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2. Cellular forgetting, desensitisation, stress and aging in signalling networks. When do cells refuse to learn more?

Author

Veres, Tamas, Kerestely, Mark, Kovacs, Borbala M., Keresztes, David, Schulc, Klara, Seitz, Erik, Vassy, Zsolt, Veres, Daniel V., and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Quantitative Biology - Cell Behavior
Abstract

Recent findings show that single, non-neuronal cells are also able to learn signalling responses developing cellular memory. In cellular learning nodes of signalling networks strengthen their interactions e.g. by the conformational memory of intrinsically disordered proteins, protein translocation, miRNAs, lncRNAs, chromatin memory and signalling cascades. This can be described by a generalized, unicellular Hebbian learning process, where those signalling connections, which participate in learning, become stronger. Here we review those scenarios, where cellular signalling is not only repeated in a few times (when learning occurs), but becomes too frequent, too large, or too complex and overloads the cell. This leads to desensitisation of signalling networks by decoupling signalling components, receptor internalization, and consequent downregulation. These molecular processes are examples of anti-Hebbian learning and forgetting of signalling networks. Stress can be perceived as signalling overload inducing the desensitisation of signalling pathways. Aging occurs by the summative effects of cumulative stress downregulating signalling. We propose that cellular learning desensitisation, stress and aging may be placed along the same axis of more and more intensive (prolonged or repeated) signalling. We discuss how cells might discriminate between repeated and unexpected signals, and highlight the Hebbian and anti-Hebbian mechanisms behind the fold-change detection in the NF-\k{appa}B signalling pathway. We list drug design methods using Hebbian learning (such as chemically-induced proximity) and clinical treatment modalities inducing (cancer, drug allergies) desensitisation or avoiding drug-induced desensitisation. A better discrimination between cellular learning, desensitisation and stress may open novel directions in drug design, e.g., helping to overcome drug-resistance., Comment: 19 pages, 4 figures

Published
2023
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3. Elevated plasma hepcidin concentrations are associated with an increased risk of mortality and nonfatal cardiovascular events in patients with type 2 diabetes: a prospective study

Author

Mantovani, Alessandro, Busti, Fabiana, Borella, Nicolò, Scoccia, Enrico, Pecoraro, Barbara, Sani, Elena, Morandin, Riccardo, Csermely, Alessandro, Piasentin, Daniele, Grespan, Elisabetta, Castagna, Annalisa, Bilson, Josh, Byrne, Christopher D., Valenti, Luca, Girelli, Domenico, and Targher, Giovanni

Published
2024
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6. Learning Curve of First-Trimester Detailed Cardiovascular Ultrasound Screening by Moderately Experienced Obstetricians in 3509 Consecutive Unselected Pregnancies with Fetal Follow-Up

Author

Tibor Elekes, Gyula Csermely, Krisztina Kádár, László Molnár, Gábor Keszthelyi, Andrea Hozsdora, Miklós Vizer, Marianna Török, Petra Merkely, and Szabolcs Várbíró

Subjects
cardiovascular ultrasound screening, learning curve, moderately experienced obstetricians, fetal follow up, Science
Abstract

Our primary objective was to assess the effectiveness of detailed cardiovascular ultrasound screening during the first trimester, which was performed by obstetricians with intermediate experience. We collected first-trimester fetal cardiac screening data from an unselected pregnant population at RMC-Fetal Medicine Center during a study period spanning from 1 January 2010, to 31 January 2015, in order to analyze our learning curve. A pediatric cardiologist performed a follow-up assessment in cases where the examining obstetrician determined that the fetal cardiac screening results were abnormal or high-risk. Overall, 42 (0.88%) congenital heart abnormalities were discovered prenatally out of 4769 fetuses from 4602 pregnant women who had at least one first-trimester cardiac ultrasonography screening. In total, 89.2% of the major congenital heart abnormalities (27 of 28) in the following fetuses were discovered (or at least highly suspected) at the first-trimester screening and subsequent fetal echocardiography by the pediatric cardiology specialist. Of these, 96.4% were diagnosed prenatally. According to our results, the effectiveness of first-trimester fetal cardiovascular ultrasound screening conducted by moderately experienced obstetricians in an unselected (’routine’) pregnant population may reach as high as 90% in terms of major congenital heart defects, provided that equipment, quality assurance, and motivation are appropriate.

Published
2024
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7. Synaptic polarity and sign-balance prediction using gene expression data in the Caenorhabditis elegans chemical synapse neuronal connectome network

Author

Fenyves, Bank G., Szilagyi, Gabor S., Vassy, Zsolt, Soti, Csaba, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Quantitative Biology - Genomics, Quantitative Biology - Neurons and Cognition
Abstract

Graph theoretical analyses of nervous systems usually omit the aspect of connection polarity, due to data insufficiency. The chemical synapse network of Caenorhabditis elegans is a well-reconstructed directed network, but the signs of its connections are yet to be elucidated. Here, we present the gene expression-based sign prediction of the ionotropic chemical synapse connectome of C. elegans (3,638 connections and 20,589 synapses total), incorporating available presynaptic neurotransmitter and postsynaptic receptor gene expression data for three major neurotransmitter systems. We made predictions for more than two-thirds of these chemical synapses and observed an excitatory-inhibitory (E:I) ratio close to 4:1 which was found similar to that observed in many real-world networks. Our open source tool (http://EleganSign.linkgroup.hu) is simple but efficient in predicting polarities by integrating neuronal connectome and gene expression data., Comment: 19 pages, 5 figues

Published
2021
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8. Lysosome-related organelles promote stress and immune responses in C. elegans

Author

Gábor Hajdú, Milán Somogyvári, Péter Csermely, and Csaba Sőti

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Lysosome-related organelles (LROs) play diverse roles and their dysfunction causes immunodeficiency. However, their primordial functions remain unclear. Here, we report that C. elegans LROs (gut granules) promote organismal defenses against various stresses. We find that toxic benzaldehyde exposure induces LRO autofluorescence, stimulates the expression of LRO-specific genes and enhances LRO transport capacity as well as increases tolerance to benzaldehyde, heat and oxidative stresses, while these responses are impaired in glo-1/Rab32 and pgp-2 ABC transporter LRO biogenesis mutants. Benzaldehyde upregulates glo-1- and pgp-2-dependent expression of heat shock, detoxification and antimicrobial effector genes, which requires daf-16/FOXO and/or pmk-1/p38MAPK. Finally, benzaldehyde preconditioning increases resistance against Pseudomonas aeruginosa PA14 in a glo-1- and pgp-2-dependent manner, and PA14 infection leads to the deposition of fluorescent metabolites in LROs and induction of LRO genes. Our study suggests that LROs may play a role in systemic responses to stresses and in pathogen resistance.

