation on MDM2: (i) it alters the conformation of the isolated N-terminus as defined by NMR; (ii) it induces increased thermostability of the isolated N-terminal domain; (iii) it stimulates the allosteric interaction of MDM2 with the DNA-binding domain of p53; and (iv) it stimulates a novel protein-protein interaction with the E2-ubiquitin complex in the absence of substrate p53 that, in turn, increases hydrolysis of the E2-ubiquitin thioester bond. These data also suggest a new strategy to disrupt MDM2 function by targeting the E2-ubiquitin discharge reaction.

Published

2015

27. Intrinsic proteotoxic stress levels vary and act as a predictive marker for sensitivity of cancer cells to Hsp90 inhibition

Author

M. Pastorek, Philip J. Coates, Petr Müller, and Borek Vojtesek

Subjects

0301 basic medicine, Cancer Treatment, Gene Expression, lcsh:Medicine, Biochemistry, Heat Shock Response, Transactivation, 0302 clinical medicine, Heat Shock Transcription Factors, Breast Tumors, Medicine and Health Sciences, Post-Translational Modification, Phosphorylation, HSF1, lcsh:Science, Cellular Stress Responses, Multidisciplinary, Predictive marker, biology, Chemistry, Hsp90, Oncology, Cell Processes, 030220 oncology & carcinogenesis, MCF-7 Cells, Cell lines, Female, Biological cultures, Research Article, Cell Survival, BT474 cells, Breast Neoplasms, Small Molecule Libraries, 03 medical and health sciences, Cell Line, Tumor, Breast Cancer, medicine, Genetics, Humans, Gene Regulation, HSP90 Heat-Shock Proteins, Heat shock, Cell Proliferation, fungi, lcsh:R, Cancer, Cancers and Neoplasms, Biology and Life Sciences, Proteins, Cell Biology, medicine.disease, Hsp70, Research and analysis methods, 030104 developmental biology, Cancer cell, Cancer research, biology.protein, lcsh:Q, Biomarkers, Heat-Shock Response, Molecular Chaperones

Abstract

Response of tumours to Hsp90 inhibitors is highly variable and their clinical effects are unpredictable, emphasising the need for a predictive marker. We postulated that sensitivity to Hsp90 inhibitors is connected to basal proteotoxic stress that makes cells dependent on Hsp90. Therefore, we assessed HSF1 as a general sensor of proteotoxic stress and correlated its activity with sensitivity to three separate small molecule Hsp90 inhibitors in seven breast cancer cell lines representing each of the different cancer subtypes. Flow cytometry was used to analyse the viability of breast cancer cell lines after Hsp90 inhibition. HSF1 activity was characterised by Ser326 phosphorylation and the transactivation capacity of HSF1 was determined by qPCR analysis of the ratios of HSF1-dependent (HOP, Hsp70) and HSF1-independent (CHIP) chaperones and cochaperone mRNAs. We show that the sensitivity of breast cancer cell lines to Hsp90 inhibition is highly variable. The basal levels of phosphorylated HSF1 also vary between cell lines and the magnitude of change in HSF1 phosphorylation after Hsp90 inhibition showed a negative correlation with sensitivity to Hsp90 inhibitors. Similarly, the basal transactivation capacity of HSF1, determined by the ratio of Hsp70 or HOP mRNA to CHIP mRNA level, is directly proportional to sensitivity to Hsp90 inhibitors. Increasing basal HSF1 activity by prior heat shock sensitised cells to Hsp90 inhibition. These results demonstrate that endogenous HSF1 activity varies between individual cancer cell lines and inversely reflects their sensitivity to Hsp90 inhibitors, suggesting that basal proteotoxic stress is an important and generalised predictor of response. Mechanistically, the data indicate that high endogenous proteotoxic stress levels sensitise to Hsp90 inhibition due to the inability to respond adequately to further proteotoxic stress. HSF1 activity therefore represents a potential biomarker for therapy with Hsp90 inhibitors, which may be useful for the rational design of future clinical studies.

Published

2018

28. Multicenter analysis of soluble Axl reveals diagnostic value for very early stage hepatocellular carcinoma

Author

Steven Dooley, Patrick Reichl, Chun Fang Gao, Patrick Starlinger, Michael Trauner, Petr Müller, Kwan Man, Thomas Gruenberger, Wolfgang Mikulits, Katharina Staufer, Jiayun Shen, Jun Yu, Meng Fang, Rudolf Nenutil, Dalibor Valík, Christine Brostjan, and Kristína Greplová

Subjects

Cancer Research, Pathology, medicine.medical_specialty, Cirrhosis, Receiver operating characteristic, business.industry, Area under the curve, medicine.disease, Serum samples, Gastroenterology, digestive system diseases, Oncology, Hepatocellular carcinoma, Internal medicine, Medicine, Biomarker (medicine), Stage (cooking), Differential diagnosis, business, neoplasms

Abstract

If diagnosed at early stages, patients with hepatocellular carcinoma (HCC) can receive curative therapies, whereas therapeutic options at later stages are very limited. Here, we addressed the potential of soluble Axl (sAxl) as a biomarker of early HCC by analyzing levels of sAxl in 311 HCC and 237 control serum samples from centers in Europe and China. Serum concentrations of sAxl were significantly increased in HCC (18.575 ng/mL) as compared to healthy (13.388 ng/mL) or cirrhotic (12.169 ng/mL) controls. Receiver operating characteristic curve analysis of sAxl in very early stage HCC patients (BCLC 0) showed an area under the curve (AUC) of 0.848, with a sensitivity of 76.9% and a specificity of 69.2%. α-Fetoprotein (AFP)-negative HCC patients displayed an AUC of 0.803, with sensitivity and specificity of 73% and 70.8%. Combination of sAxl and AFP improved diagnostic accuracy to 0.936 in very early HCC patients and to 0.937 in all HCC. Differential diagnosis of very early HCC versus liver cirrhosis showed a combined performance for sAxl and AFP of 0.901 with a sensitivity of 88.5% and a specificity of 76.7%. Furthermore, sAxl levels failed to be elevated in primary ovarian, colorectal and breast carcinomas as well as in secondary hepatic malignancies derived from colon. In summary, sAxl outperforms AFP in detecting very early HCC as compared to healthy or cirrhotic controls and shows high diagnostic accuracy for AFP-negative patients. sAxl is specific for HCC and suggested as a biomarker for routine clinical use.

