Project description:We performed differential gene expression analysis using high throughput multiplex analysis via NanoString nCounter PanCancer Immune Profiling panel, which analyzes 770 genes related to cancer-immune pathways (cancer progression, chemokines and cytokines and their receptors, and innate and adaptive immune response). nSolver software was used to analyze the data and a heat map was generated to show differential expression of 770 genes. Further, using a fold cut-off of ≥2 and p-value <0.05, we observed that 4'-BR significantly modulated expression of multiple cancer immune genes.

Project description:Transcription profiling by NanoString nCounter of primary breast tumors from 1219 patients from the Carolina Breast Cancer Study (CBCS) using the NanoString nCounter platform and normalized with NanoString nSolver software. The NanoString RNA counting assay for formalin-fixed paraffin embedded samples is unique in its sensitivity, technical reproducibility, and robustness for analysis of clinical and archival samples. While commercial normalization methods are provided by NanoString, they are not optimal for all settings, particularly when samples exhibit strong technical or biological variation or where housekeeping genes have variable performance across the cohort. Here, we develop and evaluate a more comprehensive normalization procedure for NanoString data with steps for quality control, selection of housekeeping targets, normalization, and iterative data visualization and biological validation. The approach was evaluated using a large cohort from the Carolina Breast Cancer Study. The iterative process developed here eliminates technical variation more reliably than the NanoString commercial package, without diminishing biological variation, especially in long-term longitudinal multi-phase or multi-site cohorts. We also find that probe sets validated for nCounter, such as the PAM50 gene signature, are impervious to batch issues. This work emphasizes that preprocessing of gene expression data is an important component of study design. The normalized data here is processed through the RUVSeq-based iterative framework

Project description:Purpose: We compared the levels of miRNA specific for DEGs in isograft corneas with those in normal corneas, as well as the levels of miRNA specific for DEGs in allograft corneas with those in isograft corneas, to gain a better understanding of molecular variables that affect corneal graft rejection pathways. Methods: Illumina Hiseq 2500 deep sequencing was used to screen for differentially expressed genes (DEGs) in matched pairs of isograft corneas and normal corneas, allograft corneas and isograft corneas. Potential target genes among the DEGs were predicted using target prediction software (TargetScan, Miranda, miRDB, and CLIP), and the overlay portion was analyzed using the Gene Ontology (GO) database and the Kyoto Encyclopedia of Genes and Genomes (KEGG). An analysis of the interactions between DEG proteins (PPI analysis) and a MetaCore software analysis. Results: Our results showed that 22 miRNAs were significantly upregulated and 4 were significantly downregulated in the isograft group when compared with the control group (P < 0.01), while 17 miRNAs were significantly upregulated and 3 were significantly downregulated in the allograft group when compared with the isograft group (P < 0.01). Among the miRNAs with altered expression levels, miR-155-5p, miR-142-3p, miR-142-5p, and miR-223-3p displayed simultaneous changes in the above two comparisons. Potential target genes among the DEGs were predicted using target prediction software, and the overlay portion was analyzed using the Gene Ontology (GO) database and the Kyoto Encyclopedia of Genes and Genomes (KEGG). GO and KEGG analyses showed that the DEGs were mainly involved in metabolic pathways, cytokine secretion, and tumor immunity functions. An analysis of the interactions between DEG proteins (PPI analysis) and a MetaCore software analysis of 4 key DEGs revealed that the genes regulated by miR-155-5p played important roles in the miRNA-mRNA regulatory network. Furthermore, the MetaCore analysis identified C/EBP beta, p53, and sp1 as key transcription factors in that network. Conclusions: Our study identified transplanted corneas-specific miRNA in matched pairs of isograft corneas and normal corneas, allograft corneas and isograft corneas. Furthermore, bioinformatics analysis of the key miRNA regulatory network revealed the molecular mechanisms, which suggests miRNAs may as new molecular targets for treating corneal injuries and corneal transplant rejection

