Neighbours of cancer-related proteins have key influence on pathogenesis and could increase the drug target space for anticancer therapies

Módos, Dezső; Bulusu, Krishna C.; Fazekas, Dávid; Kubisch, János; Brooks, Johanne; Marczell, Istvan; Szabó, Péter M.; Vellai, Tibor; Csermely, Péter; Lenti, Katalin; Bender, Andreas; Korcsmáros, Tamás

doi:10.1038/s41540-017-0003-6

Cited by 25 publications

(21 citation statements)

References 77 publications

(145 reference statements)

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“…Beside using interaction networks to identify disease-related modules and key proteins, it has also been used for finding novel pathogenetic players among the interactor partners of already known, key pathogenic genes by "guilt by association". We previously used this approach to identify potential drug repurposing targets in cancer 28 . In the current study we integrated all these three network reconstruction and analysis methodologies to understand the pathogenesis of complex diseases, such as UC better.…”

Section: Discussionmentioning

confidence: 99%

“…The network footprint of each patient contained the proteins encoded by the SNP-affected genes and the interactors of these proteins, i.e. their first neighbour proteins 28 . Unsupervised hierarchical clustering using different linkage algorithms and multidimensional scaling of the network footprints of 377 patients stratified the patients into the same four distinct clusters (Figures 3a and 3b).…”

Section: Identification Of Patient-specific Clusters Based On the Netmentioning

confidence: 99%

“…Using network biology approaches, that we have previously exploited to uncover novel important proteins in cancer biology, 28 we aimed to further understand the pathogenic pathways of UC and to identify novel disease associated hidden proteins. These proteins are often hidden if one looks only conventional mutation and expression screens as they mostly act as direct interactors (first neighbours) of the proteins affected by the mutation.…”

Section: Introductionmentioning

confidence: 99%

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A systems genomics approach to uncover patient-specific pathogenic pathways and proteins in a complex disease

Brooks

Módos

Sudhakar

et al. 2019

Preprint

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We describe a novel precision medicine workflow, the integrated single nucleotide polymorphism network platform (iSNP), designed to identify the exact mechanisms of how SNPs affect cellular regulatory networks, and how SNP co-occurrences contribute to disease pathogenesis in ulcerative colitis (UC). Using SNP profiles of 377 UC patients, we mapped the regulatory effects of the SNPs to a human signalling network containing protein-protein, miRNA-mRNA and transcription factor binding interactions. Unsupervised clustering algorithms grouped these patient-specific networks into four distinct clusters based on two large disease hubs, NFKB1 and PKCB. Pathway analysis identified the epigenetic modification as common and the T-cell specific responses as differing signalling pathways in the clusters. By integrating individual transcriptomes in active and quiescent disease setting to the patient networks, we validated the impact of non-coding SNPs. The iSNP approach identified regulatory effects of disease-associated non-coding SNPs, and identified how pathogenesis pathways are activated via different genetic modifications.

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Section: Discussionmentioning

confidence: 99%

Section: Identification Of Patient-specific Clusters Based On the Netmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A systems genomics approach to uncover patient-specific pathogenic pathways and proteins in a complex disease

Brooks

Módos

Sudhakar

et al. 2019

Preprint

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“…(1) Disrupting a PPI by directly binding to the interfacial surface (2) Disrupting a PPI by allosteric interference (3) Allosterically increasing the binding affinity to the protein partner (4) Stabalize PPI by direct binding to the interacting surface Recent studies ((Modos et al, 2017)) show that neighbors of proteins implicated in cancer have a high degree of centrality in biological networks. They have clearly shown that first neighbor of cancer-related proteins have high local and global centrality in the network.…”

Section: Discussionmentioning

confidence: 99%

PROTEINATOR: Web-UI exploring repurposing hypotheses of PROTEIN InhibiTORs based on protein interactions

Tangadu

Shankar

Varanasi

et al. 2019

Preprint

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The authors have withdrawn this manuscript because in it's current stage, the work only identifies the plausible search space for new drug interactions, and is based on a biochemical phenomenon. Nonetheless, and as pointed out by 2 independent peer review processes from leading journals in this area, the results are of very little value without basic validation. We are a computer science department, and do not have the experimental setup to do the same.As we move forward, our goal is to collaborate with a life sciences (biophysical lab) group, and apply for funding to complete the validations for a few test cases before we re-submit this work and make it available to the rest of the community. Therefore, the authors do not wish this work to be cited as reference for the project. If you have any questions, please contact the corresponding author.

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“…In the presented analysis, the nodes of the interaction networks represent genes/molecules of interest from the transcriptomics data and the edges represent regulatory connections (molecular interactions) between the nodes inferred from databases. Studying regulatory interactions using interaction networks has been proved useful to uncover how cells respond to changing environments at a transcriptional level, to prioritise drug targets and to investigate the downstream effects of gene mutations and knockouts (32)(33)(34).…”

Section: Introductionmentioning

confidence: 99%

Regulatory network analysis of Paneth cell and goblet cell enriched gut organoids using transcriptomics approaches

Treveil

Sudhakar

Matthews

et al. 2019

Preprint

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The epithelial lining of the small intestine consists of multiple cell types, including Paneth cells and goblet cells, that work in cohort to maintain gut health. 3D in vitro cultures of human primary epithelial cells, called organoids, have become a key model to study the functions of Paneth cells and goblet cells in normal and diseased conditions. Advances in these models include the ability to skew differentiation to particular lineages, providing a useful tool to study cell type specific function/dysfunction in the context of the epithelium. Here, we use comprehensive profiling of mRNA, microRNA and long noncoding RNA expression to confirm that Paneth cell and goblet cell enrichment of murine small intestinal organoids (enteroids) establishes a physiologically accurate model. We employ network analysis to infer the regulatory landscape altered by skewing differentiation, and using knowledge of cell type specific markers, we predict key regulators of cell type specific functions: Cebpa, Jun, Nr1d1 and Rxra specific to Paneth cells, Gfi1b and Myc specific for goblet cells and Ets1, Nr3c1 and Vdr shared between them. Links identified between these regulators and cellular phenotypes of inflammatory bowel disease (IBD) suggest that global regulatory rewiring during or after differentiation of Paneth cells and goblet cells could contribute to IBD aetiology. Future application of cell type enriched enteroids combined with the presented computational workflow can be used to disentangle multifactorial mechanisms of these cell types and propose regulators whose pharmacological targeting could be advantageous in treating IBD patients with Crohn's disease or ulcerative colitis.

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Neighbours of cancer-related proteins have key influence on pathogenesis and could increase the drug target space for anticancer therapies

Cited by 25 publications

References 77 publications

A systems genomics approach to uncover patient-specific pathogenic pathways and proteins in a complex disease

A systems genomics approach to uncover patient-specific pathogenic pathways and proteins in a complex disease

PROTEINATOR: Web-UI exploring repurposing hypotheses of PROTEIN InhibiTORs based on protein interactions

Regulatory network analysis of Paneth cell and goblet cell enriched gut organoids using transcriptomics approaches

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