Published

2015

29. Magnetic poly(glycidyl methacrylate) microspheres for protein capture

Author

Jana Koubková, Daniel Horák, Vladimír Proks, Bořivoj Vojtěšek, Helena Hlídková, Zdeněk Plichta, and Petr Müller

Subjects

Glycidyl methacrylate, Dispersity, Bioengineering, General Medicine, Immunosorbents, Methacrylate, Microspheres, Polyethylene Glycols, Antibodies, Monoclonal, Murine-Derived, Mice, chemistry.chemical_compound, Polymethacrylic Acids, chemistry, Polymerization, Cell Line, Tumor, Polymer chemistry, Animals, Magnetic nanoparticles, Tumor Suppressor Protein p53, Molecular Biology, Ethylene glycol, Biotechnology, Carbodiimide

Abstract

The efficient isolation and concentration of protein antigens from complex biological samples is a critical step in several analytical methods, such as mass spectrometry, flow cytometry and immunochemistry. These techniques take advantage of magnetic microspheres as immunosorbents. The focus of this study was on the development of new superparamagnetic polymer microspheres for the specific isolation of the tumor suppressor protein p53. Monodisperse macroporous poly(glycidyl methacrylate) (PGMA) microspheres measuring approximately 5 μm and containing carboxyl groups were prepared by multistep swelling polymerization of glycidyl methacrylate (GMA), 2-[(methoxycarbonyl)methoxy]ethyl methacrylate (MCMEMA) and ethylene dimethylacrylate (EDMA) as a crosslinker in the presence of cyclohexyl acetate as a porogen. To render the microspheres magnetic, iron oxide was precipitated within their pores; the Fe content in the particles received ∼18 wt%. Nonspecific interactions between the magnetic particles and biological media were minimized by coating the microspheres with poly(ethylene glycol) (PEG) terminated by carboxyl groups. The carboxyl groups of the magnetic PGMA microspheres were conjugated with primary amino groups of mouse monoclonal DO-1 antibody using conventional carbodiimide chemistry. The efficiency of protein p53 capture and the degree of nonspecific adsorption on neat and PEG-coated magnetic microspheres were determined by western blot analysis.

Published

2014

30. Mutant p53 accumulation in human breast cancer is not an intrinsic property or dependent on structural or functional disruption but is regulated by exogenous stress and receptor status

Author

M. Virginia C. L. Appleyard, Lee B. Jordan, Philip R. Quinlan, Karen Murray, Philip J. Coates, Borivoj Vojtesek, Pavla Bouchalová, Colin A. Purdie, Petr Müller, Alastair M. Thompson, Rudolf Nenutil, and Roman Hrstka

Subjects

Genetics, Mutation, biology, Mutant, Cancer, medicine.disease, medicine.disease_cause, Pathology and Forensic Medicine, Breast cancer, Cell culture, biology.protein, medicine, Cancer research, Missense mutation, Mdm2, Function (biology)

Abstract

Many human cancers contain missense TP53 mutations that result in p53 protein accumulation. Although generally considered as a single class of mutations that abrogate wild-type function, individual TP53 mutations may have specific properties and prognostic effects. Tumours that contain missense TP53 mutations show variable p53 stabilization patterns, which may reflect the specific mutation and/or aspects of tumour biology. We used immunohistochemistry on cell lines and human breast cancers with known TP53 missense mutations and assessed the effects of each mutation with four structure–function prediction methods. Cell lines with missense TP53 mutations show variable percentages of cells with p53 stabilization under normal growth conditions, ranging from approximately 50% to almost 100%. Stabilization is not related to structural or functional disruption, but agents that stabilize wild-type p53 increase the percentages of cells showing missense mutant p53 accumulation in cell lines with heterogeneous stabilization. The same heterogeneity of p53 stabilization occurs in primary breast cancers, independent of the effect of the mutation on structural properties or functional disruption. Heterogeneous accumulation is more common in steroid receptor-positive or HER2-positive breast cancers and cell lines than in triple-negative samples. Immunohistochemcal staining patterns associate with Mdm2 levels, proliferation, grade and overall survival, whilst the type of mutation reflects downstream target activity. Inhibiting Mdm2 activity increases the extent of p53 stabilization in some, but not all, breast cancer cell lines. The data indicate that missense mutant p53 stabilization is a complex and variable process in human breast cancers that associates with disease characteristics but is unrelated to structural or functional properties. That agents which stabilize wild-type p53 also stabilize mutant p53 has implications for patients with heterogeneous mutant p53 accumulation, where therapy may activate mutant p53 oncogenic function. Copyright © 2014 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

Published

2014

31. The Assembly and Intermolecular Properties of the Hsp70-Tomm34-Hsp90 Molecular Chaperone Complex

Author

Filip Trčka, Lenka Hernychova, Michal Durech, Petr Man, Petr Müller, and Borivoj Vojtesek

Subjects

Protein Folding, Amino Acid Motifs, Protein domain, Mutation, Missense, Mitochondrial Membrane Transport Proteins, Biochemistry, Protein structure, Mitochondrial Precursor Protein Import Complex Proteins, polycyclic compounds, Humans, HSP70 Heat-Shock Proteins, HSP90 Heat-Shock Proteins, Protein Structure, Quaternary, Molecular Biology, biology, Cell Biology, Protein tertiary structure, Protein Structure, Tertiary, Co-chaperone, Tetratricopeptide, HEK293 Cells, Amino Acid Substitution, Multiprotein Complexes, Chaperone (protein), Protein Structure and Folding, Mutagenesis, Site-Directed, biology.protein, Biophysics, Protein folding, Binding domain

Abstract

Maintenance of protein homeostasis by molecular chaperones Hsp70 and Hsp90 requires their spatial and functional coordination. The cooperation of Hsp70 and Hsp90 is influenced by their interaction with the network of co-chaperone proteins, some of which contain tetratricopeptide repeat (TPR) domains. Critical to these interactions are TPR domains that target co-chaperone binding to the EEVD-COOH motif that terminates Hsp70/Hsp90. Recently, the two-TPR domain-containing protein, Tomm34, was reported to bind both Hsp70 and Hsp90. Here we characterize the structural basis of Tomm34-Hsp70/Hsp90 interactions. Using multiple methods, including pull-down assays, fluorescence polarization, hydrogen/deuterium exchange, and site-directed mutagenesis, we defined the binding activities and specificities of Tomm34 TPR domains toward Hsp70 and Hsp90. We found that Tomm34 TPR1 domain specifically binds Hsp70. This interaction is partly mediated by a non-canonical TPR1 two-carboxylate clamp and is strengthened by so far unidentified additional intermolecular contacts. The two-carboxylate clamp of the isolated TPR2 domain has affinity for both chaperones, but as part of the full-length Tomm34 protein, the TPR2 domain binds specifically Hsp90. These binding properties of Tomm34 TPR domains thus enable simultaneous binding of Hsp70 and Hsp90. Importantly, we provide evidence for the existence of an Hsp70-Tomm34-Hsp90 tripartite complex. In addition, we defined the basic conformational demands of the Tomm34-Hsp90 interaction. These results suggest that Tomm34 represents a novel scaffolding co-chaperone of Hsp70 and Hsp90, which may facilitate Hsp70/Hsp90 cooperation during protein folding.