Project description:Background: Human papillomavirus-16 (HPV) causes the majority of oropharyngeal squamous cell carcinomas (OPSCC), especially tonsillar and base of tongue cancer. HPV-positive cancer patients have better clinical outcomes than HPV-negative patients and several groups have suggested de-intensification of treatment schedules in order to avoid unnecessary side effects in the former group. Current TNM classification falls short in predicting OPSCC patients’ prognosis highlighting the unmet need for novel biomarkers. Here we tested the expression and the prognostic role of microRNAs (miRs) in relation to HPV status and clinical outcome in 220 patients with OPSCC distributed in three independent cohorts. Methods: MiR expression was assessed in three cohorts of OPSCC patients by NanoString nCounter Technology (training; n=78), Real-Time PCR (validation; n=93) and miR-Sequencing (TCGA; n=51). In-Situ Hybridization was used to define miR localization. Differences in progression free (PFS) and overall survival (OS) according to miR expression were assessed using the Kaplan-Meier method and compared using the log rank test. Univariate and multivariate analyses using Cox proportional hazards method established the relationship between miR expression, HPV-status, clinical-pathological variables and survival. Results: miR-155 and miR-193b-3p were dysregulated in HPV-negative compared to HPV-positive OPSCC. MiR-193b-3p up-regulation was associated with worse PFS and OS in the training and validation cohorts and the TCGA cohort respectively. MiR-193b-3p prognostic effect was independent of HPV-status. Among HPV-positive patients, over-expression of miR-301b and down-modulation of miR-185b correlated with improved survival. Conclusion: Expression analysis for specific miRs in combination with tumor HPV-status and clinical-pathological variables may be useful in the prediction of clinical outcome for OPSCC patients.

Project description:We collected U937 cells after 72 h of LPS treatment or 72 h of co-culture with PANC-1 cells for microarray analysis. The gene microarray data were analyzed using the Agilent Human whole genome oligo 4*44k chip (array kit serial number: US00082833) and Agilent’s gene expression microarray software, including Feature Extraction and GeneSpring GX. Feature Extraction software extracts data from microarray images and provides workflows for analysis. GeneSpring GX offers statistical tools for data analysis and visualization (Welgene Biotech), and the genes of interest were drawn as a heatmap.

Project description:We tested the hypothesis that a panel of placental mammal-specific miRNAs and their targets play important to establish receptivity to implantation and their dysregulated expression may be a feature in women with early pregnancy loss. Relative expression levels of miR-340-5p, −542-3p, and −671-5p all increased following treatment of Ishikawa cells with progesterone (10 μg/ml) for 24 hrs (p < 0.05). RNA sequencing of these P4-treated cells identified co-ordinate changes to 6,367 transcripts of which 1713 were predicted targets of miR-340-5p, 670 of miR-542-3p, and 618 of miR-671-5p. Quantitative proteomic analysis of Ishikawa cells transfected with mimic or inhibitor (48 hrs: n=3 biological replicates) for each of the P4-regulated miRNAs was carried out to identify targets of these miRNAs. Excluding off target effects, mir-340-5p mimic altered 1,369 proteins while inhibition changed expression of 376 proteins (p < 0.05) of which, 72 were common to both treatments. A total of 280 proteins were identified between predicted (mirDB) and confirmed (in vitro) targets. In total, 171 proteins predicted to be targets by mirDB were altered in vitro by treatment with miR-340-5p mimic or inhibitor and were also altered by treatment of endometrial epithelial cells with P4. In vitro targets of miR-542-3p identified 1,378 proteins altered by mimic while inhibition altered 975 a core of 200 proteins were changed by both. 100 protein targets were predicted and only 46 proteins were P4 regulated. miR-671-mimic altered 1,252 proteins with inhibition changing 492 proteins of which 97 were common to both, 95 were miDB predicted targets and 46 were also P4-regulated. All miRNAs were detected in endometrial biopsies taken from patients during the luteal phase of their cycle, irrespective of prior or future pregnancy outcomes Expression of mir-340-5p showed an overall increase in patients who had previously suffered a miscarriage and had a subsequent miscarriage, as compared to those who had infertility or previous miscarriage and subsequently went on to have a life birth outcome. The regulation of these miRNAs and their protein targets regulate the function of transport and secretion, and adhesion of the endometrial epithelia required for successful implantation in humans. Dysfunction of these miRNAs (and therefore the targets they regulate) may contribute to endometrial-derived recurrent pregnancy loss in women.