Published
2023
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9. Learning of signaling networks: molecular mechanisms

Author

Csermely, Péter, Kunsic, Nina, Mendik, Péter, Kerestély, Márk, Faragó, Teodóra, Veres, Dániel V., and Tompa, Péter

Subjects
Quantitative Biology - Molecular Networks, Computer Science - Neural and Evolutionary Computing, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics, Quantitative Biology - Cell Behavior
Abstract

Molecular processes of neuronal learning have been well-described. However, learning mechanisms of non-neuronal cells have not been fully understood at the molecular level. Here, we discuss molecular mechanisms of cellular learning, including conformational memory of intrinsically disordered proteins and prions, signaling cascades, protein translocation, RNAs (microRNA and lncRNA), and chromatin memory. We hypothesize that these processes constitute the learning of signaling networks and correspond to a generalized Hebbian learning process of single, non-neuronal cells, and discuss how cellular learning may open novel directions in drug design and inspire new artificial intelligence methods., Comment: cover story of the 2020 April issue of Trends in Biochemical Sciences

Published
2020
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10. Association between different modalities of insulin administration and metabolic dysfunction-associated fatty liver disease in adults with type 1 diabetes mellitus

Author

Csermely, Alessandro, Mantovani, Alessandro, Morieri, Mario Luca, Palmisano, Luisa, Masulli, Maria, Cossu, Efisio, Baroni, Marco Giorgio, Bonomo, Katia, Cimini, Flavia Agata, Cavallo, Gisella, Buzzetti, Raffaella, Mignogna, Carmen, Leonetti, Frida, Bacci, Simonetta, Trevisan, Roberto, Pollis, Riccardo Maria, Aldigeri, Raffaella, Cas, Alessandra Dei, de Kreutzenberg, Saula Vigili, and Targher, Giovanni

Published
2023
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11. The EntOptLayout Cytoscape plug-in for the efficient visualization of major protein complexes in protein-protein interaction and signalling networks

Author

Agg, Bence, Csaszar, Andrea, Szalay-Beko, Mate, Veres, Daniel V., Mizsei, Reka, Ferdinandy, Peter, Csermely, Peter, and Kovacs, Istvan A.

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Computer Vision and Pattern Recognition, Physics - Biological Physics
Abstract

Motivation: Network visualizations of complex biological datasets usually result in 'hairball' images, which do not discriminate network modules. Results: We present the EntOptLayout Cytoscape plug-in based on a recently developed network representation theory. The plug-in provides an efficient visualization of network modules, which represent major protein complexes in protein-protein interaction and signalling networks. Importantly, the tool gives a quality score of the network visualization by calculating the information loss between the input data and the visual representation showing a 3- to 25-fold improvement over conventional methods. Availability and implementation: The plug-in (running on Windows, Linux, or Mac OS) and its tutorial (both in written and video forms) can be downloaded freely under the terms of the MIT license from: http://apps.cytoscape.org/apps/entoptlayout. Supplementary data are available at Bioinformatics online. Contact: csermely.peter@med.semmelweis-univ.hu

Published
2019
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14. Translocatome: a novel resource for the analysis of protein translocation between cellular organelles

Author

Mendik, Peter, Dobronyi, Levente, Hari, Ferenc, Kerepesi, Csaba, Maia-Moco, Leonardo, Buszlai, Donat, Csermely, Peter, and Veres, Daniel V.

Subjects
Quantitative Biology - Molecular Networks, Physics - Biological Physics, Quantitative Biology - Subcellular Processes
Abstract

Here we present Translocatome, the first dedicated database of human translocating proteins. The core of the Translocatome database is the manually curated data set of 213 human translocating proteins listing the source of their experimental validation, several details of their translocation mechanism, their local compartmentalized interactome, as well as their involvement in signalling pathways and disease development. In addition, using the well-established and widely used gradient boosting machine learning tool, XGBoost, Translocatome provides translocation probability values for 13,066 human proteins identifying 1133 and 3268 high- and low-confidence translocating proteins, respectively. The database has user-friendly search options with a UniProt autocomplete quick search and advanced search for proteins filtered by their localization, UniProt identifiers, translocation likelihood or data complexity. Download options of search results, manually curated and predicted translocating protein sets are available on its website. The update of the database is helped by its manual curation framework and connection to the previously published ComPPI compartmentalized protein-protein interaction database. As shown by the application examples of merlin (NF2) and tumor protein 63 (TP63) Translocatome allows a better comprehension of protein translocation as a systems biology phenomenon and can be used as a discovery-tool in the protein translocation field. The database is available here: http://translocatome.linkgroup.hu

Published
2018
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15. Translocating proteins compartment-specifically alter the fate of epithelial-mesenchymal transition in a compartmentalized Boolean network model

Author

Péter Mendik, Márk Kerestély, Sebestyén Kamp, Dávid Deritei, Nina Kunšič, Zsolt Vassy, Péter Csermely, and Daniel V. Veres

Subjects
Biology (General), QH301-705.5
Abstract

Abstract Regulation of translocating proteins is crucial in defining cellular behaviour. Epithelial-mesenchymal transition (EMT) is important in cellular processes, such as cancer progression. Several orchestrators of EMT, such as key transcription factors, are known to translocate. We show that translocating proteins become enriched in EMT-signalling. To simulate the compartment-specific functions of translocating proteins we created a compartmentalized Boolean network model. This model successfully reproduced known biological traits of EMT and as a novel feature it also captured organelle-specific functions of proteins. Our results predicted that glycogen synthase kinase-3 beta (GSK3B) compartment-specifically alters the fate of EMT, amongst others the activation of nuclear GSK3B halts transforming growth factor beta-1 (TGFB) induced EMT. Moreover, our results recapitulated that the nuclear activation of glioma associated oncogene transcription factors (GLI) is needed to achieve a complete EMT. Compartmentalized network models will be useful to uncover novel control mechanisms of biological processes. Our algorithmic procedures can be automatically rerun on the https://translocaboole.linkgroup.hu website, which provides a framework for similar future studies.

Published
2022
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17. Learning Curve of First-Trimester Detailed Cardiovascular Ultrasound Screening by Moderately Experienced Obstetricians in 3509 Consecutive Unselected Pregnancies with Fetal Follow-Up.