Published

2014

32. Destructive and non-destructive experimental investigation of polypropylene fibre reinforced concrete subjected to high temperature

Author

Josef Novak, Petr Müller, and Jakub Holan

Subjects

Polypropylene, Materials science, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Spall, Microstructure, Strength of materials, law.invention, chemistry.chemical_compound, Compressive strength, chemistry, Properties of concrete, Mechanics of Materials, law, visual_art, 021105 building & construction, Architecture, visual_art.visual_art_medium, 021108 energy, Ceramic, Hammer, Composite material, Safety, Risk, Reliability and Quality, Civil and Structural Engineering

Abstract

Concrete is an inherently fire-resistant material, which in most cases requires no additional fire protection. However, a long-term exposure to high temperature results in the change in both strength properties and mechanical behaviour of concrete. Most of the experimental studies conducted so far investigated the fire resistance of concrete composites after the fire exposure. Whereas the aim of this paper was to focus on the performance of selected concrete composites, particularly plain concrete and fibre reinforced concrete with polypropylene fibres, exactly at the elevated-temperature state. Namely it concerns reference plain concrete and polypropylene fibre reinforced concrete tested up to 800 °C. Standard destructive tests and non-destructive tests were conducted on cylindrical specimens at hot state immediately after heating-up by using a specific heat treatment. The system used for the heat treatment was composed of ceramic pads, thermocouples the Mannings HTC 70 kW heating and control machine, which provided and regulated the heat transferred to the pads. The main objective of the experimental study was to observe actual material strength during fire situation as well as the reliability of the Schmidt's rebound hammer test when used for testing concrete at elevated temperature. The obtained results are in good agreement with the existing result database of polypropylene fibre reinforced concrete and plain concrete subjected to elevated temperature. The results obtained by the two different testing methods also show good agreement in a certain range of temperatures. As a consequence, in scientific manner, it seems that conducting the Schmidt's rebound hammer test on hot specimen with subsequent standard destructive compression test on the identical specimens cooled down to ambient temperature enable the observation of the compressive strength at hot state and the residual compressive strength after fire exposure on the same specimen. The investigation also demonstrates the benefit of the polypropylene fibres when added to a concrete composite subjected to elevated temperatures. Their presence in a mixture improves concrete spalling resistance and ensures a stable environment with low pore pressure in the concrete microstructure when subjected to elevated temperature and as a consequence the deviation in concrete compressive strength is small. The upcoming experimental investigation will focus on the effect of fibre content on the strength properties of concrete under elevated temperature.

Published

2019

33. A Cyclic Pentamethinium Salt Induces Cancer Cell Cytotoxicity through Mitochondrial Disintegration and Metabolic Collapse

Author

Tomas Briza, Borivoj Vojtesek, Vladimír Král, Pavel Martásek, Lucie Krčová, Jarmila Kralova, Martin Sterba, Radovan Krejcir, Petr Müller, Pavlína Zatloukalová, and Philip J. Coates

Subjects

0301 basic medicine, autophagy, glucose metabolism, Antineoplastic Agents, Mitochondrion, Article, Catalysis, lcsh:Chemistry, Inorganic Chemistry, 03 medical and health sciences, 0302 clinical medicine, AMP-Activated Protein Kinase Kinases, Cell Line, Tumor, Mitophagy, Humans, Glycolysis, Physical and Theoretical Chemistry, Cytotoxicity, lcsh:QH301-705.5, Molecular Biology, Spectroscopy, Kinase, Chemistry, TOR Serine-Threonine Kinases, Organic Chemistry, Autophagy, General Medicine, Carbocyanines, Warburg effect, Computer Science Applications, Cell biology, Quaternary Ammonium Compounds, mitochondria, 030104 developmental biology, lcsh:Biology (General), lcsh:QD1-999, Apoptosis, 030220 oncology & carcinogenesis, Quinazolines, cancer therapy, Protein Kinases

Abstract

Cancer cells preferentially utilize glycolysis for ATP production even in aerobic conditions (the Warburg effect) and adapt mitochondrial processes to their specific needs. Recent studies indicate that altered mitochondrial activities in cancer represent an actionable target for therapy. We previously showed that salt 1-3C, a quinoxaline unit (with cytotoxic activity) incorporated into a meso-substituted pentamethinium salt (with mitochondrial selectivity and fluorescence properties), displayed potent cytotoxic effects in vitro and in vivo, without significant toxic effects to normal tissues. Here, we investigated the cytotoxic mechanism of salt 1-3C compared to its analogue, salt 1-8C, with an extended side carbon chain. Live cell imaging demonstrated that salt 1-3C, but not 1-8C, is rapidly incorporated into mitochondria, correlating with increased cytotoxicity of salt 1-3C. The accumulation in mitochondria led to their fragmentation and loss of function, accompanied by increased autophagy/mitophagy. Salt 1-3C preferentially activated AMP-activated kinase and inhibited mammalian target of rapamycin (mTOR) signaling pathways, sensors of cellular metabolism, but did not induce apoptosis. These data indicate that salt 1-3C cytotoxicity involves mitochondrial perturbation and disintegration, and such compounds are promising candidates for targeting mitochondria as a weak spot of cancer.

Published

2019

34. Characterization of specific p63 and p63-N-terminal isoform antibodies and their application for immunohistochemistry

Author

Philip J. Coates, Rudolf Nenutil, Marta Nekulova, Petr Müller, Lucie Mouková, Jitka Holcakova, Borivoj Vojtesek, Pavla Bouchalová, and Rembert Stratmann

Subjects

Lung Neoplasms, Phage display, medicine.drug_class, Uterine Cervical Neoplasms, Breast Neoplasms, Adenocarcinoma, Cross Reactions, Monoclonal antibody, Epitope, Pathology and Forensic Medicine, Mice, Western blot, Antibody Specificity, Carcinoma, Non-Small-Cell Lung, Cell Line, Tumor, medicine, Animals, Humans, Protein Isoforms, Molecular Biology, Cells, Cultured, biology, medicine.diagnostic_test, Tumor Suppressor Proteins, Antibodies, Monoclonal, Membrane Proteins, Nuclear Proteins, Tumor Protein p73, Cell Biology, General Medicine, Immunohistochemistry, Molecular biology, Rats, DNA-Binding Proteins, Epitope mapping, Polyclonal antibodies, Carcinoma, Squamous Cell, biology.protein, Female, Tumor Suppressor Protein p53, Antibody

Abstract

The TP63 gene gives rise to protein isoforms with different properties and functions due to the presence (TAp63) or absence (ΔNp63) of an N-terminal p53-like transactivation domain. Immunohistochemistry for p63 has clinical value for certain tumour types, but investigations have been hampered by a lack of well characterized antibodies and the inability to discriminate between these N-terminal isoforms with opposite functional properties. We have extensively characterized a series of monoclonal antibodies to recombinant human TAp63 and two commercial p63 monoclonals by Western blot, immunostaining and phage display epitope mapping. Twenty-eight of 29 (96.6 %) novel monoclonals that recognized all p63 isoforms showed substantial cross-reactivity with p73, as did the commercial antibody, 4A4. One novel clone, PANp63-6.1, showed slight cross-reaction with p73 by Western blotting but not immunohistochemistry and the SFI-6 monoclonal did not cross-react with p73 or p53. Phage display revealed that the PANp63-6.1 epitope has one amino acid difference between p63 and p73, the 4A4 epitope is identical in both, whereas the SFI-6 epitope is unique to p63, accounting for these findings. We also produced and characterized a TAp63-specific clone that does not recognize p53 or p73, and we prepared polyclonal sera specific for ΔNp63 isoforms. Immunohistochemistry demonstrated that TAp63 is expressed in a variety of epithelial and other cell types during development, often in a converse pattern to ΔNp63, but has a very limited expression in normal adult tissues and is independent of ΔNp63. TAp63 was expressed in 17.6 % of squamous cancers of cervix that expressed p63, unlike normal cervix where TAp63 was not expressed. TAp63 did not associate with proliferative index, but cervical carcinomas with TAp63 expression showed improved survival. These data highlight the need for rigorous antibody characterization and indicate that p63-isoform identification may improve the clinical value of p63 expression analyses.

