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Series GSE34234 Query DataSets for GSE34234
Status Public on Dec 10, 2011
Title Microarrays analysis of anti-Enterovirus 71 activity of Heparin
Organism Homo sapiens
Experiment type Expression profiling by array
Summary We have previously shown that Heparin (Hep) significantly inhibited Enterovirus 71 (EV71) infection and binding in both Vero and a human neural cell line, SK-N-SH, in vitro. Therefore, in this study we intended to gain insight into the cellular and molecular mechanisms of action of Hep against clinical EV71 infection in neural cells. Instead of stating a long list of gene functions and pathways, we tried to select for EV71-induced genes that were exclusively affected by antiviral activity of Hep through a multi-level comparison and characterization.
Overall, the findings of this study suggest several molecular targets by which Hep might exert its antiviral activity against clinical EV71 infection in neural cells. Mostly, Hep appeared to modulate induction effect of EV71 on several genes in a way that may benefit the host cell and inhibit the viral infection. The most important genes where expression patterns were significantly changed by Hep include genes related to; (i) cell growth, (ii) DNA repair and replication, (iii) cytoplasmic microfilaments and related apoptosis, (iv) regulation of energy metabolism and mitochondrion-related apoptosis, (v) cytoplasmic viral transport, (vi) transmembrane proteins and the related signaling pathways, (vii) phosphoribosyltransferase, (viii) transcription factors, (ix) G protein-coupled receptors and G protein-coupled receptors-interacting proteins, (x) remodeling actin filament assembly, (xi) chemokin receptors, and (xii) immunosuppression. In addition, Hep sometimes appeared to be harmful for cells, like the case in that Hep likely suppresses regulation of Metallothionein 1E. Furthermore, it should not be ignored that the Hep-caused affects seen in this microarray analysis may partially be attributed to a significant inhibitory effect of Hep on EV71 entry into the cells.
In conclusion, we propose that our microarray findings may suggest new directions for further studies on molecular targets of anti-EV71 activity of Hep. EV71 is a neurovirological virus that can cause severe and fatal CNS complications in infected patients. There is no approved drug for prophylaxis of EV71-casued disease and discovering a molecular drug target(s) for EV71 infection would be beneficial. The microarray analysis reported here was a large-scale microarray pilot study and thus further confirmatory experiments such as real time RT PCR and Western blotting would be warranted in order to confirm the mode of action of Hep implied here.
 
Overall design SK-N-SH cells were infected with a clinical EV71 isolate followed by treatment with 125 µg/mL of Hep. At 72 hours post infection, antiviral activity and cytotoxicity of Hep at 125 µg/mL in 12-well plates were carried out at the same time as RNA extraction. This way, we could ensure that we would assess transcript profiles of the host cells under the same condition and time as assessment of antiviral activity and cytotoxicity for the same replicates. Changes in expression profiles of the host cells were comparatively assessed under four conditions: cell control (neither infection nor treatment, designated CC), treated only with Hep (compound control, designated Cyto), EV71-infected cells treated with Hep (treatment, designated H), and infected with EV71 without treatment with Hep (virus control, designated V). All experiments were applied in triplicate, and totally twelve GeneChip® Human Gene 1.0 ST arrays were purchased from Affymetrix and processed. Then, the following five contrasts were made: Hep vs. CC; VC vs. CC; Cyto vs CC; Hep vs. VC; and Hep vs. Cyto. For each contrast, only samples from the two target groups were included. The statistical parameters of ANOVAs, p values, multiple test corrections, and fold changes were calculated within each contrast. Then, a multi-level selection and analysis procedure was employed in order to attribute changes in the gene transcription level to antiviral activity of Hep.
 
Contributor(s) Pourianfar HR, Grollo L
Citation(s) 24281657
Submission date Dec 07, 2011
Last update date Jul 26, 2018
Contact name Hamid Reza Pourianfar
E-mail(s) [email protected]
Phone 0098-9365980932
Organization name Current Address: Iranian Academic Centre for Education, Culture and Research, Mashhad Branch
Department -
Lab SWinburne University of Technology, Life Sciences,PC2-virology
Street address Azadi Square
City Mashhad
State/province Khorasan Razavi
ZIP/Postal code P.O.Box: 91775-1376
Country Iran
 
Platforms (1)
GPL6244 [HuGene-1_0-st] Affymetrix Human Gene 1.0 ST Array [transcript (gene) version]
Samples (12)
GSM845244 neural cells_cell control_Rep 1
GSM845245 neural cells_cell control_Rep 2
GSM845246 neural cell_cell control_Rep2
Relations
BioProject PRJNA149797

Download family Format
SOFT formatted family file(s) SOFTHelp
MINiML formatted family file(s) MINiMLHelp
Series Matrix File(s) TXTHelp

Supplementary file Size Download File type/resource
GSE34234_RAW.tar 53.6 Mb (http)(custom) TAR (of CEL, CHP)
Processed data included within Sample table
Processed data provided as supplementary file

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