Author

Elekes, Tibor, Csermely, Gyula, Kádár, Krisztina, Molnár, László, Keszthelyi, Gábor, Hozsdora, Andrea, Vizer, Miklós, Török, Marianna, Merkely, Petra, and Várbíró, Szabolcs

Subjects
CONGENITAL heart disease, LEARNING curve, FETAL echocardiography, FETAL ultrasonic imaging, PEDIATRIC cardiology, PREGNANT women, OBSTETRICIANS
Abstract

Our primary objective was to assess the effectiveness of detailed cardiovascular ultrasound screening during the first trimester, which was performed by obstetricians with intermediate experience. We collected first-trimester fetal cardiac screening data from an unselected pregnant population at RMC-Fetal Medicine Center during a study period spanning from 1 January 2010, to 31 January 2015, in order to analyze our learning curve. A pediatric cardiologist performed a follow-up assessment in cases where the examining obstetrician determined that the fetal cardiac screening results were abnormal or high-risk. Overall, 42 (0.88%) congenital heart abnormalities were discovered prenatally out of 4769 fetuses from 4602 pregnant women who had at least one first-trimester cardiac ultrasonography screening. In total, 89.2% of the major congenital heart abnormalities (27 of 28) in the following fetuses were discovered (or at least highly suspected) at the first-trimester screening and subsequent fetal echocardiography by the pediatric cardiology specialist. Of these, 96.4% were diagnosed prenatally. According to our results, the effectiveness of first-trimester fetal cardiovascular ultrasound screening conducted by moderately experienced obstetricians in an unselected ('routine') pregnant population may reach as high as 90% in terms of major congenital heart defects, provided that equipment, quality assurance, and motivation are appropriate. [ABSTRACT FROM AUTHOR]

Published
2024
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18. SignaLink3: a multi-layered resource to uncover tissue-specific signaling networks.

Author

Luca Csabai, Dávid Fazekas, Tamás Kadlecsik, Máté Szalay-Beko, Balázs Bohár, Matthew Madgwick, Dezsö Módos, Marton Olbei, Lejla Gul, Padhmanand Sudhakar, János Kubisch, Oyebode J. Oyeyemi, Orsolya Liska, Eszter Ari, Bernadette Hotzi, Viktor A. Billes, Eszter Molnár, László Földvári-Nagy, Kitti Csályi, Amanda Demeter, Nóra Pápai, Mihály Koltai, Máté Varga, Katalin Lenti, Illés J. Farkas, Dénes Türei, Péter Csermely, Tibor Vellai, and Tamás Korcsmáros

Published
2022
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20. Network support of talented people

Author

Csermely, Peter

Subjects
Physics - Physics and Society, Computer Science - Computers and Society, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Quantitative Biology - Neurons and Cognition
Abstract

Network support is a key success factor for talented people. As an example, the Hungarian Talent Support Network involves close to 1500 Talent Points and more than 200,000 people. This network started the Hungarian Templeton Program identifying and helping 315 exceptional cognitive talents. This network is a part of the European Talent Support Network initiated by the European Council for High Ability involving more than 300 organizations in over 30 countries in Europe and extending in other continents. These networks are giving good examples that talented people often occupy a central, but highly dynamic position in social networks. The involvement of such 'creative nodes' in network-related decision making processes is vital, especially in novel environmental challenges. Such adaptive/learning responses characterize a large variety of complex systems from proteins, through brains to society. It is crucial for talent support programs to use these networking and learning processes to increase their efficiency further.

Published
2017
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22. Probabilistic edge weights fine-tune Boolean network dynamics.

Author

Dávid Deritei, Nina Kunšič, and Péter Csermely

Subjects
Biology (General), QH301-705.5
Abstract

Biological systems are noisy by nature. This aspect is reflected in our experimental measurements and should be reflected in the models we build to better understand these systems. Noise can be especially consequential when trying to interpret specific regulatory interactions, i.e. regulatory network edges. In this paper, we propose a method to explicitly encode edge-noise in Boolean dynamical systems by probabilistic edge-weight (PEW) operators. PEW operators have two important features: first, they introduce a form of edge-weight into Boolean models through the noise, second, the noise is dependent on the dynamical state of the system, which enables more biologically meaningful modeling choices. Moreover, we offer a simple-to-use implementation in the already well-established BooleanNet framework. In two application cases, we show how the introduction of just a few PEW operators in Boolean models can fine-tune the emergent dynamics and increase the accuracy of qualitative predictions. This includes fine-tuning interactions which cause non-biological behaviors when switching between asynchronous and synchronous update schemes in dynamical simulations. Moreover, PEW operators also open the way to encode more exotic cellular dynamics, such as cellular learning, and to implementing edge-weights for regulatory networks inferred from omics data.

Published
2022
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23. Plasticity-rigidity cycles: A general adaptation mechanism

Author

Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

Successful adaptation helped the emergence of complexity. Alternating plastic- and rigid-like states were recurrently considered to play a role in adaptive processes. However, this extensive knowledge remained fragmented. In this paper I describe plasticity-rigidity cycles as a general adaptation mechanism operating in molecular assemblies, assisted protein folding, cellular differentiation, learning, memory formation, creative thinking, as well as the organization of social groups and ecosystems. Plasticity-rigidity cycles enable a novel understanding of aging, exploration/exploitation trade-off and evolvability, as well as help the design of efficient interventions in medicine and in crisis management of financial and biological ecosystems., Comment: This is a preprint of a future paper and book chapter (with 280 references total)

Published
2015

24. The wisdom of networks: A general adaptation and learning mechanism of complex systems: The network core triggers fast responses to known stimuli; innovations require the slow network periphery and are encoded by core-remodeling

Author

Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

I hypothesize that re-occurring prior experience of complex systems mobilizes a fast response, whose attractor is encoded by their strongly connected network core. In contrast, responses to novel stimuli are often slow and require the weakly connected network periphery. Upon repeated stimulus, peripheral network nodes remodel the network core that encodes the attractor of the new response. This "core-periphery learning" theory reviews and generalizes the heretofore fragmented knowledge on attractor formation by neural networks, periphery-driven innovation and a number of recent reports on the adaptation of protein, neuronal and social networks. The coreperiphery learning theory may increase our understanding of signaling, memory formation, information encoding and decision-making processes. Moreover, the power of network periphery-related 'wisdom of crowds' inventing creative, novel responses indicates that deliberative democracy is a slow yet efficient learning strategy developed as the success of a billion-year evolution., Comment: The 2015 preliminary version can be downloaded as an earlier version of the final paper here. Please find illustrative videos here: http://networkdecisions.linkgroup.hu and a video abstract here: https://youtu.be/IIjP7zWGjVE

Published
2015
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25. Targets of drugs are generally, and targets of drugs having side effects are specifically good spreaders of human interactome perturbations

Author

Perez-Lopez, Aron R., Szalay, Kristof Z., Turei, Denes, Modos, Dezso, Lenti, Katalin, Korcsmaros, Tamas, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

Network-based methods are playing an increasingly important role in drug design. Our main question in this paper was whether the efficiency of drug target proteins to spread perturbations in the human interactome is larger if the binding drugs have side effects, as compared to those which have no reported side effects. Our results showed that in general, drug targets were better spreaders of perturbations than non-target proteins, and in particular, targets of drugs with side effects were also better spreaders of perturbations than targets of drugs having no reported side effects in human protein-protein interaction networks. Colorectal cancer-related proteins were good spreaders and had a high centrality, while type 2 diabetes-related proteins showed an average spreading efficiency and had an average centrality in the human interactome. Moreover, the interactome-distance between drug targets and disease-related proteins was higher in diabetes than in colorectal cancer. Our results may help a better understanding of the network position and dynamics of drug targets and disease-related proteins, and may contribute to develop additional, network-based tests to increase the potential safety of drug candidates., Comment: 49 pages, 2 figures, 2 tables, 10 supplementary figures, 13 supplementary tables

Published
2015
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26. Interactions of the Osteokines, Glucose/Insulin System and Vascular Risk Networks in Patients With Newly Diagnosed Type 2 Diabetes (VNDS 15).