Published

2013

35. Development of a fluorescent monoclonal antibody-based assay to measure the allosteric effects of synthetic peptides on self-oligomerization of AGR2 protein

Author

Lucy Remnant, Terry A. Gray, Petr Müller, Matthew W. Nowicki, Alexander Scherl, Euan Murray, Borek Vojtesek, and Ted R. Hupp

Subjects

Gel electrophoresis, Dimer, Allosteric regulation, Plasma protein binding, Biology, Biochemistry, Small molecule, Epitope, Protein–protein interaction, chemistry.chemical_compound, chemistry, Molecular Biology, Peptide sequence

Abstract

Many regulatory proteins are homo-oligomeric and designing assays that measure self-assembly will provide novel approaches to study protein allostery and screen for novel small molecule modulators of protein interactions. We present an assay to begin to define the biochemical determinants that regulate dimerization of the cancer-associated oncoprotein AGR2. A two site-sandwich microtiter assay (2SMTA) was designed using a DyLight800-labeled monoclonal antibody that binds to an epitope in AGR2 to screen for synthetic self-peptides that might regulate dimer stability. Peptides derived from the intrinsically disordered N-terminal region of AGR2 increase in trans oligomer stability as defined using the 2SMTA assay. A DSS-crosslinking assay that traps the AGR2 dimer through K95-K95 adducts confirmed that Δ45-AGR2 was a more stable dimer using denaturing gel electrophoresis. A titration of wt-AGR2, Δ45-AGR2 (more stable dimer), and monomeric AGR2E60A revealed that Δ45-AGR2 was more active in binding to Reptin than either wt-AGR2 or the AGR2E60A mutant. Our data have defined a functional role for the AGR2 dimer in the binding to its most well characterized interacting protein, Reptin. The ability to regulate AGR2 oligomerization in trans opens the possibility for developing small molecules that regulate its' biochemical activity as potential cancer therapeutics. The data also highlight the utility of this oligomerization assay to screen chemical libraries for ligands that could regulate AGR2 dimer stability and its' oncogenic potential.

Published

2013

36. [Mechanisms of Protein Homeostasis Regulation in Cancer Development]

Author

Petr Müller, Filip Trčka, and Bořivoj Vojtěšek

Subjects

Regulation of gene expression, Proteome, Mechanism (biology), Biology, Cell biology, Neoplasm Proteins, Heat shock factor, DNA-Binding Proteins, Gene Expression Regulation, Neoplastic, Proteostasis, Cell Transformation, Neoplastic, Oncology, Heat Shock Transcription Factors, Neoplasms, Cancer cell, Homeostasis, Humans, HSF1, Transcription factor, Heat-Shock Proteins, Molecular Chaperones, Transcription Factors

Abstract

Background The proteome of eukaryotic cells represents a complex system. Its components are exposed to various intrinsic and extrinsic stresses. Therefore, the function of the cellular proteome is dependent on the existence of compensatory mechanisms balancing the inner protein homeostasis - proteostasis. These mechanisms involve the network of molecular chaperones and transcriptional program regulating their expression. The process of cancerogenesis is accompanied by significant changes in the intracellular milieu of cancer cells - temperature, pH, availability of nutrients. On the one hand, these changes represent a consequence of the deregulated growth of the tumor tissue; on the other hand, they can be a source of selection pressure, which allows the emergence of resistant and aggressive tumor cell populations. Description of the proteostatic apparatus components and the mechanism of their involvement in the tumor tissue development is provided in this review article. Aim This review focuses on the description of two causally linked groups of proteostatic events; their mutual coordination is crucial to the process of tumor cell and by extension the entire tumor tissue response to environmental and internal stress factors. The first group of these processes is represented by the "executory" role of molecular chaperones from HSP70, HSP90 and so-called small molecular chaperone protein families. These proteins are involved in maintaining stability of cellular proteins essential for proliferation, apoptosis, senescence, migration and phenotypic plasticity of tumor cells. The second group of the described processes comprises the posttranslational control of the "systemic" role of the transcription factor HSF1 in regulating the gene expression of molecular chaperones and other genes specifically regulated by this transcription factor in the tumor and stromal cells.Key words: molecular chaperones - heat-shock factor 1 - cancer - protein homeostasisThis work was supported by the project MEYS - NPS I - LO1413.The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study.The Editorial Board declares that the manuscript met the ICMJE recommendation for biomedical papers.Submitted: 15. 5. 2016Accepted: 25. 5. 2016.

Published

2016

37. [Impact of HSP90 Inhibition on Viability and Cell Cycle in Relation to p53 Status]

Author

Petr Müller, Michal Pastorek, and Bořivoj Vojtěšek

Subjects

Cyclin-Dependent Kinase Inhibitor p21, Cell Survival, Antineoplastic Agents, Breast Neoplasms, medicine.disease_cause, Flow cytometry, Cell Line, Tumor, medicine, Humans, Viability assay, HSP90 Heat-Shock Proteins, Cell Proliferation, Mutation, biology, medicine.diagnostic_test, Isoxazoles, Resorcinols, Cell cycle, Hsp90, Blot, G2 Phase Cell Cycle Checkpoints, Oncology, Cell culture, Chaperone (protein), biology.protein, Cancer research, M Phase Cell Cycle Checkpoints, Tumor Suppressor Protein p53

Abstract

Background Chaperone system inhibition is a recent promising strategy for cancer treatment that exploits increased metabolic needs required for rapid proliferation as well as higher level of proteotoxic stress in neoplastic cells. Chaperone HSP90 plays a key role in proper folding of many de novo synthesized proteins, so-called clients, including tumor suppressor p53 which is commonly mutated in majority of cancers. Aim of this work was therefore to understand the impact of HSP90 inhibition by NVP-AUY922 on breast cancer cell lines with wild-type and mutated p53. Methods Flow cytometry was used to analyze cell viability by fluorescein diacetate assay and changes in cell cycle. Western blotting was used to analyze expression of p53 and p21 proteins. Results Analysis of cell viability after HSP90 inhibition revealed higher sensitivity of cell line with wild-type p53. Cell cycle analysis then showed that both cell lines undergo increase in G2/M block of the cell cycle, but wild-type cell line had also substantial decrease in proliferative capacity of treated cells. We also observed increased expression of negative cell cycle regulator p21 in cell line with wild-type p53. Conclusions Since p21 is directly regulated by p53, our results suggest that mutation status of p53 can be important factor in treatment of breast cancer cells by HSP90 chaperone inhibition and that wild-type p53 can increase sensitivity to HSP90 inhibition.Key words: breast cancer - cell cycle - chaperone - HSP90 - TP53 - p21 - p53 - NVP-AUY922This work was supported by the project MEYS - NPS I - LO1413.The authors declare they have no potential conflicts of interest concerning drugs, products, or services used in the study.The Editorial Board declares that the manuscript met the ICMJE recommendation for biomedical papers.Submitted: 6. 5. 2016Accepted: 17. 5. 2016.

