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10.3389/fimmu.2021.789317

http://scihub22266oqcxt.onion/10.3389/fimmu.2021.789317
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suck abstract from ncbi


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pmid34975885      Front+Immunol 2021 ; 12 (ä): 789317
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  • Differential Co-Expression Network Analysis Reveals Key Hub-High Traffic Genes as Potential Therapeutic Targets for COVID-19 Pandemic #MMPMID34975885
  • Hasankhani A; Bahrami A; Sheybani N; Aria B; Hemati B; Fatehi F; Ghaem Maghami Farahani H; Javanmard G; Rezaee M; Kastelic JP; Barkema HW
  • Front Immunol 2021[]; 12 (ä): 789317 PMID34975885show ga
  • BACKGROUND: The recent emergence of COVID-19, rapid worldwide spread, and incomplete knowledge of molecular mechanisms underlying SARS-CoV-2 infection have limited development of therapeutic strategies. Our objective was to systematically investigate molecular regulatory mechanisms of COVID-19, using a combination of high throughput RNA-sequencing-based transcriptomics and systems biology approaches. METHODS: RNA-Seq data from peripheral blood mononuclear cells (PBMCs) of healthy persons, mild and severe 17 COVID-19 patients were analyzed to generate a gene expression matrix. Weighted gene co-expression network analysis (WGCNA) was used to identify co-expression modules in healthy samples as a reference set. For differential co-expression network analysis, module preservation and module-trait relationships approaches were used to identify key modules. Then, protein-protein interaction (PPI) networks, based on co-expressed hub genes, were constructed to identify hub genes/TFs with the highest information transfer (hub-high traffic genes) within candidate modules. RESULTS: Based on differential co-expression network analysis, connectivity patterns and network density, 72% (15 of 21) of modules identified in healthy samples were altered by SARS-CoV-2 infection. Therefore, SARS-CoV-2 caused systemic perturbations in host biological gene networks. In functional enrichment analysis, among 15 non-preserved modules and two significant highly-correlated modules (identified by MTRs), 9 modules were directly related to the host immune response and COVID-19 immunopathogenesis. Intriguingly, systemic investigation of SARS-CoV-2 infection identified signaling pathways and key genes/proteins associated with COVID-19's main hallmarks, e.g., cytokine storm, respiratory distress syndrome (ARDS), acute lung injury (ALI), lymphopenia, coagulation disorders, thrombosis, and pregnancy complications, as well as comorbidities associated with COVID-19, e.g., asthma, diabetic complications, cardiovascular diseases (CVDs), liver disorders and acute kidney injury (AKI). Topological analysis with betweenness centrality (BC) identified 290 hub-high traffic genes, central in both co-expression and PPI networks. We also identified several transcriptional regulatory factors, including NFKB1, HIF1A, AHR, and TP53, with important immunoregulatory roles in SARS-CoV-2 infection. Moreover, several hub-high traffic genes, including IL6, IL1B, IL10, TNF, SOCS1, SOCS3, ICAM1, PTEN, RHOA, GDI2, SUMO1, CASP1, IRAK3, HSPA5, ADRB2, PRF1, GZMB, OASL, CCL5, HSP90AA1, HSPD1, IFNG, MAPK1, RAB5A, and TNFRSF1A had the highest rates of information transfer in 9 candidate modules and central roles in COVID-19 immunopathogenesis. CONCLUSION: This study provides comprehensive information on molecular mechanisms of SARS-CoV-2-host interactions and identifies several hub-high traffic genes as promising therapeutic targets for the COVID-19 pandemic.
  • |COVID-19/epidemiology/*genetics/virology[MESH]
  • |Cluster Analysis[MESH]
  • |Gene Expression Profiling/*methods[MESH]
  • |Gene Ontology[MESH]
  • |Gene Regulatory Networks[MESH]
  • |Humans[MESH]
  • |Immunity/genetics[MESH]
  • |Models, Genetic[MESH]
  • |Pandemics[MESH]
  • |Protein Interaction Maps/genetics[MESH]
  • |SARS-CoV-2/physiology[MESH]
  • |Signal Transduction/*genetics[MESH]
  • |Transcription Factors/*genetics[MESH]


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