Author

Zusi, Chiara, Bonetti, Sara, Rinaldi, Elisabetta, Csermely, Alessandro, Boselli, Maria Linda, Travia, Daniela, Santi, Lorenza, Bonora, Enzo, Bonadonna, Riccardo C., and Trombetta, Maddalena

Subjects
TYPE 2 diabetes, CARDIOVASCULAR system, OSTEOPROTEGERIN, INSULIN sensitivity, OSTEOCALCIN
Abstract

Background and Aim: Bone as an endocrine organ regulates metabolic processes independently of mineral metabolism through the production/release of proteins collectively named 'osteokines'. Relevant connections were reported between the insulin/glucose system, calcification of the atherosclerotic plaque, and several osteokines. We aimed to test the hypothesis that the osteokine network could be involved in beta‐cell function, insulin sensitivity, and vascular damage in a cohort of people with newly diagnosed type 2 diabetes (T2D). Subjects and Methods: In 794 drug‐naive, GADA‐negative, newly‐diagnosed T2D patients (mean ± SD age: 59 ± 9.8 years; BMI: 29.3 ± 5.3 kg/m2; HbA1c: 6.6 ± 1.3%) we assessed: plasma concentration of osteocalcin (OCN), osteopontin (OPN), RANKL, and its putative decoy receptor osteoprotegerin (OPG); insulin sensitivity (SI) by hyperinsulinemic euglycemic clamp; beta cell function (BCF), estimated by OGTT minimal modelling and expressed as derivative (DC) and proportional (PC) control. Echo‐doppler of carotid and lower limb arteries were also performed in 708 and 701 subjects, respectively. Results: OCN, RANKL and OPG were significantly associated with PC (p < 0.02); OCN was positively related to DC (p = 0.018). OPG was associated with lower IS (p < 0.001). Finally, the higher RANKL levels, the greater was the severity of atherosclerosis in common carotid artery (p < 0.001). Increased OPG and OPN concentrations were related to subclinical atherosclerosis in peripheral arteries of lower limbs (p = 0.023 and p = 0.047, respectively). Conclusion: These data suggest that, in patients with newly diagnosed T2D, the osteokine network crosstalks with the glucose/insulin system and may play a role in modulating the atherosclerotic process. [ABSTRACT FROM AUTHOR]

Published
2024
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27. Association between primary hypothyroidism and metabolic dysfunction-associated steatotic liver disease: an updated meta-analysis.

Author

Mantovani, Alessandro, Csermely, Alessandro, Bilson, Josh, Borella, Niccolò, Enrico, Scoccia, Pecoraro, Barbara, Shtembari, Emigela, Morandin, Riccardo, Polyzos, Stergios A., Valenti, Luca, Tilg, Herbert, Byrne, Christopher D., and Targher, Giovanni

Subjects
NON-alcoholic fatty liver disease, SYSTEMATIZED Nomenclature of Medicine, HEPATIC fibrosis, HORMONE therapy, FATTY liver, THYROID hormone receptors, CONGENITAL hypothyroidism
Published
2024
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29. ComPPI, a cellular compartment-specific database for protein-protein interaction network analysis

Author

Veres, Daniel V., Gyurko, David M., Thaler, Benedek, Szalay, Kristof Z., Fazekas, David, Korcsmaros, Tamas, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Physics - Biological Physics
Abstract

Here we present ComPPI, a cellular compartment specific database of proteins and their interactions enabling an extensive, compartmentalized protein-protein interaction network analysis (http://ComPPI.LinkGroup.hu). ComPPI enables the user to filter biologically unlikely interactions, where the two interacting proteins have no common subcellular localizations and to predict novel properties, such as compartment-specific biological functions. ComPPI is an integrated database covering four species (S. cerevisiae, C. elegans, D. melanogaster and H. sapiens). The compilation of nine protein-protein interaction and eight subcellular localization data sets had four curation steps including a manually built, comprehensive hierarchical structure of more than 1600 subcellular localizations. ComPPI provides confidence scores for protein subcellular localizations and protein-protein interactions. ComPPI has user-friendly search options for individual proteins giving their subcellular localization, their interactions and the likelihood of their interactions considering the subcellular localization of their interacting partners. Download options of search results, whole proteomes, organelle-specific interactomes and subcellular localization data are available on its website. Due to its novel features, ComPPI is useful for the analysis of experimental results in biochemistry and molecular biology, as well as for proteome-wide studies in bioinformatics and network science helping cellular biology, medicine and drug design., Comment: 9 pages, 4 figures, 50 references + a Supplementary Information containing 7 Figures, 6 Tables and 28 References

Published
2014
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30. A unified data representation theory for network visualization, ordering and coarse-graining

Author

Kovács, István A., Mizsei, Réka, and Csermely, Peter

Subjects
Physics - Physics and Society, Physics - Biological Physics, Physics - Data Analysis, Statistics and Probability
Abstract

Representation of large data sets became a key question of many scientific disciplines in the last decade. Several approaches for network visualization, data ordering and coarse-graining accomplished this goal. However, there was no underlying theoretical framework linking these problems. Here we show an elegant, information theoretic data representation approach as a unified solution of network visualization, data ordering and coarse-graining. The optimal representation is the hardest to distinguish from the original data matrix, measured by the relative entropy. The representation of network nodes as probability distributions provides an efficient visualization method and, in one dimension, an ordering of network nodes and edges. Coarse-grained representations of the input network enable both efficient data compression and hierarchical visualization to achieve high quality representations of larger data sets. Our unified data representation theory will help the analysis of extensive data sets, by revealing the large-scale structure of complex networks in a comprehensible form., Comment: 13 pages, 5 figures

Published
2014
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31. Attractor structures of signaling networks: Consequences of different conformational barcode dynamics and their relations to network-based drug design

Author

Szalay, Kristof Z., Nussinov, Ruth, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