Published

2016

38. C-terminal phosphorylation of Hsp70 and Hsp90 regulates alternate binding to co-chaperones CHIP and HOP to determine cellular protein folding/degradation balances

Author

Philip J. Coates, Eva Ruckova, David P. Lane, Petr Halada, Borek Vojtesek, Petr Müller, and Roman Hrstka

Subjects

Protein Folding, Cancer Research, Ubiquitin-Protein Ligases, Breast Neoplasms, Plasma protein binding, Glycogen Synthase Kinase 3, Cell Line, Tumor, Heat shock protein, Genetics, Humans, HSP70 Heat-Shock Proteins, HSP90 Heat-Shock Proteins, RNA, Messenger, Phosphorylation, Molecular Biology, Heat-Shock Proteins, Glycogen Synthase Kinase 3 beta, biology, Kinase, Hsp90, Hsp70, Cell biology, HEK293 Cells, Chaperone (protein), biology.protein, Female, Protein folding, Protein Binding

Abstract

Heat shock proteins Hsp90 and Hsp70 facilitate protein folding but can also direct proteins for ubiquitin-mediated degradation. The mechanisms regulating these opposite activities involve Hsp binding to co-chaperones including CHIP and HOP at their C-termini. We demonstrated that the extreme C-termini of Hsp70 and Hsp90 contain phosphorylation sites targeted by kinases including CK1, CK2 and GSK3-β in vitro. The phosphorylation of Hsp90 and Hsp70 prevents binding to CHIP and thus enhances binding to HOP. Highly proliferative cells contain phosphorylated chaperones in complex with HOP and phospho-mimetic and non-phosphorylable Hsp mutant proteins show that phosphorylation is directly associated with increased proliferation rate. We also demonstrate that primary human cancers contain high levels of phosphorylated chaperones and show increased levels of HOP protein and mRNA. These data identify C-terminal phosphorylation of Hsp70 and Hsp90 as a switch for regulating co-chaperone binding and indicate that cancer cells possess an elevated protein folding environment by the concerted action of co-chaperone expression and chaperone modifications. In addition to identifying the pathway responsible for regulating chaperone-mediated protein folding/degradation balances in normal cells, the data provide novel mechanisms to account for the aberrant chaperone activities observed in human cancer cells and have implications for the application of anti-chaperone therapies in cancer treatment.

Published

2012

39. Docking-dependent Ubiquitination of the Interferon Regulatory Factor-1 Tumor Suppressor Protein by the Ubiquitin Ligase CHIP

Author

Petr Müller, Emmanuelle Pion, Vikram Narayan, Vivien Landre, and Kathryn L. Ball

Subjects

Ubiquitin-Protein Ligases, Amino Acid Motifs, Molecular Sequence Data, Protein domain, Chaperone, Plasma protein binding, Biology, Ubiquitin-conjugating enzyme, Biochemistry, Docking, Protein Domains, Ubiquitin, Cell Line, Tumor, Metals, Heavy, Humans, HSP70 Heat-Shock Proteins, Amino Acid Sequence, Molecular Biology, Transcription factor, IRF-1, CHIP, Tumor Suppressor Proteins, Ubiquitination, Cell Biology, Peptide Fragments, Protein Structure, Tertiary, Cell biology, Ubiquitin ligase, IRF1, Protein Synthesis and Degradation, Chaperone (protein), Ubiquitin-Conjugating Enzymes, biology.protein, Ubiquitin Ligase, Tumor Suppressor, Heat-Shock Response, Transcription Factors, Interferon Regulatory Factor-1, Protein Binding

Abstract

Characteristically for a regulatory protein, the IRF-1 tumor suppressor turns over rapidly with a half-life of between 20-40 min. This allows IRF-1 to reach new steady state protein levels swiftly in response to changing environmental conditions. Whereas CHIP ( C terminus of Hsc70-interacting protein), appears to chaperone IRF-1 in unstressed cells, formation of a stable IRF-1.CHIP complex is seen under specific stress conditions. Complex formation, in heat- or heavy metal-treated cells, is accompanied by a decrease in IRF-1 steady state levels and an increase in IRF-1 ubiquitination. CHIP binds directly to an intrinsically disordered domain in the central region of IRF-1 ( residues 106-140), and this site is sufficient to form a stable complex with CHIP in cells and to compete in trans with full-length IRF-1, leading to a reduction in its ubiquitination. The study reveals a complex relationship between CHIP and IRF-1 and highlights the role that direct binding or "docking" of CHIP to its substrate(s) can play in its mechanism of action as an E3 ligase.

Published

2011

40. The pro-metastatic protein anterior gradient-2 predicts poor prognosis in tamoxifen-treated breast cancers

Author

Ted R. Hupp, Rudolf Nenutil, Argyro Fourtouna, Petr Müller, M J Dixon, Catherine Naughton, Euan Murray, Magdalena M. Maslon, Alexey Larionov, Borek Vojtesek, Katarína Petráková, Roman Hrstka, and Simon P. Langdon

Subjects

Cancer Research, medicine.medical_specialty, Antineoplastic Agents, Hormonal, Cell Survival, Estrogen receptor, AGR2, Breast Neoplasms, Biology, Transfection, Metastasis, Mucoproteins, Breast cancer, Cell Line, Tumor, Internal medicine, Genetics, medicine, Humans, Molecular Biology, Oncogene Proteins, Proteins, Cancer, Prognosis, medicine.disease, Tamoxifen, Endocrinology, Cancer cell, Cancer research, Female, Breast disease, medicine.drug

Abstract

Transcriptomic screens in breast cancer cell lines have identified a protein named anterior gradient-2 (AGR2) as a potentially novel oncogene overexpressed in estrogen receptor (ER) positive tumours. As targeting the ER is responsible for major improvements in cure rates and prevention of breast cancers, we have evaluated the pro-oncogenic function of AGR2 in anti-hormone therapeutic responses. We show that AGR2 expression promotes cancer cell survival in clonogenic assays and increases cell proliferation and viability in a range of cancer cell lines. Chromatin immunoprecipitation and reporter assays indicate that AGR2 is transcriptionally activated by estrogen through ERalpha. However, we also found that AGR2 expression is elevated rather than inhibited in response to tamoxifen, thus identifying a novel mechanism to account for an agonistic effect of the drug on a specific pro-oncogenic pathway. Consistent with these data, clinical analysis indicates that AGR2 expression is related to treatment failure in ERalpha-positive breast cancers treated with tamoxifen. In contrast, AGR2 is one of the most highly suppressed genes in cancers of responding patients treated with the anti-hormonal drug letrozole. These data indicate that the AGR2 pathway represents a novel pro-oncogenic pathway for evaluation as anti-cancer drug developments, especially therapies that by-pass the agonist effects of tamoxifen.

