Project description:Purpose: The goals of this study is to analyze differentially expressed microRNAs in pulmonary alveolar macrophages from pigs infected with H1N1 swine influenza A virus at different time points. Methods: miRNA profiles in PAMs from pigs infected with H1N1 SwIV at three time points were generated by deep sequencing. Differentially expressed miRNAs were then identified and their targets were predicted. For these targets, GO and KEGG analyses were performed and protein-protein interaction networks regulated by DE miRNAs were constructed. Results: Comparing to control group, 70 and 16 DE miRNAs were respectively identified on post-infection day (PID) 4 and PID 7. 56 DE miRNAs were identified between PID4 and PID7. GO and KEGG analyses indicated that most of targets for these DE miRNAs were related to immune and inflammatory responses. Conclusions: Our study represents the first integrative analysis of DE miRNAs in PAMs infected with H1N1 SwIV at different time points. The results in this study would enable us to better understand the underlying pathogenesis of H1N1 SwIV infection in pigs. Furthermore, these data would be very useful for investigating the functions and regulatory mechanisms of miRNAs in human inM-oM-,M-^Buenza because pig serves as an excellent animal model to study human diseases. miRNA profiles in PAMs from pigs infected with H1N1 SwIV at three time points were generated by deep sequencing.

Project description:Purpose: The goals of this study is to analyze differentially expressed microRNAs in pulmonary alveolar macrophages from pigs infected with H1N1 swine influenza A virus at different time points. Methods: miRNA profiles in PAMs from pigs infected with H1N1 SwIV at three time points were generated by deep sequencing. Differentially expressed miRNAs were then identified and their targets were predicted. For these targets, GO and KEGG analyses were performed and protein-protein interaction networks regulated by DE miRNAs were constructed. Results: Comparing to control group, 70 and 16 DE miRNAs were respectively identified on post-infection day (PID) 4 and PID 7. 56 DE miRNAs were identified between PID4 and PID7. GO and KEGG analyses indicated that most of targets for these DE miRNAs were related to immune and inflammatory responses. Conclusions: Our study represents the first integrative analysis of DE miRNAs in PAMs infected with H1N1 SwIV at different time points. The results in this study would enable us to better understand the underlying pathogenesis of H1N1 SwIV infection in pigs. Furthermore, these data would be very useful for investigating the functions and regulatory mechanisms of miRNAs in human influenza because pig serves as an excellent animal model to study human diseases.

Project description:Cryptosporidium muris RN66

Project description:Intervention type:DRUG. Intervention1:Huaier, Dose form:GRANULES, Route of administration:ORAL, intended dose regimen:20 to 60/day by either bulk or split for 3 months to extended term if necessary. Control intervention1:None. Primary outcome(s): For mRNA libraries, focus on mRNA studies. Data analysis includes sequencing data processing and basic sequencing data quality control, prediction of new transcripts, differential expression analysis of genes. Gene Ontology (GO) and the KEGG pathway database are used for annotation and enrichment analysis of up-regulated genes and down-regulated genes. For small RNA libraries, data analysis includes sequencing data process and sequencing data process QC, small RNA distribution across the genome, rRNA, tRNA, alignment with snRNA and snoRNA, construction of known miRNA expression pattern, prediction New miRNA and Study of their secondary structure Based on the expression pattern of miRNA, we perform not only GO / KEGG annotation and enrichment, but also different expression analysis.. Timepoint:RNA sequencing of 240 blood samples of 80 cases and its analysis, scheduled from June 30, 2022..

Project description:Trichuris muris (T. muris) induces chronic colitis in susceptible mouse strains with clinical, histological, and immunological homology to human Crohn's disease. Gene expression profiling was performed on colon tissue of resistant (BALB/c) and susceptible (AKR) mice following T. muris infection.

