373
views
0
recommends
+1 Recommend
1 collections
    0
    shares
      scite_
       
      • Record: found
      • Abstract: found
      • Conference Proceedings: found
      Is Open Access

      DISNET: Drug repositioning and disease understanding through complex networks creation and analysis

      Published
      proceedings-article
        1 , , 1
      ScienceOpen
      RExPO22
      2-3 September, 2022
      Drug repurposing, Drug repositioning, DISNET knowledge base, Human disease complex networks, Data-driven

            Abstract

            The DISNET project (https://disnet.ctb.upm.es) was conceived in the context of drug repurposing, aiming to build a large-scale disease network and integrating heterogeneous biomedical knowledge. It is being carried out in the Medical Data Analytics Laboratory (MEDAL) located at the Center for Biomedical Technology (CTB) of the Universidad Politécnica de Madrid (UPM). The principal objective of the DISNET project is to build a platform that enables researchers the creation of complex multilayer networks following the concepts of Human Disease Networks (HDNs), with the final purpose of generating new drug repurposing hypotheses. During recent years, DISNET has put together in an accessible knowledge base heterogeneous information that includes biomedical data obtained and integrated from both structured and unstructured sources. These data are organized in 3 topological levels: i) the phenotypic layer (with information regarding diseases and their associated symptoms); ii) the biologic layer (which stores molecular-shifted data related to diseases including genes, proteins, metabolic pathways, genetic variants, non-coding RNAs and so on); and iii) the pharmacologic layer (containing information of the drugs, their interactions and their connections to diseases). The main results derived from the execution of DISNET include a system able to automatically extract disease-symptom associations from different data sources by using Natural Language Processing (NLP). In the drug repurposing area, the DISNET project has suggested a data-driven methodology to evaluate new potentially repurposable drugs centred on disease-gene and disease-phenotype associations, and thus detecting significant differences between repurposing and non-repurposing data. In addition, a straightforward drug repurposing approach has been described for the particular case of COVID-19and other efforts have been made in the scope of rare diseases. Currently, new avenues are being explored to predict drug-disease links in the DISNET network by means of Graph Neural Networks (GNNs). Furthermore, the problems of classifying diseases in better nosological modelsand of mapping disease vocabularieshave also been tackled.

            Content

            Author and article information

            Conference
            ScienceOpen
            28 June 2022
            Affiliations
            [1 ] Escuela Técnica Superior de Ingenieros Informáticos, Universidad Politécnica de Madrid, Spain
            Author notes
            Author information
            https://orcid.org/0000-0003-1545-3515
            https://orcid.org/0000-0001-8801-4762
            Article
            10.14293/S2199-1006.1.SOR-.PPPGCKMC.v1
            428618e3-9bf0-4bd8-92ee-3639431853b8

            This work has been published open access under Creative Commons Attribution License CC BY 4.0 , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Conditions, terms of use and publishing policy can be found at www.scienceopen.com .

            RExPO22
            Maastricht, Netherlands
            2-3 September, 2022
            History
            : 28 June 2022

            Data sharing not applicable to this article as no datasets were generated or analysed during the current study.
            Drug repositioning,DISNET knowledge base,Human disease complex networks,Data-driven,Drug repurposing

            References

            1. Goh Kwang-Il, Cusick Michael E., Valle David, Childs Barton, Vidal Marc, Barabási Albert-László. The human disease network. Proceedings of the National Academy of Sciences. Vol. 104(21):8685–8690. 2007. Proceedings of the National Academy of Sciences. [Cross Ref]

            2. García del Valle Eduardo P., Lagunes García Gerardo, Prieto Santamaría Lucía, Zanin Massimiliano, Menasalvas Ruiz Ernestina, Rodríguez-González Alejandro. Leveraging network analysis to evaluate biomedical named entity recognition tools. Scientific Reports. Vol. 11(1)2021. Springer Science and Business Media LLC. [Cross Ref]

            3. Lagunes-García Gerardo, Rodríguez-González Alejandro, Prieto-Santamaría Lucía, García del Valle Eduardo P., Zanin Massimiliano, Menasalvas-Ruiz Ernestina. DISNET: a framework for extracting phenotypic disease information from public sources. PeerJ. Vol. 8:2020. PeerJ. [Cross Ref]

            4. Prieto Santamaría Lucía, Ugarte Carro Esther, Díaz Uzquiano Marina, Menasalvas Ruiz Ernestina, Pérez Gallardo Yuliana, Rodríguez-González Alejandro. A data-driven methodology towards evaluating the potential of drug repurposing hypotheses. Computational and Structural Biotechnology Journal. Vol. 19:4559–4573. 2021. Elsevier BV. [Cross Ref]

            5. Prieto Santamaría Lucía, Díaz Uzquiano Marina, Ugarte Carro Esther, Ortiz-Roldán Nieves, Pérez Gallardo Yuliana, Rodríguez-González Alejandro. Integrating heterogeneous data to facilitate COVID-19 drug repurposing. Drug Discovery Today. Vol. 27(2):558–566. 2022. Elsevier BV. [Cross Ref]

            6. Otero-Carrasco Belén, Prieto Santamaría Lucía, Ugarte Carro Esther, Caraça-Valente Hernández Juan Pedro, Rodríguez-González Alejandro. A Computational Drug Repositioning Method for Rare DiseasesBio-inspired Systems and Applications: from Robotics to Ambient Intelligence. p. 551–561. 2022. Springer International Publishing. [Cross Ref]

            7. Prieto Santamaría Lucía, García del Valle Eduardo P., Zanin Massimiliano, Hernández Chan Gandhi Samuel, Pérez Gallardo Yuliana, Rodríguez-González Alejandro. Classifying diseases by using biological features to identify potential nosological models. Scientific Reports. Vol. 11(1)2021. Springer Science and Business Media LLC. [Cross Ref]

            8. Prieto Santamaria Lucia, Garcia del Valle Eduardo P., Lagunes Garcia Gerardo, Zanin Massimiliano, Rodriguez Gonzalez Alejandro, Menasalvas Ruiz Ernestina, Perez Gallardo Yuliana, Hernandez Chan Gandhi Samuel. Analysis of New Nosological Models from Disease Similarities using Clustering. 2020 IEEE 33rd International Symposium on Computer-Based Medical Systems (CBMS). 2020. IEEE. [Cross Ref]

            9. García del Valle Eduardo P., Lagunes García Gerardo, Prieto Santamaría Lucía, Zanin Massimiliano, Menasalvas Ruiz Ernestina, Rodríguez-González Alejandro. DisMaNET: A network-based tool to cross map disease vocabularies. Computer Methods and Programs in Biomedicine. Vol. 207:2021. Elsevier BV. [Cross Ref]

            10. Garcia del Valle Eduardo P., Lagunes Garcia Gerardo, Menasalvas Ruiz Ernestina, Prieto Santamaria Lucia, Zanin Massimiliano, Rodriguez-Gonzalez Alejandro. Completing Missing MeSH Code Mappings in UMLS Through Alternative Expert-Curated Sources. 2019 IEEE 32nd International Symposium on Computer-Based Medical Systems (CBMS). 2019. IEEE. [Cross Ref]

            Comments

            Comment on this article