Published

2010

41. The effect of cellular environment and p53 status on the mode of action of the platinum derivative LA-12

Author

Petr Müller, Veronika Kvardová, Eva Roubalová, Petr Sova, Eva Michalová, Bořivoj Vojtěšek, Šárka Bořilová, Lenka Zdražilová Dubská, and Roman Hrstka

Subjects

Cyclin-Dependent Kinase Inhibitor p21, Organoplatinum Compounds, Antineoplastic Agents, Apoptosis, Biology, Transactivation, Cell Line, Tumor, Gene expression, Amantadine, medicine, Humans, Pharmacology (medical), Pharmacology, Cisplatin, Cell Cycle, Wild type, Cell cycle, Genes, p53, Molecular biology, Gene Expression Regulation, Neoplastic, Oncology, Cell culture, Mutation, Tumor Suppressor Protein p53, Apoptosis Regulatory Proteins, A431 cells, medicine.drug

Abstract

In this study, we characterized the effects of LA-12 on tumor cell lines possessing wild type p53 and on p53-deficient/mutant cell lines and the results were compared to those obtained using cisplatin. We have determined changes of p53 levels, of its transcriptional activity, of its posttranscriptional modifications and the effect of the treatment on the cell cycle, on the induction of apoptosis and on gene expression. LA-12 induces weak accumulation of both transcriptionally active p53 tumor suppressor and of p21(WAF1/CIP1) protein. LA-12 and cisplatin also significantly differ in their effects on apoptosis and cell cycle and on gene expression spectra in studied cell lines. LA-12 induces higher apoptosis levels in comparison with those induced by cisplatin, especially in p53-deficient H1299 cells and in MCF-7DD cells with transcriptionally inactive p53. We suggest that LA-12-mediated apoptosis is not fully dependent on p53. This confirms the therapeutic potential of LA-12 as a more potent cytostatic agent for both tumor cells expressing wild type p53 and for p53-deficient or mutant cells.

Published

2009

42. MDM2SNP309 Does Not Associate with Elevated MDM2 Protein Expression or Breast Cancer Risk

Author

Rudolf Nenutil, Daniel Krekac, D. Knoflickova, Petr Müller, Borivoj Vojtesek, Roman Hrstka, and Kristyna Brozkova

Subjects

Cancer Research, Tumor suppressor gene, Cancer, Promoter, General Medicine, Biology, medicine.disease, Breast cancer, Oncology, Polymorphism (computer science), Cancer research, medicine, biology.protein, Mdm2, Breast disease, Risk factor

Abstract

Objectives: SNP309 polymorphism (T-G) at the promoter region of MDM2 has been reported to cause increased binding affinity of transcriptional activator Sp1 followed by increased MDM2 both in mRNA and protein level. This model was proposed in vitro in the small panel of cell lines that indicated an on average 8-fold higher level of MDM2 mRNA in cells bearing the GG genotype. Methods: The incidence of SNP309 was determined in a cohort of 158 breast, 17 endometrium, 13 cervix and 45 ovarian cancer tissues by PCR-RFLP. The expression of p53 and MDM2 protein levels in the cohort was immunohistochemically investigated and statistically correlated with SNP309 polymorphism using Pearson χ2 and t test. Results: No significant difference was observed in the G allele incidence in breast cancer specimens compared to 149 noncancer controls. Furthermore, no statistically significant association of the G allele frequencies and p53 and MDM2 protein expression levels was observed. Conclusions: Our data clearly show neither association between SNP309 and cancer risk, nor the responsibility of G allele for increased MDM2 or decreased of p53 protein levels in human primary breast tumors.

Published

2008

43. The Development of a Recombinant scFv Monoclonal Antibody Targeting Canine CD20 for Use in Comparative Medicine

Author

Ted R. Hupp, Eva Ruckova, David Argyle, Erin G. Worrall, Borek Vojtesek, Saurabh Jain, Kathryn L. Ball, John Clayton, Jianguo Shi, Paul A. Davis, Petr Müller, Robin Fåhraeus, Sandra Hemmington, Asmare A. Limeneh, Stefano Comazzi, Euan Murray, William H. Humphries, and Luca Aresu

Subjects

Genetics and Molecular Biology (all), 0301 basic medicine, Physiology, Cell Lines, lcsh:Medicine, Gene Expression, Artificial Gene Amplification and Extension, Biochemistry, Polymerase Chain Reaction, Epitope, law.invention, Hematologic Cancers and Related Disorders, Epitopes, Mice, Phage Display, law, Antibody Specificity, Immune Physiology, Medicine and Health Sciences, Cloning, Molecular, lcsh:Science, Multidisciplinary, Immune System Proteins, Medicine (all), Hematology, Recombinant Proteins, 3. Good health, Molecular Biology Display Techniques, Oncology, Recombinant DNA, Lymphomas, Biological Cultures, Antibody, Immunoglobulin Heavy Chains, Research Article, Protein Binding, medicine.drug_class, Recombinant Fusion Proteins, Immunology, Molecular Sequence Data, chemical and pharmacologic phenomena, Biology, Immunoglobulin light chain, Monoclonal antibody, Research and Analysis Methods, Antibodies, Cell Line, 03 medical and health sciences, Dogs, Amino Acid Sequence, Animals, Antibody Formation, Cloning, Molecular, Humans, Hybridomas, Immunoglobulin Light Chains, Peptide Library, Peptides, Sequence Alignment, Single-Chain Antibodies, Antigens, CD20, Agricultural and Biological Sciences (all), Antigen, Antigens, CD20, Biochemistry, Genetics and Molecular Biology (all), medicine, Peptide library, Molecular Biology Techniques, Molecular Biology, Molecular Biology Assays and Analysis Techniques, lcsh:R, Biology and Life Sciences, Proteins, Cancers and Neoplasms, Virology, Molecular biology, Monoclonal Antibodies, 030104 developmental biology, biology.protein, lcsh:Q

Abstract

Monoclonal antibodies are leading agents for therapeutic treatment of human diseases, but are limited in use by the paucity of clinically relevant models for validation. Sporadic canine tumours mimic the features of some human equivalents. Developing canine immunotherapeutics can be an approach for modeling human disease responses. Rituximab is a pioneering agent used to treat human hematological malignancies. Biologic mimics that target canine CD20 are just being developed by the biotechnology industry. Towards a comparative canine-human model system, we have developed a novel anti-CD20 monoclonal antibody (NCD1.2) that binds both human and canine CD20. NCD1.2 has a sub-nanomolar Kd as defined by an octet red binding assay. Using FACS, NCD1.2 binds to clinically derived canine cells including B-cells in peripheral blood and in different histotypes of B-cell lymphoma. Immunohistochemical staining of canine tissues indicates that the NCD1.2 binds to membrane localized cells in Diffuse Large B-cell lymphoma, Marginal Zone Lymphoma, and other canine B-cell lymphomas. We cloned the heavy and light chains of NCD1.2 from hybridomas to determine whether active scaffolds can be acquired as future biologics tools. The VH and VL genes from the hybridomas were cloned using degenerate primers and packaged as single chains (scFv) into a phage-display library. Surprisingly, we identified two scFv (scFv-3 and scFv-7) isolated from the hybridoma with bioactivity towards CD20. The two scFv had identical VH genes but different VL genes and identical CDR3s, indicating that at least two light chain mRNAs are encoded by NCD1.2 hybridoma cells. Both scFv-3 and scFv-7 were cloned into mammalian vectors for secretion in CHO cells and the antibodies were bioactive towards recombinant CD20 protein or peptide. The scFv-3 and scFv-7 were cloned into an ADEPT-CPG2 bioconjugate vector where bioactivity was retained when expressed in bacterial systems. These data identify a recombinant anti-CD20 scFv that might form a useful tool for evaluation in bioconjugate-directed anti-CD20 immunotherapies in comparative medicine.