Project description:Cryptosporidium parvum is an important zoonotic parasitic disease worldwide, but the molecular mechanisms of the host–parasite interaction are not fully understood. Noncoding microRNAs (miRNAs) are considered key regulators of parasitic diseases. Therefore, we used microarray, qPCR, and bioinformatic analyses to investigate the intestinal epithelial miRNA expression profile after Cryptosporidium parvum infection.Twenty miRNAs were differentially expressed after infection (four upregulated and 16 downregulated). Further analysis of the differentially expressed miRNAs revealed that many important cellular responses were triggered by Cryptosporidium parvum infection, including cell apoptosis and the inflammatory and immune responses.This study demonstrates for the first time that the miRNA expression profile of human intestinal epithelium cells is altered by C. parvum infection. This dysregulation of miRNA expression may contribute to the regulation of host biological processes in response to C. parvum infection, including cell apoptosis and the immune responses. These results provide new insight into the regulatory mechanisms of host miRNAs during cryptosporidiosis, which may offer potential targets for future C. parvum control strategies.

Project description:A/Zhejiang/DTID-ZJU02/2009(H1N1) is a strain of the swine-origin influenza A(H1N1) virus isolated during the human swine flu outbreak of 2009. To analyze the miRNA expression profiles of A549 cells infected with A/Zhejiang/DTID-ZJU02/2009(H1N1) at 0, 24, 48, and 72 h post-infection (hpi) and investigate the relation between the miRNA expression profile and its pathogenesis, Human MicroRNA Array v2.0 was applied. At 24 hpi, 174 miRNAs were detected to change their expression compared with 0 hpi, 28 of them increased and 146 decreased. At 48 hpi, 214 changed miRNAs were detected, 21 of them increased and 193 decreased. At 72 hpi, 282 changed miRNAs were detected, 19 of them increased and 263 decreased. Targets of the 21 significantly differentially expressed miRNAs were analyzed by bioinformatics technology. The function categories of the predicted targets were analyzed by GO(Gene ontology) annotation. The signaling pathways involving the changed miRNAs were analyzed by KEGG(Kyoto Encyclopedia of Genes and Genomes) and GO annotation. Four key signaling pathways were identified, namely, the MAPK, apoptosis, JAK_STAT, and toll-like receptor signaling pathways. The apoptosis and MAPK signaling pathways were activated by all miRNAs, whereas the JAK_STAT and toll-like receptor signaling pathways were activated by some miRNAs but inhibited by the others, suggesting balance in the host–virus interaction. We also constructed and analyzed the protein-protein interaction network of all the predicted targets and found some key nodes. This finding provides a picture of miRNA expression in A549 cells infected with A/Zhejiang/DTID-ZJU02/2009(H1N1) as complete as possible, which may provide important information for investigation of H1N1 pathogenesis and therapeutic method. the miRNA expression profiles of A549 cells infected with A/Zhejiang/DTID-ZJU02/2009(H1N1) at 0, 24, 48, and 72 h post-infection (hpi) were analyzed and the relation between the miRNA expression profile and its pathogenesis was investigated.

Project description:BACKGROUND: Competitive endogenous RNA (ceRNA) reveals new mechanisms for interactions between RNAs. However, knowledge of ceRNA regulatory networks in macrophages infected with Talaromyces marneffei (T. marneffei, TM) is still limited. This study aims to explore the expression profiles of lncRNA, miRNA and mRNA, and the changes of ceRNA network related to immunity, inflammation, metabolism in TM-infected macrophage. METHODS: Next-generation sequencing technology (NGS) was used to obtain mRNA, miRNA and lncRNA expression profiles in TM-infected macrophages and normal macrophages. Cuffdiff and DESeq2 software packages are used to identify differentially expressed lncRNA, miRNA and mRNA. The function enrichment analysis was performed by GOseq package in R platform, and the lncRNA–miRNA–mRNA interaction ceRNA network was established in Cytoscape. Functional enrichment analysis was performed on genes contained in the ceRNA network, and genes significantly enriched in functional pathways were selected for qRT-PCR verification. RESULTS: A total of 119 lncRNAs, 28 miRNAs and 208 mRNAs were identified as differentially expressed RNAs in TM-infected macrophages. Among them, 38 lncRNAs, 10 miRNAs and 109 mRNAs are contained in the ceRNA regulatory network. GO analysis and KEGG pathway of mRNA in the ceRNA network showed that macrophages infected with TM activated pathways and functions related to immune response, metabolic response and inflammatory response. Select genes that are significantly abundant in GO analysis and KEGG pathway. The core genes were selected for quantitative real-time PCR (qRT-PCR) to verify consistency with the sequencing results. Eight groups of ceRNAs consisting of 3 mRNAs, 5 lncRNAs, and 2 miRNAs were verified. They are mRNA CSF3, IL24, LIF. lncRNA IL6R-AS1, LINC02009, AC068831.1, AC006252.1, LINC02466. These genes may be involved in immune response and inflammatory response-related pathways and functions in TM-infected macrophages. CONCLUSIONS: The CeRNA network plays an important role in understanding the mechanism of TM infection in macrophages. This study may provide effective and novel insights for further understanding the underlying mechanism of Talaromyces marneffei.

