Project description:When comparing dNtrB and dNtrC to WT, we identified 790 and 1184 dysregulated genes, respectively. Genes were considered dysregulated if the absolute log2 fold change was greater than 1.5 and an adjusted p value of < 0.05. The large number of commonly DE genes indicated NtrB and C act as a cognate pair. Most notably, there were several dysregulated genes involved in nitrogen and carbon metabolic processes.

Project description:Purpose: The goals of this study are to investigate the effect of PKM2 KO or TMEM33 overexpression on genes expression. Methods: Fresh PKM2 KO MCF7, PKM2 KO MDA-MB-231 and TMEM33 OE MDA-MB-231 cell pellets, and their respective parental cells, were used for RNA extraction. RNA sequencing libraries were prepared using the Illumina TruSeq RNA Library Prep Kit v2 following the manufacturer’s instructions. Each library was sequenced in single read mode, 1 x 50 bp, using the HiSeq4000 platform. Sequencing reads were aligned to human genome (hg38) by STAR (version 2.5.2b). Expression levels of genes annotated in GENCODE (version 24 for PKM2 KO and their parental cells; version 27 for TMEM33 OE and their control cells) were quantified by RSEM (version 1.3.0). Parameters of STAR and RSEM were set following ENCODE’s long RNA-seq processing pipeline. Differentially expressed genes were identified by DESeq2 (version 1.24.0) under the requirement of at least two-fold changes and an adjusted p-value < 0.05. Results: Differential gene expression analyses identified 269 and 504 significantly up-regulated and 204 and 289 significantly down-regulated genes in MDA-MB-231 and MCF7 PKM2 KO cells compared to their parental cells (>=2-fold, adjusted P value < 0.05); Gene set enrichment analysis (GSEA) showed that cholesterol homeostasis and fatty acid metabolism were among the top down-regulated pathways in MDA-MB-231 TMEM33 OE cells. Moreover, the differential gene expression profiles between PKM2 KO and TMEM33 OE cell lines were positively correlated. Notably, the mRNAs of genes related to cholesterol homeostasis were decreased in both PKM2 KO and TMEM33 OE cells. Conclusions: TMEM33 acts as a downstream effector of PKM2 that regulates activation of SREBPs and lipid metabolism.

Project description:Equine myofibrillar myopathy (MFM) causes exertional muscle pain and is characterized by myofibrillar disarray and ectopic protein aggregates of unknown origin. To investigate the pathophysiology of MFM, we compared the skeletal muscle proteome and 3 h post-exercise transcriptome of gluteal muscle in MFM and control Arabian horses using iTRAQ and RNA-sequencing analyses. Differential expression (DE) was evaluated using edgeR and pathway analysis using Cytoscape and Cluego. Proteome analysis revealed significantly lower antioxidant peroxiredoxin 6 content (PRDX6, ↓4.14 log2 fold change [FC]), sarcomere protein tropomyosin (TPM2, ↓3.24x) and higher fatty acid transport enzyme carnitine palmitoyl transferase (CPT1B, ↑3.49x) in MFM vs. control muscle at rest. Three hours after exercise, 191 genes were DE in MFM vs. control muscle with a remarkably focused > 1.5 log2FC in genes involved in sulfur compound/ cysteine metabolism such as cystathionine-beta-synthase [CBS, ↑4.51] and a cysteine and neutral amino acid membrane transporter [SLC7A10, ↑1.79]. In MFM vs. control at rest, 284 genes were DE with > 1.5 log2 FC in pathways for structure morphogenesis, fiber organization, tissue development and cell differentiation including> 2 log2 FC in alpha actin-cardiac [↑ ACTC1], cytoskeletal desmoplakin [↑ DSP], basement membrane usherin [↓ USH2A] and delta like non-canonical Notch ligand 1, [↓ DLK1]. In conclusion, myofibrillar disarray and protein aggregation in MFM horses was embodied by DE expression in pathways of structure/fiber organization and tissue regeneration. Reduced antioxidant capacity as a potential etiology for MFM was supported by diminished cysteine rich antioxidant peroxiredoxin 6 with compensatory increased cysteine synthesis following exercise.