Published

2016

44. ΔNp63 regulates cell proliferation, differentiation, adhesion, and migration in the BL2 subtype of basal-like breast cancer

Author

Petr Müller, Philip J. Coates, Marta Nekulova, Jitka Holcakova, Borivoj Votesek, and Paulina Orzol

Subjects

0301 basic medicine, Cellular differentiation, Triple Negative Breast Neoplasms, Biology, 03 medical and health sciences, Basal (phylogenetics), Gene Knockout Techniques, Antigens, CD, Cell Line, Tumor, Cell Adhesion, Humans, Protein Isoforms, Cell adhesion, Transcription factor, Cell Proliferation, Cadherin, Cell growth, Cell adhesion molecule, Tumor Suppressor Proteins, Carcinoma, Cell Differentiation, Epithelial Cells, General Medicine, Cadherins, Phenotype, Neoplasm Proteins, Gene Expression Regulation, Neoplastic, 030104 developmental biology, Immunology, Cancer research, Keratins, Female, CRISPR-Cas Systems, Transcription Factors

Abstract

Triple-negative breast cancers (TNBC) comprise a heterogeneous subgroup of tumors with a generally poor prognosis. Subclassification of TNBC based on genomic analyses shows that basal-like TNBCs, specifically the basal A or BL2 subtype, are characterized by the expression of ΔNp63, a transcription factor that has been attributed a variety of roles in the regulation of proliferation, differentiation, and cell survival. To investigate the role(s) of p63 in basal-like breast cancers, we used HCC1806 cells that are classified as basal A/BL2. We show that these cells endogenously express p63, mainly as the ΔNp63α isoform. TP63 gene knockout by CRISPR resulted in viable cells that proliferate more slowly and adhere less tightly, with an increased rate of migration. Analysis of adhesion-related gene expression revealed a complex set of alterations in p63-depleted cells, with both increased and decreased adhesion molecules and adhesion substrates compared to parental cells expressing p63. Examination of the phenotype of these cells indicated that endogenous p63 is required to suppress the expression of luminal markers and maintain the basal epithelial phenotype, with increased levels of both CK8 and CK18 and a reduction in N-cadherin levels in cells lacking p63. On the other hand, the level of CK5 was not decreased and ER was not increased, indicating that p63 loss is insufficient to induce full luminal-type differentiation. Taken together, these data demonstrate that p63 exerts multiple pro-oncogenic effects on cell differentiation, proliferation and adhesion in basal-like breast cancers.

Published

2015

45. Hammock: a hidden Markov model-based peptide clustering algorithm to identify protein-interaction consensus motifs in large datasets

Author

Ted R. Hupp, Matej Lexa, Petr Müller, Adam Krejci, and Borivoj Vojtesek

Subjects

Statistics and Probability, PREDICTION, EPITOPES, Molecular Sequence Data, Sequence alignment, Computational biology, Biology, computer.software_genre, Biochemistry, Epitope, src Homology Domains, Epitopes, Cluster Analysis, Humans, Short linear motif, Protein Interaction Domains and Motifs, Amino Acid Sequence, Cluster analysis, Hidden Markov model, Databases, Protein, Molecular Biology, Peptide sequence, Markov chain, PLATFORM, Antibodies, Monoclonal, LIBRARIES, Original Papers, Markov Chains, Computer Science Applications, GALAXY, Computational Mathematics, Sequence logo, Computational Theory and Mathematics, Data mining, Peptides, computer, Sequence Alignment, Sequence Analysis, Algorithms, Software, GENERATION

Abstract

Motivation: Proteins often recognize their interaction partners on the basis of short linear motifs located in disordered regions on proteins’ surface. Experimental techniques that study such motifs use short peptides to mimic the structural properties of interacting proteins. Continued development of these methods allows for large-scale screening, resulting in vast amounts of peptide sequences, potentially containing information on multiple protein-protein interactions. Processing of such datasets is a complex but essential task for large-scale studies investigating protein-protein interactions. Results: The software tool presented in this article is able to rapidly identify multiple clusters of sequences carrying shared specificity motifs in massive datasets from various sources and generate multiple sequence alignments of identified clusters. The method was applied on a previously published smaller dataset containing distinct classes of ligands for SH3 domains, as well as on a new, an order of magnitude larger dataset containing epitopes for several monoclonal antibodies. The software successfully identified clusters of sequences mimicking epitopes of antibody targets, as well as secondary clusters revealing that the antibodies accept some deviations from original epitope sequences. Another test indicates that processing of even much larger datasets is computationally feasible. Availability and implementation: Hammock is published under GNU GPL v. 3 license and is freely available as a standalone program (from http://www.recamo.cz/en/software/hammock-cluster-peptides/) or as a tool for the Galaxy toolbox (from https://toolshed.g2.bx.psu.edu/view/hammock/hammock). The source code can be downloaded from https://github.com/hammock-dev/hammock/releases. Contact: muller@mou.cz Supplementary information: Supplementary data are available at Bioinformatics online.

Published

2015

46. Hsp90 Is Essential for Restoring Cellular Functions of Temperature-sensitive p53 Mutant Protein but Not for Stabilization and Activation of Wild-type p53

Author

Petr Müller, Borek Vojtesek, and Pavla Češková

Subjects

biology, Mutant, Wild type, Cell Biology, Geldanamycin, Gene mutation, Biochemistry, Hsp90, chemistry.chemical_compound, chemistry, Proto-Oncogene Proteins c-mdm2, Mutant protein, Cancer research, biology.protein, Mdm2, Molecular Biology

Abstract

Several signaling pathways that monitor the dynamic state of the cell converge on the tumor suppressor p53. The ability of p53 to process these signals and exert a dynamic downstream response in the form of cell cycle arrest and/or apoptosis is crucial for preventing tumor development. This p53 function is abrogated by p53 gene mutations leading to alteration of protein conformation. Hsp90 has been implicated in regulating both wild-type and mutant p53 conformations, and Hsp90 antagonists are effective for the therapy of some human tumors. Using cell lines that contain human tumor-derived temperature-sensitive p53 mutants we show that Hsp90 is required for both stabilization and reactivation of mutated p53 at the permissive temperature. A temperature decrease to 32 °C causes conversion to a protein conformation that is capable of inducing expression of MDM2, leading to reduction of reactivated p53 levels by negative feedback. Mutant reactivation is enhanced by simultaneous treatment with agents that stabilize the reactivated protein and is blocked by geldanamycin, a specific inhibitor of Hsp90 activity, indicating that Hsp90 antagonist therapy and therapies that act to reactivate mutant p53 will be incompatible. In contrast, Hsp90 is not required for maintaining wild-type p53 or for stabilizing wild-type p53 after treatment with chemotherapeutic agents, indicating that Hsp90 therapy might synergize with conventional therapies in patients with wild-type p53. Our data demonstrate the importance of the precise characterization of the interaction between p53 mutants and stress proteins, which may shed valuable information for fighting cancer via the p53 tumor suppressor pathway.

