Your search keyword '"Darula, Z."' showing total 89 results

1. PROTEOMIC PROFILING OF THE HIPPOCAMPUS OF EPILEPTIC MICE WITH AND WITHOUT SCLEROSIS: p354

Author

Mago, A., Kekesi, K. A., Simor, A., Tóth, K., Gulyas, Hunyadi E., Darula, Z., Medzihradszky, K., Freund, T., Juhasz, G., and Magloczky, Z.

Published

2012

2. Arabidopsis PPR40 connects abiotic stress responses to mitochondrial electron transport

Author

Zsigmond, L., Rigo, G., Szarka, A., Szekely, G., Otvos, K., Darula, Z., Medzihradszky, K., Koncz, C., Koncz, Z., and Szabados, L.

Published

2008

3. Probing opioid receptor interactions with azacycloalkane amino acids. Synthesis of a potent and selective ORL1 antagonist

Author

Halab, L., Darula, Z., Tourwe, Dirk, Becker, J.a., Kieffer, B.l., Simonin, F., Lubell, W.d., Organic Chemistry, Toxicology, Dermato-cosmetology and Pharmacognosy, and Vrije Universiteit Brussel

Published

2002

4. Deltorphin II analogues with 6-hydroxy-2-aminotetralin-2-carboxylic acid in position 1

Author

Darula, Z., Köver, K.e., Monory, K., Borsodi, A., Marko, E., Ronai, A., Tourwe, Dirk, Péter, Antal, Tóth, Géza, Organic Chemistry, and Vrije Universiteit Brussel

Published

2000

5. A rapid, qualitative thin-layer chromatographic method for the separation of enantiomers of unusual amino acids

Author

Darula, Z., Torok, Gabriella, Wittmann, G., Mannekens, Els, Iterbeke, Koen, Tourwe, Dirk, Péter, Antal, Organic Chemistry, and Vrije Universiteit Brussel

Published

1998

6. How to Dig Deeper? Improved Enrichment Methods for Mucin Core-1 Type Glycopeptides

Author

Darula, Z., primary, Sherman, J., additional, and Medzihradszky, K.F., additional

Published

2012

7. O-Sulfonation of Serine and Threonine

Author

Medzihradszky, K.F., primary, Darula, Z., additional, Perlson, E., additional, Fainzilber, M., additional, Chalkley, R.J., additional, Ball, H., additional, Greenbaum, D., additional, Bogyo, M., additional, Tyson, D.R., additional, Bradshaw, R.A., additional, and Burlingame, A.L., additional

Published

2004

8. A Novel and Convenient Method for the Synthesis of Free 5′-Thiol Modified Oligonucleotides

Author

Kupihar, Z., primary, Kovacs, G., additional, Kele, Z., additional, Darula, Z., additional, and Kovacs, L., additional

Published

2004

9. A Novel and Convenient Method for the Synthesis of Free 5′-Thiol Modified Oligonucleotides

Author

Kupihár, Z., primary, Kovács, G., additional, Kele, Z., additional, Darula, Z., additional, and Kovács, L., additional

Published

2003

10. Conformationally Constrained Deltorphin Analogs with 2-Aminotetralin-2-Carboxylic Acid in Position 3

Author

Toth, G., Darula, Z., Peter, A., Fulop, F., Tourwe, D., Jaspers, H., Verheyden, P., Bocskey, Z., Toth, Z., and Borsodi, A.

Abstract

Two approaches to the design of very active and highly selective δ opioid peptides were used to obtain new deltorphin analogs with altered hydrophobic and stereoelectronic properties. Deltorphin I and II analogs were synthesized involving the substitution of Ile instead of Val at positions 5 and 6 in the address domain and 2-aminotetralin-2-carboxylic acid (Atc) instead of Phe in the message domain. The peptides were agonists in the subnanomolar range in the MVD assay and in the micromolar or higher range in the GPI assay, showing a very high selectivity for δ receptors. A very similar trend could be observed in radioreceptor binding assays in which selective tritiated opioid ligands were used. (R)- and (S)-Atc-deltorphins exhibited similar Ki values in the binding assay, with almost complete loss of the stereospecificity of the binding. Conformational studies provided evidence for little disturbance of the backbone conformational equilibrium when Phe³ is replaced by (S)- or (R)-Atc. The use of the Atc constraint gives additional evidence that, during its interaction with the δ receptor, the side chain of residue 3 adopts the trans conformation at χ1.

Published

1997

11. Analysis of the Role of Delta Opioid Receptors in Gastroprotection in the Rat

Author

Gyires, K., Ronai, A. Z., Toth, G., Darula, Z., and Furst, S.

Published

1997

12. Removal of nonspecific binding proteins from cell and tissue extracts using 2-aminobenzimidazole-tethered affinity resin

Author

Molnár E, Fábián G, Klem J, Darula Z, Eva Hunyadi-Gulyas, Medgyesi A, Kf, Medzihradszky, and Lg, Puskás

Subjects

Brain Chemistry, Male, Surface Properties, Tissue Extracts, Cells, Hydrolysis, Proteins, Affinity Labels, Carbon, Rats, Echocardiography, Tandem Mass Spectrometry, Cell Line, Tumor, Animals, Humans, Benzimidazoles, Indicators and Reagents, Trypsin, Rats, Wistar, Chromatography, High Pressure Liquid

Abstract

Cellular drug target identification through affinity chromatography is often hindered by the quantity of nonspecific binders, such as cytoskeletal and heat shock proteins. Thus, we prepared a 2-aminobenzimidazole-tethered depletion resin designed for removal of these proteins, and tested it on human lung carcinoma cell and rat tissue extracts. Column-bound proteins were identified by two-dimensional gel electrophoresis and MS. Among others, tubulins, actins and heat shock proteins were successfully depleted. Due to the reduction of these highly abundant proteins detection of potential drug targets is considerably facilitated in the pre-purified samples.

13. The interactome of the N-terminus of band 3 regulates red blood cell metabolism and storage quality

Author

Stephen C. Rogers, James C. Zimring, Allan Doctor, Jasmina S. Redzic, Monika Dzieciatkowska, Elan Z. Eisenmesser, Grier P. Page, Angelo D'Alessandro, Ariel Hay, Domenico Roberti, Zsuzsanna Darula, Aaron Issaian, Silverio Perrotta, Kirk C. Hansen, Micheal P. Busch, Issaian, A., Hay, A., Dzieciatkowska, M., Roberti, D., Perrotta, S., Darula, Z., Redzic, J., Busch, M. P., Page, G. P., Rogers, S. C., Doctor, A., Hansen, K. C., Eisenmesser, E. Z., Zimring, J. C., and D'Alessandro, A.

Subjects

Erythrocytes, Pentose phosphate pathway, Proteomics, Hemolysis, Interactome, Pentose Phosphate Pathway, Mice, Anion Exchange Protein 1, Erythrocyte, medicine, Animals, Humans, Band 3, biology, Chemistry, Editorials, Hematology, Metabolism, medicine.disease, Cell biology, Red blood cell, Cytosol, medicine.anatomical_structure, biology.protein, Blood Banks, Oxidation-Reduction

Abstract

Band 3 (anion exchanger 1; AE1) is the most abundant membrane protein in red blood cells, which in turn are the most abundant cells in the human body. A compelling model posits that, at high oxygen saturation, the N-terminal cytosolic domain of AE1 binds to and inhibits glycolytic enzymes, thus diverting metabolic fluxes to the pentose phosphate pathway to generate reducing equivalents. Dysfunction of this mechanism occurs during red blood cell aging or storage under blood bank conditions, suggesting a role for AE1 in the regulation of the quality of stored blood and efficacy of transfusion, a life-saving intervention for millions of recipients worldwide. Here we leveraged two murine models carrying genetic ablations of AE1 to provide mechanistic evidence of the role of this protein in the regulation of erythrocyte metabolism and storage quality. Metabolic observations in mice recapitulated those in a human subject lacking expression of AE11-11 (band 3 Neapolis), while common polymorphisms in the region coding for AE11-56 correlate with increased susceptibility to osmotic hemolysis in healthy blood donors. Through thermal proteome profiling and crosslinking proteomics, we provide a map of the red blood cell interactome, with a focus on AE11-56 and validate recombinant AE1 interactions with glyceraldehyde 3-phosphate dehydrogenase. As a proof-of-principle and to provide further mechanistic evidence of the role of AE1 in the regulation of redox homeo stasis of stored red blood cells, we show that incubation with a cell-penetrating AE11-56 peptide can rescue the metabolic defect in glutathione recycling and boost post-transfusion recovery of stored red blood cells from healthy human donors and genetically ablated mice.

Published

2021

14. Epigenetic modulation via the C-terminal tail of H2A.Z.

Author

Imre L, Nánási P Jr, Benhamza I, Enyedi KN, Mocsár G, Bosire R, Hegedüs É, Niaki EF, Csóti Á, Darula Z, Csősz É, Póliska S, Scholtz B, Mező G, Bacsó Z, Timmers HTM, Kusakabe M, Balázs M, Vámosi G, Ausio J, Cheung P, Tóth K, Tremethick D, Harata M, and Szabó G

Subjects

Humans, HeLa Cells, Animals, Chromatin metabolism, Euchromatin metabolism, Euchromatin genetics, Cell Nucleus metabolism, Histones metabolism, Histones genetics, Nucleosomes metabolism, Epigenesis, Genetic, Heterochromatin metabolism, Heterochromatin genetics

Abstract

H2A.Z-nucleosomes are present in both euchromatin and heterochromatin and it has proven difficult to interpret their disparate roles in the context of their stability features. Using an in situ assay of nucleosome stability and DT40 cells expressing engineered forms of the histone variant we show that native H2A.Z, but not C-terminally truncated H2A.Z (H2A.Z∆C), is released from nucleosomes of peripheral heterochromatin at unusually high salt concentrations. H2A.Z and H3K9me3 landscapes are reorganized in H2A.Z∆C-nuclei and overall sensitivity of chromatin to nucleases is increased. These tail-dependent differences are recapitulated upon treatment of HeLa nuclei with the H2A.Z-tail-peptide (C9), with MNase sensitivity being increased genome-wide. Fluorescence correlation spectroscopy revealed C9 binding to reconstituted nucleosomes. When introduced into live cells, C9 elicited chromatin reorganization, overall nucleosome destabilization and changes in gene expression. Thus, H2A.Z-nucleosomes influence global chromatin architecture in a tail-dependent manner, what can be modulated by introducing the tail-peptide into live cells., (© 2024. The Author(s).)

