In Silico Analyses of Immune System Protein Interactome Network, Single-Cell RNA Sequencing of Human Tissues, and Artificial Neural Networks Reveal Potential Therapeutic Targets for Drug Repurposing Against COVID-19

López‐Cortés, Andrés; Guevara-Ramí­rez, Patricia; Kyriakidis, Nikolaos C; Barba-Ostria, Carlos; Cáceres, Ángela León; Guerrero, Santiago; Munteanu, Cristian R.; Tejera, Eduardo; Ortíz-Prado, Esteban; Cevallos-Robalino, Doménica; J., Ana María Gómez; Simbaña-Rivera, Katherine; Granizo-Martínez, Adriana; Pérez-M, Gabriela; Garcí­a-Cárdenas, Jennyfer M.; Zambrano, Ana Karina; Moreno, Silvana; Pérez-Castillo, Yunierkis; Cabrera-Andrade, Alejandro; Andrés, Lourdes Puig San; Proaño-Castro, Carolina; Bautista, Jhommara; Varela, Nelson; Quiñones, Luis A.; Paz‐y‐Miño, César

doi:10.26434/chemrxiv.12408074

Cited by 2 publications

(2 citation statements)

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“…The DeepVacPred computational framework has predicted several potential vaccine subunits from the available SARS-CoV-2 spike protein sequence [ 27 ]. Moreover, in silico analysis of the immune system protein interactome associated with SARS-CoV-2 infection and severity has revealed several novel therapeutic targets for drug repurposing against COVID-19 [ 28 ]. Hence, proteomics combined with bioinformatics may serve as a novel tool for understanding COVID-19 pathogenesis and designing therapeutics and vaccines.…”

Section: Proteomics-based Approaches For Understanding Covid-19 and Drug Discoverymentioning

confidence: 99%

Can proteomics-based approaches further help COVID-19 prevention and therapy?

Kumar

2021

Expert Review of Proteomics

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Section: Proteomics-based Approaches For Understanding Covid-19 and Drug Discoverymentioning

confidence: 99%

Can proteomics-based approaches further help COVID-19 prevention and therapy?

Kumar

2021

Expert Review of Proteomics

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“…This methodology is based on in silico disease biology modelling which aims to recapitulate the molecular environment of diseased target cells to identify candidate biomarkers and/or drugs that can be proposed as options for disease treatment. Others studying SARS-CoV-2 infection and COVID-19 have used protein-protein interaction (PPI) networks to analyze host-virus protein-protein interaction 8–10 , describe the interactome of the coronavirus S-glycoprotein and host proteins 11 , investigate viral-viral and virus-host PPI networks in peripheral blood mononuclear cells 12 , analyze the immune system PPI network and review potential therapeutic targets for drug repurposing against COVID-19 13 , and identify potentially repurposable drugs to treat COVID-19 14–16 .…”

Section: Introductionmentioning

confidence: 99%

Modeling COVID-19 disease biology to identify drug treatment candidates

Jessen

Gaisenband

Quintanilla

et al. 2022

Preprint

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Coronavirus disease 2019 (COVID-19) is an infectious disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Currently, there are a limited number of effective treatments. A variety of drugs that have been approved for other diseases are being tested for the treatment of COVID-19, and thus far only remdesevir, dexamethasone, baricitinib, tofacitinib, tocilizumab, and sarilumab have been recommended by the National Institutes of Health (NIH) COVID-19 Treatment Guidelines Panel for the therapeutic management of hospitalized adults with COVID-19. Using a disease biology modeling approach, we constructed a protein-protein interactome network based on COVID-19- associated genes/proteins described in research literature together with known protein-protein interactions in epithelial cells. Phenotype and disease enrichment analysis of the COVID-19 disease biology model demonstrated strong statistical enrichments consistent with patients’ clinical presentation. The model was used to interrogate host biological response induced by SARS-CoV-2 and identify COVID-19 drug treatment candidates that may inform on drugs currently being evaluated or provide insight into possible targets for potential new therapeutic agents. We focused on cancer drugs as they are often used to control inflammation, inhibit cell division, and modulate the host microenvironment to control the disease. From the top 30 COVID-19 drug candidates, twelve have a role as an antineoplastic agent, seven of which are approved for human use. Altogether, nearly 40% of the drugs identified by our model have been identified by others for COVID-19 clinical trials. Disease biology modeling incorporating disease-associated genes/proteins discussed in the research literature together with known molecular interactions in relevant cell types is a useful method to better understand disease biology and identify potentially effective therapeutic interventions.

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In Silico Analyses of Immune System Protein Interactome Network, Single-Cell RNA Sequencing of Human Tissues, and Artificial Neural Networks Reveal Potential Therapeutic Targets for Drug Repurposing Against COVID-19

Cited by 2 publications

References 0 publications

Can proteomics-based approaches further help COVID-19 prevention and therapy?

Can proteomics-based approaches further help COVID-19 prevention and therapy?

Modeling COVID-19 disease biology to identify drug treatment candidates

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