Conformational barcodes tag functional sites of proteins, and are decoded by interacting molecules transmitting the incoming signal. Conformational barcodes are modified by all co-occurring allosteric events induced by post-translational modifications, pathogen, drug binding, etc. We argue that fuzziness (plasticity) of conformational barcodes may be increased by disordered protein structures, by integrative plasticity of multi-phosphorylation events, by increased intracellular water content (decreased molecular crowding) and by increased action of molecular chaperones. This leads to increased plasticity of signaling and cellular networks. Increased plasticity is both substantiated by and inducing an increased noise level. Using the versatile network dynamics tool, Turbine (www.turbine.linkgroup.hu), here we show that the 10% noise level expected in cellular systems shifts a cancer-related signaling network of human cells from its proliferative attractors to its largest, apoptotic attractor representing their health-preserving response in the carcinogen containing and tumor suppressor deficient environment modeled in our study. Thus, fuzzy conformational barcodes may not only make the cellular system more plastic, and therefore more adaptable, but may also stabilize the complex system allowing better access to its largest attractor., Comment: 8 pages, 2 figures

Published
2014
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32. Cancer stem cells display extremely large evolvability: alternating plastic and rigid networks as a potential mechanism

Author

Csermely, Peter, Hodsagi, Janos, Korcsmaros, Tamas, Modos, Dezso, Perez-Lopez, Aron R., Szalay, Kristof, Veres, Daniel V., Lenti, Katalin, Wu, Ling-Yun, and Zhang, Xiang-Sun

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics
Abstract

Cancer is increasingly perceived as a systems-level, network phenomenon. The major trend of malignant transformation can be described as a two-phase process, where an initial increase of network plasticity is followed by a decrease of plasticity at late stages of tumor development. The fluctuating intensity of stress factors, like hypoxia, inflammation and the either cooperative or hostile interactions of tumor inter-cellular networks, all increase the adaptation potential of cancer cells. This may lead to the bypass of cellular senescence, and to the development of cancer stem cells. We propose that the central tenet of cancer stem cell definition lies exactly in the indefinability of cancer stem cells. Actual properties of cancer stem cells depend on the individual "stress-history" of the given tumor. Cancer stem cells are characterized by an extremely large evolvability (i.e. a capacity to generate heritable phenotypic variation), which corresponds well with the defining hallmarks of cancer stem cells: the possession of the capacity to self-renew and to repeatedly re-build the heterogeneous lineages of cancer cells that comprise a tumor in new environments. Cancer stem cells represent a cell population, which is adapted to adapt. We argue that the high evolvability of cancer stem cells is helped by their repeated transitions between plastic (proliferative, symmetrically dividing) and rigid (quiescent, asymmetrically dividing, often more invasive) phenotypes having plastic and rigid networks. Thus, cancer stem cells reverse and replay cancer development multiple times. We describe network models potentially explaining cancer stem cell-like behavior. Finally, we propose novel strategies including combination therapies and multi-target drugs to overcome the Nietzschean dilemma of cancer stem cell targeting: "what does not kill me makes me stronger"., Comment: Subtitle: Network models, novel therapeutic target strategies and the contributions of hypoxia, inflammation and cellular senescence; 10 pages, 4 Tables, 1 Figure and 127 references

Published
2013
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33. Structure and dynamics of core-periphery networks

Author

Csermely, Peter, London, Andras, Wu, Ling-Yun, and Uzzi, Brian

Subjects
Physics - Physics and Society, Computer Science - Networking and Internet Architecture, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Quantitative Biology - Molecular Networks
Abstract

Recent studies uncovered important core/periphery network structures characterizing complex sets of cooperative and competitive interactions between network nodes, be they proteins, cells, species or humans. Better characterization of the structure, dynamics and function of core/periphery networks is a key step of our understanding cellular functions, species adaptation, social and market changes. Here we summarize the current knowledge of the structure and dynamics of "traditional" core/periphery networks, rich-clubs, nested, bow-tie and onion networks. Comparing core/periphery structures with network modules, we discriminate between global and local cores. The core/periphery network organization lies in the middle of several extreme properties, such as random/condensed structures, clique/star configurations, network symmetry/asymmetry, network assortativity/disassortativity, as well as network hierarchy/anti-hierarchy. These properties of high complexity together with the large degeneracy of core pathways ensuring cooperation and providing multiple options of network flow re-channelling greatly contribute to the high robustness of complex systems. Core processes enable a coordinated response to various stimuli, decrease noise, and evolve slowly. The integrative function of network cores is an important step in the development of a large variety of complex organisms and organizations. In addition to these important features and several decades of research interest, studies on core/periphery networks still have a number of unexplored areas., Comment: a comprehensive review of 41 pages, 2 figures, 1 table and 182 references

Published
2013
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34. The Past, Present and Future of Cybernetics and Systems Research

Author

Gershenson, Carlos, Csermely, Peter, Erdi, Peter, Knyazeva, Helena, and Laszlo, Alexander

Subjects
Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - History and Philosophy of Physics
Abstract

Cybernetics and Systems Research (CSR) were developed in the mid-twentieth century, offering the possibility of describing and comparing different phenomena using the same language. The concepts which originated in CSR have spread to practically all disciplines, many now used within the scientific study of complex systems. CSR has the potential to contribute to the solution of relevant problems, but the path towards this goal is not straightforward. This paper summarizes the ideas presented by the authors during a round table in 2012 on the past, present and future of CSR., Comment: 10 pages

Published
2013

35. Adaptation and learning of molecular networks as a description of cancer development at the systems-level: Potential use in anti-cancer therapies

Author

Gyurko, David M., Veres, Daniel V., Modos, Dezso, Lenti, Katalin, Korcsmaros, Tamas, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

There is a widening recognition that cancer cells are products of complex developmental processes. Carcinogenesis and metastasis formation are increasingly described as systems-level, network phenomena. Here we propose that malignant transformation is a two-phase process, where an initial increase of system plasticity is followed by a decrease of plasticity at late stages of carcinogenesis as a model of cellular learning. We describe the hallmarks of increased system plasticity of early, tumor initiating cells, such as increased noise, entropy, conformational and phenotypic plasticity, physical deformability, cell heterogeneity and network rearrangements. Finally, we argue that the large structural changes of molecular networks during cancer development necessitate a rather different targeting strategy in early and late phase of carcinogenesis. Plastic networks of early phase cancer development need a central hit, while rigid networks of late stage primary tumors or established metastases should be attacked by the network influence strategy, such as by edgetic, multi-target, or allo-network drugs. Cancer stem cells need special diagnosis and targeting, since their dormant and rapidly proliferating forms may have more rigid, or more plastic networks, respectively. The extremely high ability to change their rigidity/plasticity may be a key differentiating hallmark of cancer stem cells. The application of early stage-optimized anti-cancer drugs to late-stage patients may be a reason of many failures in anti-cancer therapies. Our hypotheses presented here underlie the need for patient-specific multi-target therapies applying the correct ratio of central hits and network influences -- in an optimized sequence., Comment: 8 pages,2 figures, 1 table, 98 references

