Project description:Tuberculosis (TB) is still a major life-threatening infectious disease, within which especially the rise of multidrug resistant TB (MDR-TB) is currently worrying. This study focuses on mechanisms of development of rifampicin resistance, since rifampicin seems to play an important role in the development of MDR-TB. To provide further insight in rifampicin resistance, we performed a genome-wide transcriptional profile analysis for Mycobacterium tuberculosis (M. tuberculosis) using microarray technology and qRT-PCR analysis. We exposed a rifampicin-susceptible H37Rv wild type (H37Rv-WT) and a rifampicin-resistant progeny H37Rv strain with a H526Y mutation in the rpoB gene (H37Rv-H526Y) to several concentrations of rifampicin, to define the effect of rifampicin on the transcription profile. Our study showed that there are resistance-dependant differences in response between both M. tuberculosis strains. Gene clusters associated with efflux, transport and virulence were altered in the rifampicin-resistant H37Rv mutant compared to the rifampicin-susceptible H37Rv-WT strain after exposure to rifampicin. We conclude that the small gene cluster Rv0559c-Rv0560c in the H37Rv-H526Y strain was remarkably up-regulated in the microarray analysis and qRT-PCR results and appeared to be dependent on rifampicin concentration and time of exposure. Therefore this study suggests that Rv0559c and Rv0560c play a pivotal role in rifampicin resistance of M. tuberculosis. Further investigation of Rv0559c and Rv0560c is needed to reveal function and mechanism of both genes that were triggered upon rifampicin exposure. [Data is also available from http://bugs.sgul.ac.uk/E-BUGS-139]

Project description:Compared to whole serum miRNAs, miRNAs in serum small extracellular vesicles (sEVs) are well protected form RNA enzymes, thus provide a consistent source of miRNA for disease biomarker detection. Serum sEVs and their miRNA cargos released by injured liver cells could be promising biomarkers for diagnosis of liver diseases. We were very interested to find out the effects of liver injury on serum extracellular vesicles as well as the small RNA components they transported, if there is any difference between acute and chronic injury. Study in this regard will help us to identify new serum biomarkers for liver injury, and to find out if there are specific markers for acute or chronic liver injury. To identify potential biomarker for liver injury based on serum sEVs miRNAs, we established the carbon tetrachloride (CCL4) induced acute and chronic liver injury mice model, and examined the dynamic changes of small RNA components, especially miRNAs, in serum sEVs.

Project description:Rifampicin plays an important role during tuberculosis treatment, which historically contributed for shortening therapy; however, rifampicin resistance has been the intersection for the definition of multi (MDR-TB) and extensively (XDR-TB) resistant outcomes. A key aspect which has contributed for investigations of drug action/resistance is the understanding of the dynamic genome expression, as that analyzed by Proteomics. Proteins from the reference strain, Mycobacterium tuberculosis H37Rv were extracted after 12, 24 and 48 hours over rifampicin challenge at the minimal inhibitory concentration (0.03 μg•mL-1) and identified by LC-MS.

Project description:This SuperSeries is composed of the following subset Series: GSE24186: Atorvastatin, rosuvastatin and rifampicin effect on human primary hepatocyte transcriptome [Steroltalk platform] GSE24187: Atorvastatin, rosuvastatin and rifampicin effect on human primary hepatocyte transcriptome [Affymetrix platform] Refer to individual Series

Project description:The antimicrobials isoniazid and pyrazinamide, used for the treatment of tuberculosis are known to cause drug-induced liver injury in humans. This limits the effectiveness of tuberculosis treatment, resulting in incomplete cure, relapse and the development of antimicrobial resistance. MicroRNAs are known to be good biomarkers of disease, with the microRNA miR-122 being diagnostic for liver injury. In this study zebrafish larvae were exposed to the anti-tuberculosis drugs isoniazid and pyrazinamide at concentrations which demonstrated liver injury by microscopy and histology. The aim of this study is to understand small RNA changes occurring in anti-tuberculosis drug-induced liver injury and to attempt to identify novel microRNA biomarkers of liver injury.