Project description:Alzheimer’s dementia (AD) is the most common form of dementia and without readily available clinical biomarkers. Blood-derived proteins are routinely used for diagnostics, however, comprehensive plasma profiling is challenging due to the large dynamic range in protein concentrations. Extracellular vesicles (EVs) can cross the blood-brain barrier and may provide a source for AD related biomarkers. We investigated plasma-derived EV proteins for biomarkers towards AD diagnostics from 10 AD patients, 10 Mild Cognitive Impairment (MCI) patients, and 9 healthy controls (Con) using liquid chromatography - tandem mass spectrometry (LC-MS/MS). EV enrichment was performed using a double centrifugation of 100,000 × g, 1h, 4°C with a wash of the pellet. Some AD patients presented with highly elevated FXIIIA1 (log2 FC: 4.6, p-value: 0.005) and FXIIIB (log2 FC: 4.9, p-value: 0.018). A group of proteins was identified discriminating Con and AD (AUC: 0.91, CI: 0.67-1.00) with ORM2 (AUC: 1.00, CI: 1.00-1.00), RBP4 (AUC: 0.99, CI: 0.95-1.00), and HYDIN (AUC: 0.89, CI: 0.72-1.00) found especially relevant for AD. This indicates that EVs provide an easily accessible matrix for possible biomarkers for AD. Some of the MCI patients, with similar protein profiles as the AD group progressed to AD within a 2-year timespan.

Project description:Cardiac mRNA profiles of 2-month-old wild-type (WT) and muscle Sdhaf4 knockout (Sdhaf4−/−) mice were generated by deep sequencing, in 6 repeats, usingIllumina HiSeqTM. HTSeq v0.9.1 was used to count the reads numbers mapped to each gene. Genes with an adjusted P-value <0.05 found by DESeq were assigned as differentially expressed. Corrected P-value of 0.005 and log2 (Fold change) of 1 were set as the threshold for significantly differential expression.

Project description:To identify miRNAs which could be involved in TAA (Thoracic Aortic Aneurysm) pathogenesis, we first performed miRNAs microarrays using the aortic media of healthy controls and TAA patients. 473 miRNAs were detected in at least half samples. Among them, 232 miRNAs were differentially expressed with adjusted p value < 0.05 and log2 transformed fold change > 0.5 or < -0.5.

Project description:A gender gap exists in cystic fibrosis (CF). Here we investigate whether plasma microRNA expression profiles differ between the sexes in CF children. microRNA expression was quantified in paediatric CF plasma (n=12; six females; Age range:1-6; Median Age: 3; 9 Phe508del homo- or heterozygotes) using TaqMan OpenArray Human miRNA Panels. Principal component analysis indicated differences in male versus female miRNA profiles. The miRNA array analysis revealed two miRNAs which were significantly increased in the female samples (miR-885-5p; fold change (FC):5.07, adjusted p value: 0.026 and miR-193a-5p; FC:2.6, adjusted p value: 0.031), although only miR-885-5p was validated as increased in females using specific qPCR assay (p < 0.0001). Gene ontology analysis of miR-885-5p validated targets identified cell migration, motility and fibrosis as processes potentially affected, with RAC1-mediated signalling featuring significantly. There is a significant increase in miR-885-5p in plasma of females versus males with CF under six years of age.

Project description:Background In the past, numerous studies revealed that supplementation with carnitine has multiple effects on performance characteristics and gene expression in livestock and model animals. The molecular mechanisms underlying these observations are still largely unknown. Increasing evidence suggests that microRNAs (miRNAs), a class of small non-coding RNA molecules, play an important role in post-transcriptional regulation of gene expression and thereby influencing several physiological and pathological processes. Based on these findings, the aim of the present study was to investigate the influence of carnitine supplementation on the miRNA expression profile in skeletal muscle of obese Zucker rats using miRNA microarray analysis. Results miRNA expression profiling in skeletal muscle revealed a subset of 152 miRNAs out of the total number of miRNAs analysed (259) were identified to be differentially regulated (adjusted P-value ˂ 0.05) by carnitine supplementation. Compared to the obese control group, 111 miRNAs were up-regulated and 41 down-regulated by carnitine supplementation (adjusted P-value ˂ 0.05). 14 of these miRNAs showed a log2 ratio ≥ 0.5 and 7 miRNAs showed a log2 ratio ≤ -0.5 (adjusted P-value ˂ 0.05). Conclusion The present study shows for the first time that supplementation of carnitine affects a large set of miRNAs in skeletal muscle of obese Zucker rats suggesting a novel mechanism through which carnitine exerts its multiple effects on gene expression, which were observed during the past.