Published
2013
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36. Perturbation centrality and Turbine: a novel centrality measure obtained using a versatile network dynamics tool

Author

Szalay, Kristof Z. and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Social and Information Networks, Physics - Biological Physics
Abstract

Analysis of network dynamics became a focal point to understand and predict changes of complex systems. Here we introduce Turbine, a generic framework enabling fast simulation of any algorithmically definable dynamics on very large networks. Using a perturbation transmission model inspired by communicating vessels, we define a novel centrality measure: perturbation centrality. Hubs and inter-modular nodes proved to be highly efficient in perturbation propagation. High perturbation centrality nodes of the Met-tRNA synthetase protein structure network were identified as amino acids involved in intra-protein communication by earlier studies. Changes in perturbation centralities of yeast interactome nodes upon various stresses well recapitulated the functional changes of stressed yeast cells. The novelty and usefulness of perturbation centrality was validated in several other model, biological and social networks. The Turbine software and the perturbation centrality measure may provide a large variety of novel options to assess signaling, drug action, environmental and social interventions. The Turbine algorithm is available at: http://www.turbine.linkgroup.hu, Comment: 21 pages, 4 figues, 1 table, 58 references + a Supplement of 52 pages, 10 figures, 9 tables and 39 references; Turbine algorithm is available at: http://www.turbine.linkgroup.hu

Published
2013
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37. Nodes having a major influence to break cooperation define a novel centrality measure: game centrality

Author

Simko, Gabor I. and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Computer Science - Computer Science and Game Theory, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Physics and Society
Abstract

Cooperation played a significant role in the self-organization and evolution of living organisms. Both network topology and the initial position of cooperators heavily affect the cooperation of social dilemma games. We developed a novel simulation program package, called 'NetworGame', which is able to simulate any type of social dilemma games on any model, or real world networks with any assignment of initial cooperation or defection strategies to network nodes. The ability of initially defecting single nodes to break overall cooperation was called as 'game centrality'. The efficiency of this measure was verified on well-known social networks, and was extended to 'protein games', i.e. the simulation of cooperation between proteins, or their amino acids. Hubs and in particular, party hubs of yeast protein-protein interaction networks had a large influence to convert the cooperation of other nodes to defection. Simulations on methionyl-tRNA synthetase protein structure network indicated an increased influence of nodes belonging to intra-protein signaling pathways on breaking cooperation. The efficiency of single, initially defecting nodes to convert the cooperation of other nodes to defection in social dilemma games may be an important measure to predict the importance of nodes in the integration and regulation of complex systems. Game centrality may help to design more efficient interventions to cellular networks (in forms of drugs), to ecosystems and social networks. The NetworGame algorithm is downloadable from here: www.NetworGame.linkgroup.hu, Comment: 18 pages, 2 figures, 3 Tables + a supplement containing 8 pages, 1 figure, 2 Tables and the pseudo-code of the algorithm, the NetworGame algorithm is downloadable from here: http://www.NetworGame.linkgroup.hu

Published
2013
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38. Protein Kinase D3 (PKD3) Requires Hsp90 for Stability and Promotion of Prostate Cancer Cell Migration

Author

Attila Varga, Minh Tu Nguyen, Kinga Pénzes, Bence Bátai, Pál Gyulavári, Bianka Gurbi, József Murányi, Péter Csermely, Miklós Csala, Tibor Vántus, and Csaba Sőti

Subjects
protein kinase D, heat shock protein 90, prostate cancer, migration, metastasis, Cytology, QH573-671
Abstract

Prostate cancer metastasis is a significant cause of mortality in men. PKD3 facilitates tumor growth and metastasis, however, its regulation is largely unclear. The Hsp90 chaperone stabilizes an array of signaling client proteins, thus is an enabler of the malignant phenotype. Here, using different prostate cancer cell lines, we report that Hsp90 ensures PKD3 conformational stability and function to promote cancer cell migration. We found that pharmacological inhibition of either PKDs or Hsp90 dose-dependently abrogated the migration of DU145 and PC3 metastatic prostate cancer cells. Hsp90 inhibition by ganetespib caused a dose-dependent depletion of PKD2, PKD3, and Akt, which are all involved in metastasis formation. Proximity ligation assay and immunoprecipitation experiments demonstrated a physical interaction between Hsp90 and PKD3. Inhibition of the chaperone–client interaction induced misfolding and proteasomal degradation of PKD3. PKD3 siRNA combined with ganetespib treatment demonstrated a specific involvement of PKD3 in DU145 and PC3 cell migration, which was entirely dependent on Hsp90. Finally, ectopic expression of PKD3 enhanced migration of non-metastatic LNCaP cells in an Hsp90-dependent manner. Altogether, our findings identify PKD3 as an Hsp90 client and uncover a potential mechanism of Hsp90 in prostate cancer metastasis. The molecular interaction revealed here may regulate other biological and pathological functions.

Published
2023
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40. Structure and dynamics of molecular networks: A novel paradigm of drug discovery. A comprehensive review

Author

Csermely, Peter, Korcsmaros, Tamas, Kiss, Huba J. M., London, Gabor, and Nussinov, Ruth

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Social and Information Networks, Nonlinear Sciences - Adaptation and Self-Organizing Systems, Physics - Biological Physics
Abstract

Despite considerable progress in genome- and proteome-based high-throughput screening methods and in rational drug design, the increase in approved drugs in the past decade did not match the increase of drug development costs. Network description and analysis not only give a systems-level understanding of drug action and disease complexity, but can also help to improve the efficiency of drug design. We give a comprehensive assessment of the analytical tools of network topology and dynamics. The state-of-the-art use of chemical similarity, protein structure, protein-protein interaction, signaling, genetic interaction and metabolic networks in the discovery of drug targets is summarized. We propose that network targeting follows two basic strategies. The central hit strategy selectively targets central nodes/edges of the flexible networks of infectious agents or cancer cells to kill them. The network influence strategy works against other diseases, where an efficient reconfiguration of rigid networks needs to be achieved by targeting the neighbors of central nodes or edges. It is shown how network techniques can help in the identification of single-target, edgetic, multi-target and allo-network drug target candidates. We review the recent boom in network methods helping hit identification, lead selection optimizing drug efficacy, as well as minimizing side-effects and drug toxicity. Successful network-based drug development strategies are shown through the examples of infections, cancer, metabolic diseases, neurodegenerative diseases and aging. Summarizing more than 1200 references we suggest an optimized protocol of network-aided drug development, and provide a list of systems-level hallmarks of drug quality. Finally, we highlight network-related drug development trends helping to achieve these hallmarks by a cohesive, global approach., Comment: 76 pages, 23 Figures, 12 Tables and 1270 references