Project description:BACKGROUND: Competitive endogenous RNA (ceRNA) reveals new mechanisms for interactions between RNAs. However, knowledge of ceRNA regulatory networks in macrophages infected with Talaromyces marneffei (T. marneffei, TM) is still limited. This study aims to explore the expression profiles of lncRNA, miRNA and mRNA, and the changes of ceRNA network related to immunity, inflammation, metabolism in TM-infected macrophage. METHODS: Next-generation sequencing technology (NGS) was used to obtain mRNA, miRNA and lncRNA expression profiles in TM-infected macrophages and normal macrophages. Cuffdiff and DESeq2 software packages are used to identify differentially expressed lncRNA, miRNA and mRNA. The function enrichment analysis was performed by GOseq package in R platform, and the lncRNA–miRNA–mRNA interaction ceRNA network was established in Cytoscape. Functional enrichment analysis was performed on genes contained in the ceRNA network, and genes significantly enriched in functional pathways were selected for qRT-PCR verification. RESULTS: A total of 119 lncRNAs, 28 miRNAs and 208 mRNAs were identified as differentially expressed RNAs in TM-infected macrophages. Among them, 38 lncRNAs, 10 miRNAs and 109 mRNAs are contained in the ceRNA regulatory network. GO analysis and KEGG pathway of mRNA in the ceRNA network showed that macrophages infected with TM activated pathways and functions related to immune response, metabolic response and inflammatory response. Select genes that are significantly abundant in GO analysis and KEGG pathway. The core genes were selected for quantitative real-time PCR (qRT-PCR) to verify consistency with the sequencing results. Eight groups of ceRNAs consisting of 3 mRNAs, 5 lncRNAs, and 2 miRNAs were verified. They are mRNA CSF3, IL24, LIF. lncRNA IL6R-AS1, LINC02009, AC068831.1, AC006252.1, LINC02466. These genes may be involved in immune response and inflammatory response-related pathways and functions in TM-infected macrophages. CONCLUSIONS: The CeRNA network plays an important role in understanding the mechanism of TM infection in macrophages. This study may provide effective and novel insights for further understanding the underlying mechanism of Talaromyces marneffei.

Project description:Gan mice express Wnt1, Ptgs2, and Ptges, which develop inflammation-associated gastric tumors (Oshima et al, Gastroenterology 131: 1086, 2006). We examined the role of TNF-alpha in tumorigenesis by construction of TNF-/- Gan mice. We also examined genetic background difference in tumor phenotype by changing Gan mouse background from C57BL/6(B6) to BALB/c. Microarray analyses were performed to examine changes of expression profiles in tumors by TNF gene disruption or by changing genetic background. Total RNA was prepared from B6 Gan mice (n=3: Gan1-Gan3), B6-Gan TNF-/- mice (n=3: Gan(TNF KO)1-Gan(TNF KO)3), BALB-Gan mice (n=3: Gan(BALB/c)1-Gan(BALB/c)3), and wid-type normal glandular stomach (n=3: WT1-WT3). We used Affymetrix microarrays for hybridization, and examined expression profiles.