Published

2024

15. Lectin-Based Immunophenotyping and Whole Proteomic Profiling of CT-26 Colon Carcinoma Murine Model.

Author

Faragó A, Zvara Á, Tiszlavicz L, Hunyadi-Gulyás É, Darula Z, Hegedűs Z, Szabó E, Surguta SE, Tóvári J, Puskás LG, and Szebeni GJ

Subjects

Humans, Animals, Mice, Galectin 1, Disease Models, Animal, Immunophenotyping, Proteomics, Sialic Acid Binding Ig-like Lectin 1, Tomography, X-Ray Computed, Colonic Neoplasms, Colorectal Neoplasms, Carcinoma

Abstract

A murine colorectal carcinoma (CRC) model was established. CT26 colon carcinoma cells were injected into BALB/c mice's spleen to study the primary tumor and the mechanisms of cell spread of colon cancer to the liver. The CRC was verified by the immunohistochemistry of Pan Cytokeratin and Vimentin expression. Immunophenotyping of leukocytes isolated from CRC-bearing BALB/c mice or healthy controls, such as CD19+ B cells, CD11+ myeloid cells, and CD3+ T cells, was carried out using fluorochrome-labeled lectins. The binding of six lectins to white blood cells, such as galectin-1 (Gal1), siglec-1 (Sig1), Sambucus nigra lectin (SNA), Aleuria aurantia lectin (AAL), Phytolacca americana lectin (PWM), and galectin-3 (Gal3), was assayed. Flow cytometric analysis of the splenocytes revealed the increased binding of SNA, and AAL to CD3 + T cells and CD11b myeloid cells; and increased siglec-1 and AAL binding to CD19 B cells of the tumor-bearing mice. The whole proteomic analysis of the established CRC-bearing liver and spleen versus healthy tissues identified differentially expressed proteins, characteristic of the primary or secondary CRC tissues. KEGG Gene Ontology bioinformatic analysis delineated the established murine CRC characteristic protein interaction networks, biological pathways, and cellular processes involved in CRC. Galectin-1 and S100A4 were identified as upregulated proteins in the primary and secondary CT26 tumor tissues, and these were previously reported to contribute to the poor prognosis of CRC patients. Modelling the development of liver colonization of CRC by the injection of CT26 cells into the spleen may facilitate the understanding of carcinogenesis in human CRC and contribute to the development of novel therapeutic strategies.

Published

2024

16. Assessing Heterogeneity in the N-Telopeptides of Type I Collagen by Mass Spectrometry.

Author

Darula Z, McCabe MC, Barrett A, Schmitt LR, Maslanka MD, Saviola AJ, Orgel J, Burlingame A, Staab-Weijnitz CA, Stenmark K, Weaver V, Chalkley RJ, and Hansen KC

Abstract

Collagen cross-links created by the lysyl oxidase and lysyl hydroxylase families of enzymes are a significant contributing factor to the biomechanical strength and rigidity of tissues, which in turn influence cell signaling and ultimately cell phenotype. In the clinic, the proteolytically liberated N-terminal cross-linked peptide of collagen I (NTX) is used as a biomarker of bone and connective tissue turnover, which is altered in several disease processes. Despite the clinical utility of these collagen breakdown products, the majority of the cross-linked peptide species have not been identified in proteomic datasets. Here we evaluate several parameters for the preparation and identification of these peptides from the collagen I-rich Achilles tendon. Our refined approach involving chemical digestion for protein solubilization coupled with mass spectrometry allows for the identification of the NTX cross-links in a range of modification states. Based on the specificity of the enzymatic cross-linking reaction we utilized follow-up variable modification searches to facilitate identification with a wider range of analytical workflows. We then applied a spectral library approach to identify differences in collagen cross-links in bovine pulmonary hypertension. The presented method offers unique opportunities to understand extracellular matrix remodeling events in development, aging, wound healing, and fibrotic disease that modulate collagen architecture through lysyl-hydroxylase and lysyl-oxidase enzymes.

Published

2024

17. Comparative analysis of hippocampal extracellular space uncovers widely altered peptidome upon epileptic seizure in urethane-anaesthetized rats.

Author

Tukacs V, Mittli D, Hunyadi-Gulyás É, Darula Z, Juhász G, Kardos J, and Kékesi KA

Subjects

Rats, Animals, Urethane metabolism, Seizures chemically induced, 4-Aminopyridine metabolism, 4-Aminopyridine pharmacology, Peptides chemistry, Peptides metabolism, Amides metabolism, Hippocampus metabolism, Extracellular Space metabolism, Epilepsy chemically induced, Epilepsy metabolism, Epilepsy pathology

Abstract

Background: The brain extracellular fluid (ECF), composed of secreted neurotransmitters, metabolites, peptides, and proteins, may reflect brain processes. Analysis of brain ECF may provide new potential markers for synaptic activity or brain damage and reveal additional information on pathological alterations. Epileptic seizure induction is an acute and harsh intervention in brain functions, and it can activate extra- and intracellular proteases, which implies an altered brain secretome. Thus, we applied a 4-aminopyridine (4-AP) epilepsy model to study the hippocampal ECF peptidome alterations upon treatment in rats., Methods: We performed in vivo microdialysis in the hippocampus for 3-3 h of control and 4-AP treatment phase in parallel with electrophysiology measurement. Then, we analyzed the microdialysate peptidome of control and treated samples from the same subject by liquid chromatography-coupled tandem mass spectrometry. We analyzed electrophysiological and peptidomic alterations upon epileptic seizure induction by two-tailed, paired t-test., Results: We detected 2540 peptides in microdialysate samples by mass spectrometry analysis; and 866 peptides-derived from 229 proteins-were found in more than half of the samples. In addition, the abundance of 322 peptides significantly altered upon epileptic seizure induction. Several proteins of significantly altered peptides are neuropeptides (Chgb) or have synapse- or brain-related functions such as the regulation of synaptic vesicle cycle (Atp6v1a, Napa), astrocyte morphology (Vim), and glutamate homeostasis (Slc3a2)., Conclusions: We have detected several consequences of epileptic seizures at the peptidomic level, as altered peptide abundances of proteins that regulate epilepsy-related cellular processes. Thus, our results indicate that analyzing brain ECF by in vivo microdialysis and omics techniques is useful for monitoring brain processes, and it can be an alternative method in the discovery and analysis of CNS disease markers besides peripheral fluid analysis., (© 2024. The Author(s).)

Published

2024

18. Biofilm formation initiating rotifer-specific biopolymer and its predicted components.

Author

Datki Z, Darula Z, Vedelek V, Hunyadi-Gulyas E, Dingmann BJ, Vedelek B, Kalman J, Urban P, Gyenesei A, Galik-Olah Z, Galik B, and Sinka R

Subjects

Animals, Female, Male, Base Sequence, Central Nervous System, Vertebrates

Abstract

The rotifer-specific biopolymer, namely Rotimer, is a recently discovered group of the biomolecule family. Rotimer has an active role in the biofilm formation initiated by rotifers (e.g., Euchlanis dilatata or Adineta vaga) or in the female-male sexual interaction of monogononts. To understand the Ca 2+ - and polarity-dependent formation of this multifunctional viscoelastic material, it is essential to explore its molecular composition. The investigation of the rotifer-enhanced biofilm and Rotimer-inductor conglomerate (RIC) formation yielded several protein candidates to predict the Rotimer-specific main components. The exudate of E. dilatata males was primarily applied from different biopolimer-containing samples (biofilm or RIC). The advantage of males over females lies in their degenerated digestive system and simple anatomy. Thus, their exudate is less contaminated with food and endosymbiont elements. The sequenced and annotated genome and transcriptome of this species opened the way for identifying Rotimer proteins by mass spectrometry. The predicted rotifer-biopolymer forming components are SCO-spondins and 14-3-3 protein. The characteristics of Rotimer are similar to Reissner's fiber, which is found in the central nervous system of vertebrates and is mainly formed from SCO-spondins. This molecular information serves as a starting point for its interdisciplinary investigation and application in biotechnology, biomedicine, or neurodegeneration-related drug development., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023

19. Chronic Cerebral Hypoperfusion-Induced Disturbed Proteostasis of Mitochondria and MAM Is Reflected in the CSF of Rats by Proteomic Analysis.

Author

Tukacs V, Mittli D, Hunyadi-Gulyás É, Hlatky D, Medzihradszky KF, Darula Z, Nyitrai G, Czurkó A, Juhász G, Kardos J, and Kékesi KA

Subjects

Rats, Animals, Proteostasis, Mitochondria metabolism, Brain metabolism, Proteomics, Brain Ischemia metabolism

Abstract

Declining cerebral blood flow leads to chronic cerebral hypoperfusion which can induce neurodegenerative disorders, such as vascular dementia. The reduced energy supply of the brain impairs mitochondrial functions that could trigger further damaging cellular processes. We carried out stepwise bilateral common carotid occlusions on rats and investigated long-term mitochondrial, mitochondria-associated membrane (MAM), and cerebrospinal fluid (CSF) proteome changes. Samples were studied by gel-based and mass spectrometry-based proteomic analyses. We found 19, 35, and 12 significantly altered proteins in the mitochondria, MAM, and CSF, respectively. Most of the changed proteins were involved in protein turnover and import in all three sample types. We confirmed decreased levels of proteins involved in protein folding and amino acid catabolism, such as P4hb and Hibadh in the mitochondria by western blot. We detected reduced levels of several components of protein synthesis and degradation in the CSF as well as in the subcellular fractions, implying that hypoperfusion-induced altered protein turnover of brain tissue can be detected in the CSF by proteomic analysis., (© 2023. The Author(s).)