Published
2012
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41. Potential application of network descriptions for understanding conformational changes and protonation states of ABC transporters

Author

Hegedus, Tamas, Gyimesi, Gergely, Gaspar, Merse E., Szalay, Kristof Z., Gangal, Rajeev, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks
Abstract

The ABC (ATP Binding Cassette) transporter protein superfamily comprises a large number of ubiquitous and functionally versatile proteins conserved from archaea to humans. ABC transporters have a key role in many human diseases and also in the development of multidrug resistance in cancer and in parasites. Although a dramatic progress has been achieved in ABC protein studies in the last decades, we are still far from a detailed understanding of their molecular functions. Several aspects of pharmacological ABC transporter targeting also remain unclear. Here we summarize the conformational and protonation changes of ABC transporters and the potential use of this information in pharmacological design. Network related methods, which recently became useful tools to describe protein structure and dynamics, have not been applied to study allosteric coupling in ABC proteins as yet. A detailed description of the strengths and limitations of these methods is given, and their potential use in describing ABC transporter dynamics is outlined. Finally, we highlight possible future aspects of pharmacological utilization of network methods and outline the future trends of this exciting field., Comment: 18 pages, 3 Figures and 241 references

Published
2012
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42. System level mechanisms of adaptation, learning, memory formation and evolvability: the role of chaperone and other networks

Author

Gyurko, David M., Soti, Csaba, Stetak, Attila, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Physics - Biological Physics, Quantitative Biology - Neurons and Cognition
Abstract

During the last decade, network approaches became a powerful tool to describe protein structure and dynamics. Here, we describe first the protein structure networks of molecular chaperones, then characterize chaperone containing sub-networks of interactomes called as chaperone-networks or chaperomes. We review the role of molecular chaperones in short-term adaptation of cellular networks in response to stress, and in long-term adaptation discussing their putative functions in the regulation of evolvability. We provide a general overview of possible network mechanisms of adaptation, learning and memory formation. We propose that changes of network rigidity play a key role in learning and memory formation processes. Flexible network topology provides "learning competent" state. Here, networks may have much less modular boundaries than locally rigid, highly modular networks, where the learnt information has already been consolidated in a memory formation process. Since modular boundaries are efficient filters of information, in the "learning competent" state information filtering may be much smaller, than after memory formation. This mechanism restricts high information transfer to the "learning competent" state. After memory formation, modular boundary-induced segregation and information filtering protect the stored information. The flexible networks of young organisms are generally in a "learning competent" state. On the contrary, locally rigid networks of old organisms have lost their "learning competent" state, but store and protect their learnt information efficiently. We anticipate that the above mechanism may operate at the level of both protein-protein interaction and neuronal networks., Comment: 19 pages, 2 Figures, 1 Table, 173 references

Published
2012
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43. Rigidity and flexibility of biological networks

Author

Gaspar, Merse E. and Csermely, Peter

Subjects
Physics - Biological Physics, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Computational Geometry, Nonlinear Sciences - Pattern Formation and Solitons, Quantitative Biology - Molecular Networks
Abstract

The network approach became a widely used tool to understand the behaviour of complex systems in the last decade. We start from a short description of structural rigidity theory. A detailed account on the combinatorial rigidity analysis of protein structures, as well as local flexibility measures of proteins and their applications in explaining allostery and thermostability is given. We also briefly discuss the network aspects of cytoskeletal tensegrity. Finally, we show the importance of the balance between functional flexibility and rigidity in protein-protein interaction, metabolic, gene regulatory and neuronal networks. Our summary raises the possibility that the concepts of flexibility and rigidity can be generalized to all networks., Comment: 21 pages, 4 figures, 1 table

Published
2012
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44. ModuLand plug-in for Cytoscape: determination of hierarchical layers of overlapping network modules and community centrality

Author

Szalay-Beko, Mate, Palotai, Robin, Szappanos, Balazs, Kovacs, Istvan A., Papp, Balazs, and Csermely, Peter

Subjects
Physics - Computational Physics, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Social and Information Networks, Quantitative Biology - Molecular Networks
Abstract

Summary: The ModuLand plug-in provides Cytoscape users an algorithm for determining extensively overlapping network modules. Moreover, it identifies several hierarchical layers of modules, where meta-nodes of the higher hierarchical layer represent modules of the lower layer. The tool assigns module cores, which predict the function of the whole module, and determines key nodes bridging two or multiple modules. The plug-in has a detailed JAVA-based graphical interface with various colouring options. The ModuLand tool can run on Windows, Linux, or Mac OS. We demonstrate its use on protein structure and metabolic networks. Availability: The plug-in and its user guide can be downloaded freely from: http://www.linkgroup.hu/modules.php. Contact: csermely.peter@med.semmelweis-univ.hu Supplementary information: Supplementary information is available at Bioinformatics online., Comment: 39 pages, 1 figure and a Supplement with 9 figures and 10 tables

Published
2011
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45. Allo-network drugs: harnessing allostery in cellular networks

Author

Nussinov, Ruth, Tsai, Chung-Jung, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks
Abstract

Allosteric drugs are increasingly used because they produce fewer side effects. Allosteric signal propagation does not stop at the 'end' of a protein, but may be dynamically transmitted across the cell. Here, we propose that the concept of allosteric drugs can be broadened to allo-network drugs, whose effects can propagate either within a protein, or across several proteins, to enhance or inhibit specific interactions along a pathway. We posit that current allosteric drugs are a special case of allo-network drugs, and suggest that allo-network drugs can achieve specific, limited changes at the systems level, and in this way can achieve fewer side effects and lower toxicity. Finally, we propose steps and methods to identify allo-network drug targets and sites outlining a new paradigm in systems-based drug design., Comment: 14 pages, 4 figures, 69 references, a cover story of the 2011 December issue of Trends in Pharmacological Sciences

Published
2011
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46. Heat shock partially dissociates the overlapping modules of the yeast protein-protein interaction network: a systems level model of adaptation

Author

Mihalik, Agoston and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics
Abstract