Published

2005

47. Discriminating functional and non-functional p53 in human tumours by p53 and MDM2 immunohistochemistry

Author

Borek Vojtesek, P Janotova, Rudolf Nenutil, Petr Müller, Šárka Pavlová, M Radina, Jana Šmardová, Philip J. Coates, Roman Hrstka, Z Hanzelkova, Pavel Fabian, and David P. Lane

Subjects

Cyclin-Dependent Kinase Inhibitor p21, Transcription, Genetic, Tumor suppressor gene, Mutant, Uterine Cervical Neoplasms, Breast Neoplasms, Adenocarcinoma, Biology, medicine.disease_cause, Pathology and Forensic Medicine, Neoplasms, medicine, Humans, Phosphorylation, neoplasms, Genotyping, Gene, Ovarian Neoplasms, Mutation, Proto-Oncogene Proteins c-mdm2, DNA, Neoplasm, Genes, p53, Immunohistochemistry, Molecular biology, Endometrial Neoplasms, Staining, Ki-67 Antigen, Carcinoma, Squamous Cell, Cancer research, Female, Tumor Suppressor Protein p53, Immunostaining

Abstract

Mutation and/or loss of the TP53 tumour suppressor gene is the single most common genetic abnormality in human cancer. The majority of TP53 mutations lead to stabilization of the protein, so that immunohistochemical staining for p53 can suggest mutation status in many cases. However, various false-positive and false-negative situations mean that simple immunostaining for p53 is not informative in a substantial number of tumours. In the present study, a series of 119 human cancers were immunostained using a highly sensitive technique that detects the low levels of wild-type protein expressed in normal cells, such that homozygous gene deletion or non-sense TP53 mutation can be identified by an absence of staining. TP53 gene status was also assessed using FASAY as a genetic/functional screen and in selected cases by direct sequencing. A quantitative scoring system was employed to assess p53 levels, and p53 post-translational modification was evaluated using antibodies that detect specific phosphorylation sites. Phosphorylated p53 correlated with total p53 levels and did not improve the prediction of TP53 mutation status. The transcriptional activity of TP53 was determined by staining for two downstream target genes, p21(WAF1) and MDM2, and statistical correlations between MDM2/p21(WAF1) and p53 were found in tumours with wild-type, but not mutant TP53. Measurement of staining for p53 and MDM2 accurately identifies the TP53 status of tumours. This simple and cost-effective method, applicable to automated staining and quantitation methods, improves the identification of TP53 status over standard methods for p53 immunostaining and provides information about tumour p53 phenotype that is complementary to genotyping data.

Published

2005

48. Repeated progressive heating in susceptibility vs. temperature investigation: a new palaeotemperature indicator?

Author

J. Hanák, Petr Müller, and František Hrouda

Subjects

Work (thermodynamics), Geophysics, Geochemistry and Petrology, Chemistry, Phase (matter), Thermodynamics, Cooling curve, Magnetic susceptibility

Abstract

In the most rocks, the heating segment of the curve representing the bulk magnetic susceptibility to temperature relationship is very different from the cooling segment, indicating phase and/or compositional changes imposed by heating. On the other hand, repeated run usually results in converging heating and cooling curves. It is hypothesized that the same effect may work also in the nature. Up to the temperature undergone by the rock in the nature, the heating and cooling curves should be near each other, while they should differ substantially above this temperature. If the specimen is heated repeatedly and progressively from room temperature to 700 °C, one can discover the temperature above which the heating and cooling curves start to differ substantially and identify the temperatures undergone by the rock in the nature.

Published

2003

49. Discovery of a novel ligand that modulates the protein-protein interactions of the AAA+ superfamily oncoprotein reptin

Author

Elizabeth A. Blackburn, Lucy Remnant, Magdalena M. Maslon, Adam Krejci, Olivia Meers, Lenka Hernychova, Douglas R. Houston, Petr Müller, Veronika Brychtová, Ted R. Hupp, Anne-Sophie Huart, Malcolm D. Walkinshaw, Alan R. Healy, Nicholas J. Westwood, Borek Vojtesek, Cancer Research UK, University of St Andrews. School of Chemistry, University of St Andrews. EaSTCHEM, and University of St Andrews. Biomedical Sciences Research Complex

Subjects

Genetics, chemistry.chemical_classification, Chemistry(all), In silico, Chemical biology, NDAS, Peptide, General Chemistry, Computational biology, Biology, QD Chemistry, DNA sequencing, Protein–protein interaction, Chemistry, chemistry, SDG 3 - Good Health and Well-being, Docking (molecular), Cytoplasm, Cancer cell, ComputerApplications_GENERAL, QD

Abstract

Discovery and use of a chemical tool., Developing approaches to discover protein–protein interactions (PPIs) remains a fundamental challenge. A chemical biology platform is applied here to identify novel PPIs for the AAA+ superfamily oncoprotein reptin. An in silico screen coupled with chemical optimization provided Liddean, a nucleotide-mimetic which modulates reptin's oligomerization status, protein-binding activity and global conformation. Combinatorial peptide phage library screening of Liddean-bound reptin with next generation sequencing identified interaction motifs including a novel reptin docking site on the p53 tumor suppressor protein. Proximity ligation assays demonstrated that endogenous reptin forms a predominantly cytoplasmic complex with its paralog pontin in cancer cells and Liddean promotes a shift of this complex to the nucleus. An emerging view of PPIs in higher eukaryotes is that they occur through a striking diversity of linear peptide motifs. The discovery of a compound that alters reptin's protein interaction landscape potentially leads to novel avenues for therapeutic development.

Published

2015

50. Abstract P1-03-07: Differential Effect of Specific p53 Mutations on Breast Cancer Growth and Response to Hsp90 Inhibition In Vivo

Author

AM Thompson, Petr Müller, Borek Vojtesek, Virginia Appleyard, Roman Hrstka, Philip J. Coates, and Karen Murray

Subjects

Cancer Research, Matrigel, Mutation, Pathology, medicine.medical_specialty, Mutant, Cancer, Biology, medicine.disease, medicine.disease_cause, Breast cancer, Oncology, In vivo, Mutant protein, Cancer research, medicine, Doubling time

Abstract

Background p53 mutation influences breast cancer cell growth and patient prognosis. However, different p53 mutations impart specific functions to the mutant protein, including dominant negative or gain of function effects. Mutant p53 molecules R273H and R175H are commonly found in primary breast cancers and are present in the MDA-MB-468 and SKBR3 cell lines, respectively. To compare the direct effects of these two mutations in vivo in an identical cellular background, H1299 (p53-null) cells were constructed to express R273H or R175H p53 mutants. Methods Thirty female SCID mice were injected subcutaneously with 106 H1299 (p53-null), H1299/R273H or H1299/R175H cells in DMEM + Matrigel (50:50) suspension. Some mice were treated with an Hsp90 inhibitor, which is required for correct folding of many oncogenic proteins. Results Xenografts bearing R175H showed a mean lag phase (time between cell injection and tumors at exponential growth) of 21 days and a doubling time of 5 days, whereas tumors bearing H1299 (p53-null) or R273H mutation had a lag phase of 31 days with a doubling time of 7 days. Immunohistochemical examination demonstrated a highly heterogeneous pattern of p53 protein expression in the more aggressive R175H expressing cells compared with R273H expressing cells. Hsp90 inhibitor treatment reduced the growth of H1299 and R273H cells, but not R175H cells. Conclusions The specific p53 mutations directly influence the rate of tumor growth and the p53 protein staining pattern on immunohistochemistry. The differential effects of specific p53 mutations should be considered when interpreting clinical data involving p53 mutation such as in the EORTC 10994 trial, with implications for prognostic determination of individual breast cancer patients. Citation Information: Cancer Res 2010;70(24 Suppl):Abstract nr P1-03-07.

Published

2010