Published

2023

20. Evolution of insect innate immunity through domestication of bacterial toxins.

Author

Verster KI, Cinege G, Lipinszki Z, Magyar LB, Kurucz É, Tarnopol RL, Ábrahám E, Darula Z, Karageorgi M, Tamsil JA, Akalu SM, Andó I, and Whiteman NK

Subjects

Animals, Domestication, Drosophila genetics, Drosophila metabolism, Gene Transfer, Horizontal, Immunity, Innate genetics, Bacterial Toxins metabolism, Wasps metabolism

Abstract

Toxin cargo genes are often horizontally transferred by phages between bacterial species and are known to play an important role in the evolution of bacterial pathogenesis. Here, we show how these same genes have been horizontally transferred from phage or bacteria to animals and have resulted in novel adaptations. We discovered that two widespread bacterial genes encoding toxins of animal cells, cytolethal distending toxin subunit B ( cdtB ) and apoptosis-inducing protein of 56 kDa ( aip56) , were captured by insect genomes through horizontal gene transfer from bacteria or phages. To study the function of these genes in insects, we focused on Drosophila ananassae as a model. In the D. ananassae subgroup species, cdtB and aip56 are present as singular ( cdtB ) or fused copies ( cdtB::aip56 ) on the second chromosome. We found that cdtB and aip56 genes and encoded proteins were expressed by immune cells, some proteins were localized to the wasp embryo's serosa, and their expression increased following parasitoid wasp infection. Species of the ananassae subgroup are highly resistant to parasitoid wasps, and we observed that D. ananassae lines carrying null mutations in cdtB and aip56 toxin genes were more susceptible to parasitoids than the wild type. We conclude that toxin cargo genes were captured by these insects millions of years ago and integrated as novel modules into their innate immune system. These modules now represent components of a heretofore undescribed defense response and are important for resistance to parasitoid wasps. Phage or bacterially derived eukaryotic toxin genes serve as macromutations that can spur the instantaneous evolution of novelty in animals.

Published

2023

21. Proteotranscriptomic Discrimination of Tumor and Normal Tissues in Renal Cell Carcinoma.

Author

Bartha Á, Darula Z, Munkácsy G, Klement É, Nyirády P, and Győrffy B

Subjects

Humans, Proteomics methods, Kidney metabolism, Proteins metabolism, Biomarkers, Tumor genetics, Carcinoma, Renal Cell pathology, Kidney Neoplasms metabolism

Abstract

Clear cell renal carcinoma is the most frequent type of kidney cancer, with an increasing incidence rate worldwide. In this research, we used a proteotranscriptomic approach to differentiate normal and tumor tissues in clear cell renal cell carcinoma (ccRCC). Using transcriptomic data of patients with malignant and paired normal tissue samples from gene array cohorts, we identified the top genes over-expressed in ccRCC. We collected surgically resected ccRCC specimens to further investigate the transcriptomic results on the proteome level. The differential protein abundance was evaluated using targeted mass spectrometry (MS). We assembled a database of 558 renal tissue samples from NCBI GEO and used these to uncover the top genes with higher expression in ccRCC. For protein level analysis 162 malignant and normal kidney tissue samples were acquired. The most consistently upregulated genes were IGFBP3, PLIN2, PLOD2, PFKP, VEGFA, and CCND1 ( p < 10 -5 for each gene). Mass spectrometry further validated the differential protein abundance of these genes (IGFBP3, p = 7.53 × 10 -18 ; PLIN2, p = 3.9 × 10 -39 ; PLOD2, p = 6.51 × 10 -36 ; PFKP, p = 1.01 × 10 -47 ; VEGFA, p = 1.40 × 10 -22 ; CCND1, p = 1.04 × 10 -24 ). We also identified those proteins which correlate with overall survival. Finally, a support vector machine-based classification algorithm using the protein-level data was set up. We used transcriptomic and proteomic data to identify a minimal panel of proteins highly specific for clear cell renal carcinoma tissues. The introduced gene panel could be used as a promising tool in the clinical setting.

Published

2023

22. Impact of Experimental Conditions on Extracellular Vesicles' Proteome: A Comparative Study.

Author

Böröczky T, Dobra G, Bukva M, Gyukity-Sebestyén E, Hunyadi-Gulyás É, Darula Z, Horváth P, Buzás K, and Harmati M

Abstract

Extracellular vesicle (EV) research is a rapidly developing field, mainly due to the key role of EVs in intercellular communication and pathophysiological processes. However, the heterogeneity of EVs challenges their exploration and the establishment of gold-standard methods. Here, we aimed to reveal the influence of technical changes on EV biology and the reliability of experimental data. We used B16F1 melanoma cells as a model and applied nanoparticle tracking analysis, mass spectrometry (LC-MS/MS) and pathway enrichment analysis to analyze the quantity, size distribution, proteome and function of their small EVs (sEVs) produced in sEV-depleted fetal bovine serum (FBS)-containing medium or serum-free medium. Additionally, we investigated the effects of minor technical variances on the quality of sEV preparations. We found that storage of the isolates at -80 °C has no adverse effect on LC-MS/MS analysis, and an additional washing step after differential ultracentrifugation has a minor influence on the sEV proteome. In contrast, FBS starvation affects the production and proteome of sEVs; moreover, these vesicles may have a greater impact on protein metabolism, but a smaller impact on cell adhesion and membrane raft assembly, than the control sEVs. As we demonstrated that FBS starvation has a strong influence on sEV biology, applying serum-free conditions might be considered in in vitro sEV studies.

Published

2023

23. Multiple Layers of Complexity in O-Glycosylation Illustrated With the Urinary Glycoproteome.

Author

Pap A, Kiraly IE, Medzihradszky KF, and Darula Z

Subjects

Humans, Glycosylation, Reproducibility of Results, Glycopeptides analysis, Proteome chemistry, Search Engine, Software

Abstract

While N-glycopeptides are relatively easy to characterize, O-glycosylation analysis is more complex. In this article, we illustrate the multiple layers of O-glycopeptide characterization that make this task so challenging. We believe our carefully curated dataset represents perhaps the largest intact human glycopeptide mixture derived from individuals, not from cell lines. The samples were collected from healthy individuals, patients with superficial or advanced bladder cancer (three of each group), and a single bladder inflammation patient. The data were scrutinized manually and interpreted using three different search engines: Byonic, Protein Prospector, and O-Pair, and the tool MS-Filter. Despite all the recent advances, reliable automatic O-glycopeptide assignment has not been solved yet. Our data reveal such diversity of site-specific O-glycosylation that has not been presented before. In addition to the potential biological implications, this dataset should be a valuable resource for software developers in the same way as some of our previously released data has been used in the development of O-Pair and O-Glycoproteome Analyzer. Based on the manual evaluation of the performance of the existing tools with our data, we lined up a series of recommendations that if implemented could significantly improve the reliability of glycopeptide assignments., Competing Interests: Conflict of interest The authors declare no competing interests., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

24. STABILON, a Novel Sequence Motif That Enhances the Expression and Accumulation of Intracellular and Secreted Proteins.

Author

Rethi-Nagy Z, Abraham E, Udvardy K, Klement E, Darula Z, Pal M, Katona RL, Tubak V, Pali T, Kota Z, Sinka R, Udvardy A, and Lipinszki Z

Subjects

Amino Acid Motifs, Animals, Drosophila metabolism, Mammals metabolism, Proteolysis, Ubiquitin metabolism, Drosophila Proteins genetics, Drosophila Proteins metabolism, Proteasome Endopeptidase Complex genetics, Proteasome Endopeptidase Complex metabolism

Abstract

The dynamic balance of transcriptional and translational regulation together with degron-controlled proteolysis shapes the ever-changing cellular proteome. While a large variety of degradation signals has been characterized, our knowledge of cis -acting protein motifs that can in vivo stabilize otherwise short-lived proteins is very limited. We have identified and characterized a conserved 13-mer protein segment derived from the p54/Rpn10 ubiquitin receptor subunit of the Drosophila 26S proteasome, which fulfills all the characteristics of a protein stabilization motif (STABILON). Attachment of STABILON to various intracellular as well as medically relevant secreted model proteins resulted in a significant increase in their cellular or extracellular concentration in mammalian cells. We demonstrate that STABILON acts as a universal and dual function motif that, on the one hand, increases the concentration of the corresponding mRNAs and, on the other hand, prevents the degradation of short-lived fusion proteins. Therefore, STABILON may lead to a breakthrough in biomedical recombinant protein production.