Network analysis became a powerful tool in recent years. Heat shock is a well-characterized model of cellular dynamics. S. cerevisiae is an appropriate model organism, since both its protein-protein interaction network (interactome) and stress response at the gene expression level have been well characterized. However, the analysis of the reorganization of the yeast interactome during stress has not been investigated yet. We calculated the changes of the interaction-weights of the yeast interactome from the changes of mRNA expression levels upon heat shock. The major finding of our study is that heat shock induced a significant decrease in both the overlaps and connections of yeast interactome modules. In agreement with this the weighted diameter of the yeast interactome had a 4.9-fold increase in heat shock. Several key proteins of the heat shock response became centers of heat shock-induced local communities, as well as bridges providing a residual connection of modules after heat shock. The observed changes resemble to a "stratus-cumulus" type transition of the interactome structure, since the unstressed yeast interactome had a globally connected organization, similar to that of stratus clouds, whereas the heat shocked interactome had a multifocal organization, similar to that of cumulus clouds. Our results showed that heat shock induces a partial disintegration of the global organization of the yeast interactome. This change may be rather general occurring in many types of stresses. Moreover, other complex systems, such as single proteins, social networks and ecosystems may also decrease their inter-modular links, thus develop more compact modules, and display a partial disintegration of their global structure in the initial phase of crisis. Thus, our work may provide a model of a general, system-level adaptation mechanism to environmental changes., Comment: 24 pages, 6 figures, 2 tables, 70 references + 22 pages 8 figures, 4 tables and 8 references in the enclosed Supplement

Published
2011
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47. Disordered proteins and network disorder in network descriptions of protein structure, dynamics and function. Hypotheses and a comprehensive review

Author

Csermely, Peter, Sandhu, Kuljeet Singh, Hazai, Eszter, Hoksza, Zsolt, Kiss, Huba J. M., Miozzo, Federico, Veres, Daniel V., Piazza, Francesco, and Nussinov, Ruth

Subjects
Quantitative Biology - Molecular Networks, Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics
Abstract

During the last decade, network approaches became a powerful tool to describe protein structure and dynamics. Here we review the links between disordered proteins and the associated networks, and describe the consequences of local, mesoscopic and global network disorder on changes in protein structure and dynamics. We introduce a new classification of protein networks into cumulus-type, i.e., those similar to puffy (white) clouds, and stratus-type, i.e., those similar to flat, dense (dark) low-lying clouds, and relate these network types to protein disorder dynamics and to differences in energy transmission processes. In the first class, there is limited overlap between the modules, which implies higher rigidity of the individual units; there the conformational changes can be described by an energy transfer mechanism. In the second class, the topology presents a compact structure with significant overlap between the modules; there the conformational changes can be described by multi-trajectories; that is, multiple highly populated pathways. We further propose that disordered protein regions evolved to help other protein segments reach rarely visited but functionally-related states. We also show the role of disorder in spatial games of amino acids; highlight the effects of intrinsically disordered proteins (IDPs) on cellular networks and list some possible studies linking protein disorder and protein structure networks., Comment: 27 pages, 2 Tables, 5 Figures and 161 references

Published
2011

48. Uniformly curated signaling pathways reveal tissue-specific cross-talks and support drug target discovery

Author

Korcsmaros, Tamas, Farkas, Illes J., Szalay, Maté S., Rovo, Petra, Fazekas, David, Spiro, Zoltan, Bode, Csaba, Lenti, Katalin, Vellai, Tibor, and Csermely, Peter

Subjects
Quantitative Biology - Molecular Networks
Abstract

Motivation: Signaling pathways control a large variety of cellular processes. However, currently, even within the same database signaling pathways are often curated at different levels of detail. This makes comparative and cross-talk analyses difficult. Results: We present SignaLink, a database containing 8 major signaling pathways from Caenorhabditis elegans, Drosophila melanogaster, and humans. Based on 170 review and approx. 800 research articles, we have compiled pathways with semi-automatic searches and uniform, well-documented curation rules. We found that in humans any two of the 8 pathways can cross-talk. We quantified the possible tissue- and cancer-specific activity of cross-talks and found pathway-specific expression profiles. In addition, we identified 327 proteins relevant for drug target discovery. Conclusions: We provide a novel resource for comparative and cross-talk analyses of signaling pathways. The identified multi-pathway and tissue-specific cross-talks contribute to the understanding of the signaling complexity in health and disease and underscore its importance in network-based drug target selection. Availability: http://SignaLink.org, Comment: 9 pages, 4 figures, 2 tables and a supplementary info with 5 Figures and 13 Tables

Published
2010
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49. Induced fit, conformational selection and independent dynamic segments: an extended view of binding events

Author

Csermely, Peter, Palotai, Robin, and Nussinov, Ruth

Subjects
Quantitative Biology - Biomolecules, Nonlinear Sciences - Adaptation and Self-Organizing Systems
Abstract

Single molecule and NMR measurements of protein dynamics increasingly uncover the complexity of binding scenarios. Here we describe an extended conformational selection model which embraces a repertoire of selection and adjustment processes. Induced fit can be viewed as a subset of this repertoire, whose contribution is affected by the bond-types stabilizing the interaction and the differences between the interacting partners. We argue that protein segments whose dynamics are distinct from the rest of the protein ('discrete breathers') can govern conformational transitions and allosteric propagation that accompany binding processes, and as such may be more sensitive to mutational events. Additionally, we highlight the dynamic complexity of binding scenarios as they relate to events such as aggregation and signalling, and the crowded cellular environment., Comment: 9 pages, 2 Figures, 1 Table, 2 boxes, Trends in Biochemical Sciences 2010 October issue cover story

Published
2010
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50. Community landscapes: an integrative approach to determine overlapping network module hierarchy, identify key nodes and predict network dynamics

Author

Kovacs, Istvan A., Palotai, Robin, Szalay, Mate S., and Csermely, Peter

Subjects
Physics - Computational Physics, Condensed Matter - Disordered Systems and Neural Networks, Computer Science - Mathematical Software, Physics - Data Analysis, Statistics and Probability, Physics - Physics and Society, Quantitative Biology - Molecular Networks
Abstract

Background: Network communities help the functional organization and evolution of complex networks. However, the development of a method, which is both fast and accurate, provides modular overlaps and partitions of a heterogeneous network, has proven to be rather difficult. Methodology/Principal Findings: Here we introduce the novel concept of ModuLand, an integrative method family determining overlapping network modules as hills of an influence function-based, centrality-type community landscape, and including several widely used modularization methods as special cases. As various adaptations of the method family, we developed several algorithms, which provide an efficient analysis of weighted and directed networks, and (1) determine pervasively overlapping modules with high resolution; (2) uncover a detailed hierarchical network structure allowing an efficient, zoom-in analysis of large networks; (3) allow the determination of key network nodes and (4) help to predict network dynamics. Conclusions/Significance: The concept opens a wide range of possibilities to develop new approaches and applications including network routing, classification, comparison and prediction., Comment: 25 pages with 6 figures and a Glossary + Supporting Information containing pseudo-codes of all algorithms used, 14 Figures, 5 Tables (with 18 module definitions, 129 different modularization methods, 13 module comparision methods) and 396 references. All algorithms can be downloaded from this web-site: http://www.linkgroup.hu/modules.php

Published
2009
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