Project description:Successful placentation requires delicate communication between endometrium and trophoblasts. The invasion and integration of trophoblasts into the endometrium during early pregnancy is crucial to placentation. Dysregulation of these functions is associated with various pregnancy complications such as miscarriage and preeclampsia. The endometrial microenvironment exerts an important influence on trophoblast cell functions. We hypothesized that the hormonal environment regulates the miRNA profile and secretome of the human endometrial gland, which subsequently modulates trophoblast functions during early pregnancy. By establishing the first secretome profiles and miRNA atlas of these endometrial organoids to the hormonal changes followed by trophoblast functional assays, we demonstrated that sex steroid hormones modulate aquaporins (AQP)1/9 and S100A9 secretions through miR-3194 activation in endometrial epithelial cells, which in turn enhanced trophoblast migration and invasion during early pregnancy.

Project description:Total RNA (100ng) from 21 ETMRs with C19MC structural alterations and 28 other PBTs was prepared with nCounter miRNA Sample Prep Kit according to standard protocol. miRNA expression profiling was conducted with human v1, v2, or v3 miRNA panel on nCounter miRNA expression platform (NanoString Technologies, Seattle, WA) according to manufacturer’s protocol. Signal normalization was done using nSolver Analysis and batch corrected using ComBat (Johnson et al. Biostatistics. 2007). 565 miRNAs overlapped between all three versions and was used for further analyses. Fold change and supervised t-test with FDR correction was calculated between the ETMRs and other PBTs.

Project description:'Background: Large-scale sequencing of cDNA (RNA-seq) has been a boon to the quantitative analysis of transcriptomes. A notable application of significant biomedical relevance is the detection of changes in transcript usage between experimental conditions. For example, discovery of pathological alternative splicing may allow the development of new treatments or better management of patients. From an analysis perspective, there are several ways to represent RNA-seq data to unravel differential transcript usage, such as annotation-based exon-level counting, differential analysis of the `percent spliced in'' measure or quantitative analysis of assembled transcripts. The goal of this research is to compare and contrast current state-of-the-art methods, as well as to suggest improvements to commonly used workflows. Results: We assess the performance of representative workflows using synthetic data, and explore the effect of using non-standard counting bin definitions as input to a state-of-the-art inference engine (DEXSeq). Although the canonical counting provided the best results overall, several non-canonical approaches were as good or better in specific aspects, and most counting approaches outperformed the evaluated event- and assembly-based methods. We show that an incomplete annotation catalog can have a detrimental effect on the ability to detect differential transcript usage in transcriptomes with few isoforms per gene, and that isoform-level pre-filtering can considerably improve the false discovery rate (FDR) control. Conclusion: Count-based methods generally perform well in detection of differential transcript usage. Controlling the FDR at the imposed threshold is difficult, mainly in complex organisms, but can be improved by pre-filtering of the annotation catalog.'

Project description:Context: An increase in maternal insulin resistance (IR) during pregnancy is essential for normal fetal growth. The mechanisms underlying this metabolic adaptation to pregnancy are poorly understood. Placenta factors are believed to instigate and maintain these metabolic changes, as IR decreases shortly after delivery. Methylation of placental gene loci that are common targets for miRNAs, are associated with maternal IR. Objective: We hypothesized that placental miRNAs targeting methylated loci are associated with maternal IR during late pregnancy. Methods: Placental miRNA expression was measured via small RNA-sequencing in a subset of 40 placentas selected by maternal pre-gravid BMI and neonatal adiposity. Results: Median maternal age was 27.5 years, with a median pre-pregnancy BMI of 24.7 kg/m2, and median HOMA-IR of 2.9. Among the five selected miRNA, near delivery maternal HOMA-IR correlated with the placental expression of miRNA-371b-3p (r=0.25; p=0.008) and miRNA-3940-3p (r=0.32; p=0.0004) across the 132 individuals. After adjustment for confounding variables, placental miRNA-3940-3p expression remained significantly associated with HOMA-IR (β=0.16; p=0.03). Conclusion: Placental miRNA may have an autocrine or paracrine effect - regulating placental genes which play a role in modulating maternal IR.