Published

2022

25. The interactome of the N-terminus of band 3 regulates red blood cell metabolism and storage quality.

Author

Issaian A, Hay A, Dzieciatkowska M, Roberti D, Perrotta S, Darula Z, Redzic J, Busch MP, Page GP, Rogers SC, Doctor A, Hansen KC, Eisenmesser EZ, Zimring JC, and D'Alessandro A

Subjects

Animals, Blood Banks, Hemolysis, Humans, Mice, Oxidation-Reduction, Pentose Phosphate Pathway, Anion Exchange Protein 1, Erythrocyte chemistry, Erythrocytes metabolism

Abstract

Band 3 (anion exchanger 1; AE1) is the most abundant membrane protein in red blood cells, which in turn are the most abundant cells in the human body. A compelling model posits that, at high oxygen saturation, the N-terminal cytosolic domain of AE1 binds to and inhibits glycolytic enzymes, thus diverting metabolic fluxes to the pentose phosphate pathway to generate reducing equivalents. Dysfunction of this mechanism occurs during red blood cell aging or storage under blood bank conditions, suggesting a role for AE1 in the regulation of the quality of stored blood and efficacy of transfusion, a life-saving intervention for millions of recipients worldwide. Here we leveraged two murine models carrying genetic ablations of AE1 to provide mechanistic evidence of the role of this protein in the regulation of erythrocyte metabolism and storage quality. Metabolic observations in mice recapitulated those in a human subject lacking expression of AE11-11 (band 3 Neapolis), while common polymorphisms in the region coding for AE11-56 correlate with increased susceptibility to osmotic hemolysis in healthy blood donors. Through thermal proteome profiling and crosslinking proteomics, we provide a map of the red blood cell interactome, with a focus on AE11-56 and validate recombinant AE1 interactions with glyceraldehyde 3-phosphate dehydrogenase. As a proof-of-principle and to provide further mechanistic evidence of the role of AE1 in the regulation of redox homeo stasis of stored red blood cells, we show that incubation with a cell-penetrating AE11-56 peptide can rescue the metabolic defect in glutathione recycling and boost post-transfusion recovery of stored red blood cells from healthy human donors and genetically ablated mice.

Published

2021

26. Stellaria media tea protects against diabetes-induced cardiac dysfunction in rats without affecting glucose tolerance.

Author

Demján V, Sója A, Kiss T, Fejes A, Gausz FD, Szűcs G, Siska A, Földesi I, Tengölics R, Darula Z, Csupor D, Pipicz M, and Csont T

Abstract

Background and Aim: Common chickweed ( Stellaria media ) tea has traditionally been applied for treatment of various metabolic diseases including diabetes in folk medicine; however, experimental evidence to support this practice is lacking. Therefore, we aimed to assess the effect of Stellaria media tea on glucose homeostasis and cardiac performance in a rat model of diabetes., Experimental Procedure: Hot water extract of Stellaria media herb were analyzed and used in this study, where diabetes was induced by fructose-enriched diet supplemented with a single injection of streptozotocin. Half of the animals received Stellaria media tea (100 mg/kg) by oral gavage. At the end of the 20-week experimental period, blood samples were collected and isolated working heart perfusions were performed., Results and Conclusion: Compared to the animals receiving standard chow, serum fasting glucose level was increased and glucose tolerance was diminished in diabetic rats. Stellaria media tea did not affect significantly fasting hyperglycemia and glucose intolerance; however, it attenuated diabetes-induced deterioration of cardiac output and cardiac work. Analysis of the chemical composition of Stellaria media tea suggested the presence of rutin and various apigenin glycosides which have been reported to alleviate diabetic cardiomyopathy. Moreover, Stellaria media prevented diabetes-induced increase in cardiac STAT3 phosphorylation. We demonstrated for the first time that Stellaria media tea may beneficially affect cardiac dysfunction induced by diabetes without improvement of glucose homeostasis. Rutin and/or apigenin glycosides as well as modulation of STAT3 signaling may be implicated in the protection of Stellaria media tea against diabetic cardiomyopathy., Competing Interests: None., (© 2021 Center for Food and Biomolecules, National Taiwan University. Production and hosting by Elsevier Taiwan LLC.)

Published

2021

27. Proteomic identification of Placental Protein 1 (PP1), PP8, and PP22 and characterization of their placental expression in healthy pregnancies and in preeclampsia.

Author

Szabo S, Karaszi K, Romero R, Toth E, Szilagyi A, Gelencser Z, Xu Y, Balogh A, Szalai G, Hupuczi P, Hargitai B, Krenacs T, Hunyadi-Gulyas E, Darula Z, Kekesi KA, Tarca AL, Erez O, Juhasz G, Kovalszky I, Papp Z, and Than NG

Subjects

Adult, Chromatography, Liquid, Female, Humans, Mass Spectrometry, Pregnancy, Proteomics, Placenta metabolism, Pre-Eclampsia metabolism, Pregnancy Proteins metabolism

Abstract

Introduction: Placental Protein 1 (PP1), PP8, and PP22 were isolated from the placenta. Herein, we aimed to identify PP1, PP8, and PP22 proteins and their placental and trophoblastic expression patterns to reveal potential involvement in pregnancy complications., Methods: We analyzed PP1, PP8, and PP22 proteins with LC-MS. We compared the placental behaviors of PP1, PP8, and PP22 to the predominantly placenta-expressed PP5/TFPI-2. Placenta-specificity scores were generated from microarray data. Trophoblasts were isolated from healthy placentas and differentiated; total RNA was isolated and subjected to microarray analysis. We assigned the placentas to the following groups: preterm controls, early-onset preeclampsia, early-onset preeclampsia with HELLP syndrome, term controls, and late-onset preeclampsia. After histopathologic examination, placentas were used for tissue microarray construction, immunostaining with anti-PP1, anti-PP5, anti-PP8, or anti-PP22 antibodies, and immunoscoring., Results: PP1, PP8, and PP22 were identified as 'nicotinate-nucleotide pyrophosphorylase', 'serpin B6', and 'protein disulfide-isomerase', respectively. Genes encoding PP1, PP8, and PP22 are not predominantly placenta-expressed, in contrast with PP5. PP1, PP8, and PP22 mRNA expression levels did not increase during trophoblast differentiation, in contrast with PP5. PP1, PP8, and PP22 immunostaining were detected primarily in trophoblasts, while PP5 expression was restricted to the syncytiotrophoblast. The PP1 immunoscore was higher in late-onset preeclampsia, while the PP5 immunoscore was higher in early-onset preeclampsia., Discussion: PP1, PP8, and PP22 are expressed primarily in trophoblasts but do not have trophoblast-specific regulation or functions. The distinct dysregulation of PP1 and PP5 expression in either late-onset or early-onset preeclampsia reflects different pathophysiological pathways in these preeclampsia subsets., (Copyright © 2020. Published by Elsevier Ltd.)

Published

2020

28. The effectiveness of filtering glycopeptide peak list files for Y ions.

Author

Chalkley RJ, Medzihradszky KF, Darula Z, Pap A, and Baker PR

Subjects

Databases, Protein, Humans, Mass Spectrometry, Software, Computational Biology methods, Glycopeptides urine

Abstract

Intact glycopeptide analysis is becoming more common with developments in mass spectrometry instrumentation and fragmentation approaches. In particular, collision-based fragmentation approaches such as higher energy collisional dissociation (HCD) and radical-driven fragmentation approaches such as electron transfer dissociation (ETD) provide complementary information, but bioinformatic strategies to utilize this combined information are currently lacking. In this work we adapted a software tool, MS-Filter, to search HCD peak list files for predicted Y ions based on matched EThcD results to propose additional glycopeptide assignments. The strategy proved to be extremely powerful for O-glycopeptide data, and also of benefit for N-linked data, where it allowed rescue of low confidence results from database searching.

Published

2020

29. Novel O-linked sialoglycan structures in human urinary glycoproteins.

Author

Pap A, Tasnadi E, Medzihradszky KF, and Darula Z

Subjects

Chromatography, Liquid, Glycosylation, Humans, Search Engine, Tandem Mass Spectrometry, Computational Biology methods, Glycoproteins chemistry, Glycoproteins urine

Abstract

Glycopeptides represent cross-linked structures between chemically and physically different biomolecules. Mass spectrometric analysis of O-glycopeptides may reveal the identity of the peptide, the composition of the glycan and even the connection between certain sugar units, but usually only the combination of different MS/MS techniques provides sufficient information for reliable assignment. Currently, HCD analysis followed by diagnostic sugar fragment-triggered ETD or EThcD experiments is the most promising data acquisition protocol. However, the information content of the different MS/MS data is handled separately by search engines. We are convinced that these data should be used in concert, as we demonstrate in the present study. First, glycopeptides bearing the most common glycans can be identified from EThcD and/or HCD data. Then, searching for Y 0 (the gas-phase deglycosylated peptide) in HCD spectra, the potential glycoforms of these glycopeptides could be lined up. Finally, these spectra and the corresponding EThcD data can be used to verify or discard the tentative assignments and to obtain further structural information about the glycans. We present 18 novel human urinary sialoglycan structures deciphered using this approach. To accomplish this in an automated fashion further software development is necessary.

Published

2020

30. CRK5 Protein Kinase Contributes to the Progression of Embryogenesis of Arabidopsis thaliana .

Author

Baba AI, Valkai I, Labhane NM, Koczka L, Andrási N, Klement É, Darula Z, Medzihradszky KF, Szabados L, Fehér A, Rigó G, and Cséplő Á

Subjects

Arabidopsis metabolism, Arabidopsis Proteins genetics, Enzyme-Linked Immunosorbent Assay, Gene Expression Regulation, Plant, Gibberellins analysis, Gibberellins metabolism, Indoleacetic Acids metabolism, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Seeds anatomy & histology, Seeds growth & development, Seeds metabolism, Arabidopsis growth & development, Arabidopsis Proteins metabolism, Germination, Protein Serine-Threonine Kinases metabolism, Receptors, Cell Surface metabolism

Abstract

The fine tuning of hormone (e.g., auxin and gibberellin) levels and hormone signaling is required for maintaining normal embryogenesis. Embryo polarity, for example, is ensured by the directional movement of auxin that is controlled by various types of auxin transporters. Here, we present pieces of evidence for the auxin-gibberellic acid (GA) hormonal crosstalk during embryo development and the regulatory role of the Arabidopsis thaliana Calcium-Dependent Protein Kinase-Related Kinase 5 (AtCRK5) in this regard. It is pointed out that the embryogenesis of the At crk5-1 mutant is delayed in comparison to the wild type. This delay is accompanied with a decrease in the levels of GA and auxin, as well as the abundance of the polar auxin transport (PAT) proteins PIN1, PIN4, and PIN7 in the mutant embryos. We have previously showed that AtCRK5 can regulate the PIN2 and PIN3 proteins either directly by phosphorylation or indirectly affecting the GA level during the root gravitropic and hypocotyl hook bending responses. In this manuscript, we provide evidence that the AtCRK5 protein kinase can in vitro phosphorylate the hydrophilic loops of additional PIN proteins that are important for embryogenesis. We propose that AtCRK5 can govern embryo development in Arabidopsis through the fine tuning of auxin-GA level and the accumulation of certain polar auxin transport proteins.