Project description:Microbial keratitis is a major cause of blindness worldwide. An excessive host inflammatory response can occur even after adequate antimicrobial treatment. This results in tissue damage with corneal thinning and even perforation, which may require corneal transplantation. In this study we investigated the pathways involved in the pathophysiology of this disease by comparing the human transcriptome profile of tissue from culture-proven bacterial and fungal keratitis (n=7 and n=8 respectively) with normal non-infected cadaveric corneal tissue (C, n=12) using Illumina HT12 v4 microarrays. The causative organisms were Streptococcus pneumoniae (n=6) and Pseudomonas aeruginosa (n=1) for bacterial keratitis (BK). Fungal keratitis (FK) was caused by Fusarium sp. (n=5), Aspergillus sp. (n=2, A. flavus and terreus) and Lasiodiplodia sp. (n=1). Differential expression (DE) analysis revealed 2310 significantly altered probes in the BK v C comparison, and 1813 probes for FK v C. The most highly upregulated gene in both comparisons was MMP9 with fold changes (FC) of 64 (fdr-adjusted p<6 x10-11) for FK v C and 89 for BK v C (fdr-adjusted p<4 x10-11) respectively. Network co-expression analyses revealed the defense response, inflammatory response and extracellular matrix mechanisms to be the main functional pathways involved. Microarray results were validated by performing real-time quantitative PCR (RTqPCR) for 46 DE genes using RNA extracted from the same samples. There was a high correlation between log2 FC values from microarray and RTqPCR. Further studies are needed to evaluate the most highly differentially expressed genes as possible biomarkers of disease progression or therapeutic targets.

Project description:Microbial keratitis is a major cause of blindness worldwide. An excessive host inflammatory response can occur even after adequate antimicrobial treatment. This results in tissue damage with corneal thinning and even perforation, which may require corneal transplantation. In this study we investigated the pathways involved in the pathophysiology of this disease by comparing the human transcriptome profile of tissue from culture-proven bacterial and fungal keratitis (n=7 and n=8 respectively) with normal non-infected cadaveric corneal tissue (C, n=12) using Illumina HT12 v4 microarrays. The causative organisms were Streptococcus pneumoniae (n=6) and Pseudomonas aeruginosa (n=1) for bacterial keratitis (BK). Fungal keratitis (FK) was caused by Fusarium sp. (n=5), Aspergillus sp. (n=2, A. flavus and terreus) and Lasiodiplodia sp. (n=1). Differential expression (DE) analysis revealed 2310 significantly altered probes in the BK v C comparison, and 1813 probes for FK v C. The most highly upregulated gene in both comparisons was MMP9 with fold changes (FC) of 64 (fdr-adjusted p<6 x10-11) for FK v C and 89 for BK v C (fdr-adjusted p<4 x10-11) respectively. Network co-expression analyses revealed the defense response, inflammatory response and extracellular matrix mechanisms to be the main functional pathways involved. Microarray results were validated by performing real-time quantitative PCR (RTqPCR) for 46 DE genes using RNA extracted from the same samples. There was a high correlation between log2 FC values from microarray and RTqPCR. Further studies are needed to evaluate the most highly differentially expressed genes as possible biomarkers of disease progression or therapeutic targets. Case - control study design. Corneal ulcer tissue from 8 bacterial and 9 fungal ulcers was excised at the time of corneal transplantation surgery and immediately preserved in RNALater. Non-infected corneal tissue from 13 cadaver corneas were the control tissue. Transcriptome profile generated using Illumina HT12 v4 beadchips. Differential expression analysis was performed with pairwise comparisons: bacterial ulcers versus controls, fungal ulcers versus controls and bacterial versus fungal ulcers. Microarray results validated with RTqPCR.