Published

2019

31. Nectar- and stigma exudate-specific expression of an acidic chitinase could partially protect certain apple cultivars against fire blight disease.

Author

Kurilla A, Toth T, Dorgai L, Darula Z, Lakatos T, Silhavy D, Kerenyi Z, and Dallmann G

Subjects

Alleles, Amino Acid Sequence, Anti-Bacterial Agents pharmacology, Biofilms drug effects, Biofilms growth & development, Chitinases chemistry, Disease Resistance, Erwinia amylovora drug effects, Erwinia amylovora growth & development, Gene Expression Regulation, Plant drug effects, Malus drug effects, Malus genetics, Organ Specificity, Plant Proteins chemistry, Plant Proteins metabolism, Promoter Regions, Genetic genetics, RNA, Messenger genetics, RNA, Messenger metabolism, Nicotiana genetics, Chitinases metabolism, Erwinia amylovora physiology, Flowers metabolism, Malus enzymology, Malus microbiology, Plant Diseases microbiology, Plant Exudates metabolism, Plant Nectar metabolism

Abstract

Main Conclusion: Certain apple cultivars accumulate to high levels in their nectar and stigma exudate an acidic chitinase III protein that can protect against pathogens including fire blight disease causing Erwinia amylovora. To prevent microbial infections, flower nectars and stigma exudates contain various antimicrobial compounds. Erwinia amylovora, the causing bacterium of the devastating fire blight apple disease, is the model pathogen that multiplies in flower secretions and infects through the nectaries. Although Erwinia-resistant apples are not available, certain cultivars are tolerant. It was reported that in flower infection assay, the 'Freedom' cultivar was Erwinia tolerant, while the 'Jonagold' cultivar was susceptible. We hypothesized that differences in the nectar protein compositions lead to different susceptibility. Indeed, we found that an acidic chitinase III protein (Machi3-1) selectively accumulates to very high levels in the nectar and the stigma exudate of the 'Freedom' cultivar. We show that three different Machi3-1 alleles exist in apple cultivars and that only the 5B-Machi3-1 allele expresses the Machi3-1 protein in the nectar and the stigma exudate. We demonstrate that the 5B-Machi3-1 allele was introgressed from the Malus floribunda 821 clone into different apple cultivars including the 'Freedom'. Our data suggest that MYB-binding site containing repeats of the 5B-Machi3-1 promoter is responsible for the strong nectar- and stigma exudate-specific expression. As we found that in vitro, the Machi3-1 protein impairs growth and biofilm formation of Erwinia at physiological concentration, we propose that the Machi3-1 protein could partially protect 5B-Machi3-1 allele containing cultivars against Erwinia by inhibiting the multiplication and biofilm formation of the pathogen in the stigma exudate and in the nectar.

Published

2019

32. AtCRK5 Protein Kinase Exhibits a Regulatory Role in Hypocotyl Hook Development during Skotomorphogenesis.

Author

Baba AI, Andrási N, Valkai I, Gorcsa T, Koczka L, Darula Z, Medzihradszky KF, Szabados L, Fehér A, Rigó G, and Cséplő Á

Subjects

Arabidopsis drug effects, Biomarkers, Gene Expression Regulation, Plant, Genes, Reporter, Germination, Phenotype, Phosphorylation, Signal Transduction, Xanthones pharmacology, Arabidopsis physiology, Arabidopsis Proteins metabolism, Hypocotyl physiology, Morphogenesis drug effects, Morphogenesis genetics, Plant Development drug effects, Plant Development genetics, Protein Serine-Threonine Kinases metabolism, Receptors, Cell Surface metabolism

Abstract

Seedling establishment following germination requires the fine tuning of plant hormone levels including that of auxin. Directional movement of auxin has a central role in the associated processes, among others, in hypocotyl hook development. Regulated auxin transport is ensured by several transporters (PINs, AUX1, ABCB) and their tight cooperation. Here we describe the regulatory role of the Arabidopsis thaliana CRK5 protein kinase during hypocotyl hook formation/opening influencing auxin transport and the auxin-ethylene-GA hormonal crosstalk. It was found that the At crk5-1 mutant exhibits an impaired hypocotyl hook establishment phenotype resulting only in limited bending in the dark. The At crk5-1 mutant proved to be deficient in the maintenance of local auxin accumulation at the concave side of the hypocotyl hook as demonstrated by decreased fluorescence of the auxin sensor DR5::GFP. Abundance of the polar auxin transport (PAT) proteins PIN3, PIN7, and AUX1 were also decreased in the At crk5-1 hypocotyl hook. The AtCRK5 protein kinase was reported to regulate PIN2 protein activity by phosphorylation during the root gravitropic response. Here it is shown that AtCRK5 can also phosphorylate in vitro the hydrophilic loops of PIN3. We propose that AtCRK5 may regulate hypocotyl hook formation in Arabidopsis thaliana through the phosphorylation of polar auxin transport (PAT) proteins, the fine tuning of auxin transport, and consequently the coordination of auxin-ethylene-GA levels.

Published

2019

33. Mass spectrometry-based molecular mapping of native FXIIIa cross-links in insoluble fibrin clots.

Author

Schmitt LR, Henderson R, Barrett A, Darula Z, Issaian A, D'Alessandro A, Clendenen N, and Hansen KC

Subjects

Amino Acid Sequence, Chromatography, High Pressure Liquid, Factor XIIIa metabolism, Fibrin Fibrinogen Degradation Products chemistry, Fibrinogen chemistry, Humans, Lysine chemistry, Mass Spectrometry, Thrombosis metabolism, Thrombosis pathology, Factor XIIIa chemistry, Fibrin chemistry, Peptide Mapping methods, Peptides analysis

Abstract

The roles of factor XIIIa-specific cross-links in thrombus formation, regression, or probability for embolization are largely unknown. A molecular understanding of fibrin architecture at the level of these cross-links could inform the development of therapeutic strategies to prevent the sequelae of thromboembolism. Here, we present an MS-based method to map native factor XIIIa cross-links in the insoluble matrix component of whole-blood or plasma-fibrin clots and in in vivo thrombi. Using a chaotrope-insoluble digestion method and quantitative cross-linking MS, we identified the previously mapped fibrinogen peptides that are responsible for covalent D-dimer association, as well as dozens of novel cross-links in the αC region of fibrinogen α. Our findings expand the known native cross-linked species from one to over 100 and suggest distinct antiparallel registries for interprotofibril association and covalent attachment of serpins that regulate clot dissolution., (© 2019 Schmitt et al.)

Published

2019

34. Sperm-Leucylaminopeptidases are required for male fertility as structural components of mitochondrial paracrystalline material in Drosophila melanogaster sperm.

Author

Laurinyecz B, Vedelek V, Kovács AL, Szilasi K, Lipinszki Z, Slezák C, Darula Z, Juhász G, and Sinka R

Subjects

Animals, Animals, Genetically Modified, Crystallization, Drosophila Proteins chemistry, Drosophila Proteins genetics, Drosophila melanogaster genetics, Drosophila melanogaster physiology, Fertility genetics, Fertility physiology, Genes, Insect, Infertility, Male enzymology, Infertility, Male genetics, Leucyl Aminopeptidase chemistry, Leucyl Aminopeptidase genetics, Male, Microscopy, Electron, Transmission, Mitochondria chemistry, Mitochondria enzymology, Mitochondria ultrastructure, Mutation, RNA Interference, Spermatogenesis genetics, Spermatogenesis physiology, Spermatozoa physiology, Spermatozoa ultrastructure, Drosophila Proteins metabolism, Drosophila melanogaster enzymology, Leucyl Aminopeptidase metabolism, Spermatozoa enzymology

Abstract

Drosophila melanogaster sperm reach an extraordinary long size, 1.8 mm, by the end of spermatogenesis. The mitochondrial derivatives run along the entire flagellum and provide structural rigidity for flagellar movement, but its precise function and organization is incompletely understood. The two mitochondrial derivatives differentiate and by the end of spermatogenesis the minor one reduces its size and the major one accumulates paracrystalline material inside it. The molecular constituents and precise function of the paracrystalline material have not yet been revealed. Here we purified the paracrystalline material from mature sperm and identified by mass spectrometry Sperm-Leucylaminopeptidase (S-Lap) family members as important constituents of it. To study the function of S-Lap proteins we show the characterization of classical mutants and RNAi lines affecting of the S-Lap genes and the analysis of their mutant phenotypes. We show that the male sterile phenotype of the S-Lap mutants is caused by defects in paracrystalline material accumulation and abnormal structure of the elongated major mitochondrial derivatives. Our work shows that S-Lap proteins localize and accumulate in the paracrystalline material of the major mitochondrial derivative. Therefore, we propose that S-Lap proteins are important constituents of the paracrystalline material of Drosophila melanogaster sperm., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

35. Extended Sialylated O-Glycan Repertoire of Human Urinary Glycoproteins Discovered and Characterized Using Electron-Transfer/Higher-Energy Collision Dissociation.

Author

Darula Z, Pap Á, and Medzihradszky KF

Subjects

Chromatography, Liquid, Glycopeptides analysis, Humans, N-Acetylneuraminic Acid chemistry, Polysaccharides chemistry, Tandem Mass Spectrometry methods, Glycoproteins urine, Polysaccharides analysis, Proteomics methods

Abstract

A relatively novel activation technique, electron-transfer/higher-energy collision dissociation (EThcD) was used in the LC-MS/MS analysis of tryptic glycopeptides enriched with wheat germ agglutinin from human urine samples. We focused on the characterization of mucin-type O-glycopeptides. EThcD in a single spectrum provided information on both the peptide modified and the glycan carried. Unexpectedly, glycan oxonium ions indicated the presence of O-acetyl, and even O-diacetyl-sialic acids. B and Y fragment ions revealed that (i) in core 1 structures the Gal residue featured the O-acetyl-sialic acid, when there was only one in the glycan; (ii) several glycopeptides featured core 1 glycans with disialic acids, in certain instances O-acetylated; (iii) the disialic acid was linked to the GalNAc residue whatever the degree of O-acetylation; (iv) core 2 isomers with a single O-acetyl-sialic acid were chromatographically resolved. Glycan fragmentation also helped to decipher additional core 2 oligosaccharides: a LacdiNAc-like structure, glycans carrying sialyl Lewis X/A at different stages of O-acetylation, and blood antigens. A sialo core 3 structure was also identified. We believe this is the first study when such structures were characterized from a very complex mixture and were linked not only to a specific protein, but also the sites of modifications have been determined.

Published

2019

36. Characterization of Site-Specific N-Glycosylation.

Author

Hevér H, Darula Z, and Medzihradszky KF

Subjects

Alkylation, Amino Acid Sequence, Chromatography, Liquid, Glycopeptides chemistry, Glycoproteins metabolism, Glycosylation, Oligosaccharides chemistry, Protein Processing, Post-Translational, Proteins metabolism, Tandem Mass Spectrometry, Glycoproteins chemistry, Proteins chemistry, Spectrometry, Mass, Electrospray Ionization

Abstract

Even if a consensus sequence has been identified for a posttranslational modification, the presence of such a sequence motif only indicates the possibility, not the certainty that the modification actually occurs. Proteins can be glycosylated on certain amino acid side chains, and these modifications are designated as C-, N-, and O-glycosylation. C-mannosylation occurs on Trp residues within a relatively loosely defined consensus motif. N-glycosylated species are modified at Asn residues of Asn-Xxx-Ser/Thr/Cys sequons (where Xxx can be any amino acid except proline). N-linked oligosaccharides share a common core structure of GlcNAc 2 Man 3 . In addition, an enzyme, peptide N-glycosidase F (PNGase F), removes most of the common N-linked carbohydrates unaltered from proteins while hydrolyzing the originally glycosylated Asn residue to Asp. O-glycosylation occurs at Ser, Thr, and Tyr residues, usually in sequence stretches rich in hydroxy-amino acids. O-glycosylation lacks a common core structure. Mammalian proteins have been reported bearing O-linked N-acetylgalactosamine, fucose, glucose, xylose, mannose, and corresponding elongated structures, as well as N-acetylglucosamine. Chemical methods are used to liberate these oligosaccharides because no enzyme would remove all the different O-linked carbohydrates. Characterization of both N- and O-glycosylation is complicated by the fact that the same positions within a population of protein molecules may feature an array of different carbohydrate structures, or remain unmodified. This site-specific heterogeneity may vary by species and tissue, and may also be affected by physiological changes. For addressing site-specific carbohydrate heterogeneity mass spectrometry has become the method of choice. Reversed-phase HPLC directly coupled with electrospray ionization mass spectrometry (LC/ESI-MS/MS) offers the best solution. Using a mass spectrometer as online detector not only assures the analysis of every component eluting (mass mapping), but also at the same time diagnostic carbohydrate ions can be generated by collisional activation that permits the selective and specific detection of glycopeptides. In addition, ESI-compatible alternative MS/MS techniques, electron-capture and electron-transfer dissociation, aid glycopeptide identification as well as modification site assignments.

Published

2019

37. Assessing the reproducibility of an O-glycopeptide enrichment method with a novel software, Pinnacle.

Author

Pap A, Prakash A, F Medzihradszky K, and Darula Z

Subjects

Glycomics, Glycopeptides blood, Glycopeptides chemistry, Glycosylation, Humans, Lectins chemistry, Lectins metabolism, Reproducibility of Results, Tandem Mass Spectrometry methods, Chromatography, Affinity methods, Glycopeptides isolation & purification, Software

Abstract

A novel software, Pinnacle was used to reassess the reproducibility of a 2-step lectin-based O-glycopeptide enrichment method. A publicly available dataset consisting of 12 data files representing 3 technical replicates of enriched glycopeptides from human serum was investigated. Previously, an attempt for reproducibility assessment was made utilizing an MS/MS scan (MS2)-based method. However, the stochastic nature of precursor ion selection strongly biased this approach leading to underestimated rate of reproducibility. To bypass this problem, our present method follows the general path to confidently identify O-glycopeptides (database search with MS/MS data) supplemented with full scan/survey scan (MS1)/extracted ion chromatogram (XIC) mining in all files using two software packages, Pinnacle and Skyline. Confident MS/MS identifications were delivered by Protein Prospector. With this input Skyline indicated a 70% reproducibility for our workflow. However, Pinnacle performed better, indicating the presence of 90% of the confidently assigned glycopeptides in all the three replicates. Pinnacle, just like Skyline, performs ion extraction using the high accuracy, high resolution mass measurement data but it also utilizes all the available MS/MS spectra, even from different activation methods, within the same file to make mass spectrometric data evaluation for glycopeptides more reliable., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

38. Integrated Systems Biology Approach Identifies Novel Maternal and Placental Pathways of Preeclampsia.

Author

Than NG, Romero R, Tarca AL, Kekesi KA, Xu Y, Xu Z, Juhasz K, Bhatti G, Leavitt RJ, Gelencser Z, Palhalmi J, Chung TH, Gyorffy BA, Orosz L, Demeter A, Szecsi A, Hunyadi-Gulyas E, Darula Z, Simor A, Eder K, Szabo S, Topping V, El-Azzamy H, LaJeunesse C, Balogh A, Szalai G, Land S, Torok O, Dong Z, Kovalszky I, Falus A, Meiri H, Draghici S, Hassan SS, Chaiworapongsa T, Krispin M, Knöfler M, Erez O, Burton GJ, Kim CJ, Juhasz G, and Papp Z

Subjects

Adult, Biomarkers blood, Female, Humans, Pregnancy, Proteomics, Systems Biology, Trophoblasts metabolism, Trophoblasts pathology, Placenta Diseases blood, Placenta Diseases genetics, Placenta Diseases physiopathology, Pre-Eclampsia blood, Pre-Eclampsia genetics, Pre-Eclampsia physiopathology

Abstract

Preeclampsia is a disease of the mother, fetus, and placenta, and the gaps in our understanding of the complex interactions among their respective disease pathways preclude successful treatment and prevention. The placenta has a key role in the pathogenesis of the terminal pathway characterized by exaggerated maternal systemic inflammation, generalized endothelial damage, hypertension, and proteinuria. This sine qua non of preeclampsia may be triggered by distinct underlying mechanisms that occur at early stages of pregnancy and induce different phenotypes. To gain insights into these molecular pathways, we employed a systems biology approach and integrated different "omics," clinical, placental, and functional data from patients with distinct phenotypes of preeclampsia. First trimester maternal blood proteomics uncovered an altered abundance of proteins of the renin-angiotensin and immune systems, complement, and coagulation cascades in patients with term or preterm preeclampsia. Moreover, first trimester maternal blood from preterm preeclamptic patients in vitro dysregulated trophoblastic gene expression. Placental transcriptomics of women with preterm preeclampsia identified distinct gene modules associated with maternal or fetal disease. Placental "virtual" liquid biopsy showed that the dysregulation of these disease gene modules originates during the first trimester. In vitro experiments on hub transcription factors of these gene modules demonstrated that DNA hypermethylation in the regulatory region of ZNF554 leads to gene down-regulation and impaired trophoblast invasion, while BCL6 and ARNT2 up-regulation sensitizes the trophoblast to ischemia, hallmarks of preterm preeclampsia. In summary, our data suggest that there are distinct maternal and placental disease pathways, and their interaction influences the clinical presentation of preeclampsia. The activation of maternal disease pathways can be detected in all phenotypes of preeclampsia earlier and upstream of placental dysfunction, not only downstream as described before, and distinct placental disease pathways are superimposed on these maternal pathways. This is a paradigm shift, which, in agreement with epidemiological studies, warrants for the central pathologic role of preexisting maternal diseases or perturbed maternal-fetal-placental immune interactions in preeclampsia. The description of these novel pathways in the "molecular phase" of preeclampsia and the identification of their hub molecules may enable timely molecular characterization of patients with distinct preeclampsia phenotypes.

Published

2018

39. Status Report on the High-Throughput Characterization of Complex Intact O-Glycopeptide Mixtures.

Author

Pap A, Klement E, Hunyadi-Gulyas E, Darula Z, and Medzihradszky KF

Subjects

Adult, Carbohydrate Sequence, Chromatography, Liquid methods, Female, Glycopeptides analysis, Humans, Male, Middle Aged, Search Engine, Glycopeptides urine, Tandem Mass Spectrometry methods

Abstract

A very complex mixture of intact, human N- and O-glycopeptides, enriched from the tryptic digest of urinary proteins of three healthy donors using a two-step lectin affinity enrichment, was analyzed by LC-MS/MS, leading to approximately 45,000 glycopeptide EThcD spectra. Two search engines, Byonic and Protein Prospector, were used for the interpretation of the data, and N- and O-linked glycopeptides were assigned from separate searches. The identification rate was very low in all searches, even when results were combined. Thus, we investigated the reasons why was it so, to help to improve the identification success rate. Focusing on O-linked glycopeptides, we noticed that in EThcD, larger glycan oxonium ions better survive the activation than those in HCD. These fragments, combined with reducing terminal Y ions, provide important information about the glycan(s) present, so we investigated whether filtering the peaklists for glycan oxonium ions indicating the presence of a tetra- or hexasaccharide structure would help to reveal all molecules containing such glycans. Our study showed that intact glycans frequently do not survive even mild supplemental activation, meaning one cannot rely on these oxonium ions exclusively. We found that ETD efficiency is still a limiting factor, and for highly glycosylated peptides, the only information revealed in EThcD was related to the glycan structures. The limited overlap of results delivered by the two search engines draws attention to the fact that automated data interpretation of O-linked glycopeptides is not even close to being solved. Graphical abstract ᅟ.

Published

2018

40. Microtubule organization in presynaptic boutons relies on the formin DAAM.

Author

Migh E, Götz T, Földi I, Szikora S, Gombos R, Darula Z, Medzihradszky KF, Maléth J, Hegyi P, Sigrist S, and Mihály J

Subjects

Actin Cytoskeleton metabolism, Animals, Blotting, Western, Drosophila metabolism, Immunohistochemistry, Mass Spectrometry, Neuromuscular Junction metabolism, Adaptor Proteins, Signal Transducing metabolism, Cytoskeleton metabolism, Drosophila Proteins metabolism, Microtubules metabolism, Presynaptic Terminals metabolism, Synapses metabolism

Abstract

Regulation of the cytoskeleton is fundamental to the development and function of synaptic terminals, such as neuromuscular junctions. Despite the identification of numerous proteins that regulate synaptic actin and microtubule dynamics, the mechanisms of cytoskeletal control during terminal arbor formation have remained largely elusive. Here, we show that DAAM, a member of the formin family of cytoskeleton organizing factors, is an important presynaptic regulator of neuromuscular junction development in Drosophila We demonstrate that the actin filament assembly activity of DAAM plays a negligible role in terminal formation; rather, DAAM is necessary for synaptic microtubule organization. Genetic interaction studies consistently link DAAM with the Wg/Ank2/Futsch module of microtubule regulation and bouton formation. Finally, we provide evidence that DAAM is tightly associated with the synaptic active zone scaffold, and electrophysiological data point to a role in the modulation of synaptic vesicle release. Based on these results, we propose that DAAM is an important cytoskeletal effector element of the Wg/Ank2 pathway involved in the determination of basic synaptic structures, and, additionally, that DAAM may couple the active zone scaffold to the presynaptic cytoskeleton., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2018. Published by The Company of Biologists Ltd.)

Published

2018

41. Salivary proteome profiling of oral squamous cell carcinoma in a Hungarian population.

Author

Csősz É, Márkus B, Darula Z, Medzihradszky KF, Nemes J, Szabó E, Tőzsér J, Kiss C, and Márton I

Abstract

Oral squamous cell carcinoma (OSCC) is the seventh most common malignancy and the ninth most frequent cause of cancer death in Europe. Within Europe, Hungary has one of the highest rates of OSCC incidence and mortality. Thus, there is an urgent need to improve early detection. Saliva, as a readily available body fluid, became an increasingly important substance for the detection of biomarkers for many diseases. Different research groups have identified salivary biomarkers specific for OSCC for different countries. In this study, saliva samples of Hungarian patients with OSCC were studied to discover disease-specific and perhaps region-specific biomarkers. LC-mass spectrometry (MS)/MS analysis on a linear ion trap-Orbitrap mass spectrometer was used for qualitative and quantitative salivary protein profiling. More than 500 proteins were identified from saliva by shotgun proteomics. The up- and downregulated proteins in the saliva of patients with OSCC highlighted the importance of protein-protein interaction networks involving the immune system and proteolysis in disease development. Two potential biomarkers from our shotgun analysis and a third candidate reported earlier by a Taiwanese group were further examined by ELISA on a larger reference set of samples. Resistin, a biomarker reported in Taiwan but not validated in our study, highlights the necessity of application of standardized analysis methods in different ethnic or geographical populations to identify biomarkers with sufficient specificity and sensitivity.

Published

2018

42. Coevolving MAPK and PID phosphosites indicate an ancient environmental control of PIN auxin transporters in land plants.

Author

Dory M, Hatzimasoura E, Kállai BM, Nagy SK, Jäger K, Darula Z, Nádai TV, Mészáros T, López-Juez E, Barnabás B, Palme K, Bögre L, Ditengou FA, and Dóczi R

Subjects

Amino Acid Sequence, Arabidopsis genetics, Arabidopsis metabolism, Binding Sites genetics, Conserved Sequence, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Phosphorylation, Plant Development, Plant Roots metabolism, Plants genetics, Plants metabolism, Plants, Genetically Modified, Protoplasts metabolism, Evolution, Molecular, Indoleacetic Acids metabolism, Mitogen-Activated Protein Kinases genetics, Mitogen-Activated Protein Kinases metabolism, Plant Proteins genetics, Plant Proteins metabolism, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases metabolism

Abstract

Plant growth flexibly adapts to environmental conditions, implying cross-talk between environmental signalling and developmental regulation. Here, we show that the PIN auxin efflux carrier family possesses three highly conserved putative mitogen-activated protein kinase (MAPK) sites adjacent to the phosphorylation sites of the well-characterised AGC kinase PINOID, which regulates the polar localisation of PINs and directional auxin transport, thereby underpinning organ growth. The conserved sites of PIN1 are phosphorylated in vitro by two environmentally activated MAPKs, MPK4 and MPK6. In contrast to AGC kinases, MAPK-mediated phosphorylation of PIN1 at adjacent sites leads to a partial loss of the plasma membrane localisation of PIN1. MAPK-mediated modulation of PIN trafficking may participate in environmental adjustment of plant growth., (© 2017 The Authors. FEBS Letters published by John Wiley & Sons Ltd on behalf of Federation of European Biochemical Societies.)

Published

2018

43. Analysis of Mammalian O-Glycopeptides-We Have Made a Good Start, but There is a Long Way to Go.

Author

Darula Z and Medzihradszky KF

Subjects

Animals, Glycosylation, Humans, Glycopeptides metabolism

Abstract

Glycosylation is perhaps the most common post-translational modification. Recently there has been growing interest in cataloging the glycan structures, glycoproteins, and specific sites modified and deciphering the biological functions of glycosylation. Although the results are piling up for N-glycosylation, O-glycosylation is seriously trailing behind. In our review we reiterate the difficulties researchers have to overcome in order to characterize O-glycosylation. We describe how an ingenious cell engineering method delivered exciting results, and what could we gain from "wild-type" samples. Although we refer to the biological role(s) of O-glycosylation, we do not provide a complete inventory on this topic., (© 2018 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2018

44. Hemolectin expression reveals functional heterogeneity in honey bee (Apis mellifera) hemocytes.

Author

Gábor E, Cinege G, Csordás G, Török T, Folkl-Medzihradszky K, Darula Z, Andó I, and Kurucz É

Subjects

Animals, Antibodies, Monoclonal isolation & purification, Biodiversity, Cell Separation, Lectins genetics, Lectins immunology, Mammals, Phagocytosis, Platelet Aggregation genetics, Sequence Homology, Amino Acid, Transcriptome, von Willebrand Factor genetics, Bees immunology, Hemocytes physiology, Hemolymph metabolism, Lectins metabolism, Thrombosis metabolism

Abstract

The identification of molecular markers considerably facilitated the classification and functional analysis of blood cell types. Apis mellifera hemocytes have been classified by morphological criteria and lectin binding properties; however, the use of molecular markers has been minimal. Here we describe a monoclonal antibody to a non-phagocytic subpopulation of A. mellifera hemocytes and to a constituent of the hemolymph clot. We demonstrate that the antibody identifies the A. mellifera hemolectin, a protein carrying human von Willebrand factor homology domains, characteristic of proteins involved in blood coagulation and platelet aggregation in mammals. Hemolectin expressing A. mellifera hemocytes contain the protein as cytoplasmic granules and contribute to the formation of a protein matrix, building up around foreign particles. Consequently, hemolectin as a marker molecule reveals a clear functional heterogeneity of hemocytes, allowing for the analytical separation of hemocyte classes, and could promote the molecular identification of hemocyte lineages in A. mellifera., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

45. Correction: Myosin phosphatase and RhoA-activated kinase modulate neurotransmitter release by regulating SNAP-25 of SNARE complex.

Author

Horváth D, Tamás I, Sipos A, Darula Z, Bécsi B, Nagy D, Iván J, Erdődi F, and Lontay B

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0177046.].

Published

2017

46. Myosin phosphatase and RhoA-activated kinase modulate neurotransmitter release by regulating SNAP-25 of SNARE complex.

Author

Horváth D, Tamás I, Sipos A, Darula Z, Bécsi B, Nagy D, Iván J, Erdődi F, and Lontay B

Subjects

Animals, Cell Line, Tumor, Humans, Phosphorylation, Myosin-Light-Chain Phosphatase metabolism, Neurotransmitter Agents metabolism, Synaptosomal-Associated Protein 25 metabolism, rhoA GTP-Binding Protein metabolism

Abstract

Reversible phosphorylation of neuronal proteins plays an important role in the regulation of neurotransmitter release. Myosin phosphatase holoenzyme (MP) consists of a protein phosphatase-1 (PP1) catalytic subunit (PP1c) and a regulatory subunit, termed myosin phosphatase targeting subunit (MYPT1). The primary function of MP is to regulate the phosphorylation level of contractile proteins; however, recent studies have shown that MP is localized to neurons, and is also involved in the mediation of neuronal processes. Our goal was to investigate the effect of RhoA-activated kinase (ROK) and MP on the phosphorylation of one potential neuronal substrate, the synaptosomal-associated protein of 25 kDa (SNAP-25). SNAP-25 is a member of the SNARE (soluble N-ethylmaleimide sensitive factor attachment protein receptor) complex, along with synaptobrevin and syntaxin, and the primary role of SNAP25 is to mediate vesicle fusion. We showed that MYPT1 interacts with SNAP-25, as revealed by immunoprecipitation and surface plasmon resonance based binding studies. Mass spectrometry analysis and in vitro phosphorylation/dephosphorylation assays demonstrated that ROK phosphorylates, while MP dephosphorylates, SNAP-25 at Thr138. Silencing MYPT1 in B50 neuroblastoma cells increased phosphorylation of SNAP-25 at Thr138. Inhibition of PP1 with tautomycetin increased, whereas inhibition of ROK by H1152, decreased the phosphorylation of SNAP-25 at Thr138 in B50 cells, in cortical synaptosomes, and in brain slices. In response to the transduction of the MP inhibitor, kinase-enhanced PP1 inhibitor (KEPI), into synaptosomes, an increase in phosphorylation of SNAP-25 and a decrease in the extent of neurotransmitter release were detected. The interaction between SNAP-25 and syntaxin increased with decreasing phosphorylation of SNAP-25 at Thr138, upon inhibition of ROK. Our data suggest that ROK/MP play a crucial role in vesicle trafficking, fusion, and neurotransmitter release by oppositely regulating the phosphorylation of SNAP-25 at Thr138.

Published

2017

47. Arabidopsis RETINOBLASTOMA RELATED directly regulates DNA damage responses through functions beyond cell cycle control.

Author

Horvath BM, Kourova H, Nagy S, Nemeth E, Magyar Z, Papdi C, Ahmad Z, Sanchez-Perez GF, Perilli S, Blilou I, Pettkó-Szandtner A, Darula Z, Meszaros T, Binarova P, Bogre L, and Scheres B

Subjects

Ataxia Telangiectasia Mutated Proteins metabolism, DNA, Plant metabolism, Arabidopsis genetics, Arabidopsis Proteins metabolism, Cell Cycle Checkpoints, DNA Damage, DNA Repair, E2F Transcription Factors metabolism, Gene Expression Regulation, Plant

Abstract

The rapidly proliferating cells in plant meristems must be protected from genome damage. Here, we show that the regulatory role of the Arabidopsis RETINOBLASTOMA RELATED (RBR) in cell proliferation can be separated from a novel function in safeguarding genome integrity. Upon DNA damage, RBR and its binding partner E2FA are recruited to heterochromatic γH2AX-labelled DNA damage foci in an ATM- and ATR-dependent manner. These γH2AX-labelled DNA lesions are more dispersedly occupied by the conserved repair protein, AtBRCA1, which can also co-localise with RBR foci. RBR and AtBRCA1 physically interact in vitro and in planta Genetic interaction between the RBR-silenced amiRBR and Atbrca1 mutants suggests that RBR and AtBRCA1 may function together in maintaining genome integrity. Together with E2FA, RBR is directly involved in the transcriptional DNA damage response as well as in the cell death pathway that is independent of SOG1, the plant functional analogue of p53. Thus, plant homologs and analogues of major mammalian tumour suppressor proteins form a regulatory network that coordinates cell proliferation with cell and genome integrity., (© 2017 The Authors. Published under the terms of the CC BY 4.0 license.)

Published

2017

48. Proteomic investigation of the prefrontal cortex in the rat clomipramine model of depression.

Author

Gellén B, Völgyi K, Györffy BA, Darula Z, Hunyadi-Gulyás É, Baracskay P, Czurkó A, Hernádi I, Juhász G, Dobolyi Á, and Kékesi KA

Subjects

Animals, Animals, Newborn, Clomipramine administration & dosage, Depression drug therapy, Female, Intramolecular Oxidoreductases analysis, Macrophage Migration-Inhibitory Factors analysis, Male, Mass Spectrometry, Proteomics methods, Rats, Two-Dimensional Difference Gel Electrophoresis, Clomipramine adverse effects, Depression chemically induced, Prefrontal Cortex chemistry, Proteome drug effects

Abstract

Neonatal rodents chronically treated with the tricyclic antidepressant clomipramine show depression-like behavior, which persists throughout adulthood. Therefore, this animal model is suitable to investigate the pathomechanism of depression, which is still largely unknown at the molecular level beyond monoaminergic dysfunctions. Here, we describe protein level changes in the prefrontal cortex of neonatally clomipramine-treated adult rats correlating with behavioral abnormalities. Clomipramine was administered to rat pups twice daily between postnatal days 8-21, while controls received saline injections. Behavioral tests were performed on 3months old rats. The proteomic study was conducted using two-dimensional differential gel electrophoresis. We have identified 32 proteins by mass spectrometry analysis of the significantly altered protein spots. The changed proteins are related to several biological functions, such as inflammation, transcription, cell metabolism and cytoskeleton organization. Among the altered proteins, the level of macrophage migration inhibitory factor showed the largest alteration, which was confirmed with Western blot. Macrophage migration inhibitory factor showed widespread distribution and was predominantly expressed in astrocytes in the forebrain of rats which were described using immunohistochemistry. We conclude that neonatal clomipramine exposure induces sustained modification in the proteome, which may form the molecular basis of the observed depression-like behavior in adult rats., Biological Significance: It is known that some of the psychiatric disorders, such as autism, depression or schizophrenia may be at least in part, developmental disorders. We hypothesized that clomipramine treatment in early stage of brain development, which is known to induce depression-like behavior in adult rats, results in pathological distortion in neuronal and glial network development, which can be reflected by the cellular proteome in adulthood. Thus, we performed an unbiased proteomics experiment in adult rats, which were neonatally administered with clomipramine to reveal protein level changes three months after treatment. Many of the identified changed proteins are previously associated with depressive symptoms, e.g., the macrophage migration inhibitory factor (MIF), the level of which showed the largest alteration among the identified proteins. Based on our data, we suggest that neonatal clomipramine treatment is a reliable model to study the developmental effect of psychoactive drugs applied in the sensitive early phase of brain development. Furthermore, our findings support the idea that the alteration of early development of the brain induced by antidepressant treatment could result in sustained pathological changes in the cellular phenotype in the prefrontal cortex leading to depression-like behavioral symptoms., (Copyright © 2016. Published by Elsevier B.V.)

Published

2017

49. Myosin phosphatase and RhoA-activated kinase modulate arginine methylation by the regulation of protein arginine methyltransferase 5 in hepatocellular carcinoma cells.

Author

Sipos A, Iván J, Bécsi B, Darula Z, Tamás I, Horváth D, Medzihradszky KF, Erdődi F, and Lontay B

Subjects

Carcinoma, Hepatocellular genetics, Carcinoma, Hepatocellular pathology, Cell Line, Tumor, Cell Nucleus metabolism, Down-Regulation genetics, Gene Expression Regulation, Neoplastic, Gene Silencing, Hep G2 Cells, Humans, Liver Neoplasms genetics, Liver Neoplasms pathology, Methylation, Models, Biological, Oligonucleotide Array Sequence Analysis, Phosphorylation, Phosphothreonine metabolism, Protein Binding, Protein Interaction Mapping, Substrate Specificity, Arginine metabolism, Carcinoma, Hepatocellular enzymology, Liver Neoplasms enzymology, Myosin-Light-Chain Phosphatase metabolism, Protein-Arginine N-Methyltransferases metabolism, rho-Associated Kinases metabolism

Abstract

Myosin phosphatase (MP) holoenzyme is a protein phosphatase-1 (PP1) type Ser/Thr specific enzyme that consists of a PP1 catalytic (PP1c) and a myosin phosphatase target subunit-1 (MYPT1). MYPT1 is an ubiquitously expressed isoform and it targets PP1c to its substrates. We identified the protein arginine methyltransferase 5 (PRMT5) enzyme of the methylosome complex as a MYPT1-binding protein uncovering the nuclear MYPT1-interactome of hepatocellular carcinoma cells. It is shown that PRMT5 is regulated by phosphorylation at Thr80 by RhoA-associated protein kinase and MP. Silencing of MYPT1 increased the level of the PRMT5-specific symmetric dimethylation on arginine residues of histone 2 A/4, a repressing gene expression mark, and it resulted in a global change in the expression of genes affecting cellular processes like growth, proliferation and cell death, also affecting the expression of the retinoblastoma protein and c-Myc. The phosphorylation of the MP inhibitory MYPT1 T850 and the regulatory PRMT5 T80 residues as well as the symmetric dimethylation of H2A/4 were elevated in human hepatocellular carcinoma and in other types of cancers. These changes correlated positively with the grade and state of the tumors. Our results suggest the tumor suppressor role of MP via inhibition of PRMT5 thereby regulating gene expression through histone arginine dimethylation.

Published

2017

50. Using "spectral families" to assess the reproducibility of glycopeptide enrichment: human serum O-glycosylation revisited.

Author

Pap A, Medzihradszky KF, and Darula Z

Subjects

Blood Proteins chemistry, Glycosylation, Humans, Mucin-1 chemistry, Reproducibility of Results, Glycopeptides chemistry, Glycopeptides isolation & purification

Abstract

Growing evidence on the diverse biological roles of extracellular glycosylation as well as the need for quality control of protein pharmaceuticals make glycopeptide analysis both exciting and important again after a long hiatus. High-throughput O-glycosylation studies have to tackle the complexity of glycosylation as well as technical difficulties and, up to now, have yielded only limited results mostly from single enrichment experiments. In this study, we address the technical reproducibility of the characterization of the most prevalent O-glycosylation (mucin-type core 1 structures) in human serum, using a two-step lectin affinity-based workflow. Our results are based on automated glycopeptide identifications from higher-energy C-trap dissociation and electron transfer dissociation MS/MS data. Assignments meeting strict acceptance criteria served as the foundation for generating "spectral families" incorporating low-scoring MS/MS identifications, supported by accurate mass measurements and expected chromatographic retention times. We show that this approach helped to evaluate the reproducibility of the glycopeptide enrichment more reliably and also contributed to the expansion of the glycoform repertoire of already identified glycosylated sequences. The roadblocks hindering more in-depth investigations and quantitative analyses will also be discussed.

Published

2017