Project description:Tuberculosis is a global health threat that affects millions of people every year, and treatment-limiting toxicity remains a considerable source of treatment failure. Recent reports have characterized the nature of hPXR-mediated hepatotoxicity and systemic toxicity of antitubercular drugs. The antitubercular drug isoniazid plays a role in such pathologic states as acute intermittent porphyria, anemia, hepatotoxicity, hypercoagulable states (deep vein thrombosis, pulmonary embolism, or ischemic stroke), pellagra (vitamin B3 deficiency), peripheral neuropathy, and vitamin B6 deficiency. However, the mechanisms by which isoniazid administration leads to these states are unclear. To elucidate the mechanism of rifampicin- and isoniazid-induced liver and systemic injury, we performed tandem mass tag mass spectrometry-based proteomic screening of mPxr–/– and hPXR mice treated with combinations of rifampicin and isoniazid. Proteomic profiling analysis suggested that the hPXR liver proteome is affected by antitubercular therapy to disrupt [Fe–S] cluster assembly machinery, [2Fe–2S] cluster-containing proteins, CYP450 enzymes, heme biosynthesis, homocysteine catabolism, oxidative stress responses, vitamin B3 metabolism, and vitamin B6 metabolism. These findings provide insight into the etiology of some of these processes and potential targets for subsequent investigations.

Project description:With particular emphasis on interactions between cholesterol homeostasis and drug metabolism we investigate the transcriptome of human primary hepatocytes treated by two commonly prescribed cholesterol lowering drugs atorvastatin and rosuvastatin and by rifampicin that serves as an outgroup as well as a model substance for induction of nuclear receptor PXR. Expression profiling with dedicated Steroltalk cDNA arrays shows that statins induce extensive transcriptome changes. 10 condition experiment: 3 treatments (atorvastatin, rifampicin, rosuvastatin), each measured at 3 time points (12, 24 and 48 hours), and untreated cells. 3-7 biological replicates for each treatment condition, 20 biological and technical replicates for untreated cells. Common reference design.

Project description:Antimicrobial resistance (AMR) poses a threat to global health and the economy. Rifampicin resistant Mycobacterium tuberculosis accounts for a third of the global AMR burden. Gaining the upper hand on AMR requires a deeper understanding of the physiology of resistance. AMR often results in the erosion of normal cell function: a fitness cost. Identifying intervention points in the mechanisms underpinning the cost of resistance in M. tuberculosis could play a pivotal role in strengthening future treatment regimens. We used a collection of M. tuberculosis strains providing an evolutionary and phylogenetic snapshot of rifampicin resistance and subjected them to genome-wide transcriptomic and proteomic profiling to identify key perturbations of normal physiology. We found that a rifampicin resistance-conferring mutation in RpoB imparts considerable gene expression changes, many of which are mitigated by a compensatory mutation in RpoC. However, our data also provide evidence for pervasive epistasis: the same resistance mutation imposed a different fitness cost and functionally unrelated changes to gene expression in clinical strains from unrelated genetic backgrounds. Rather than functional changes in specific pathways, our data suggest that the fitness cost of rifampicin resistance stems from a misallocation of resources: the greater the departure from the wild type baseline proteome investment, the greater the fitness cost of rifampicin resistance in a given strain. We summarize these observations in the “Burden of Expression” hypothesis of fitness cost and provide evidence that it can be used for suppressing the emergence of rifampicin resistance.

Project description:The pathogenesis of liver damage induced by anti-tuberculosis drugs is not fully understood, andcurrently, there is no clinically useful biomarker for early diagnosis and treatment.By comparing the differences in the expression of global gene transcripts in the serum of patients with and without anti-tuberculosis drugs induced liver injury, dysregulation genes not only provides a basis for studying pathogenesis, but also provides important information to find new targets for diagnosis and treatment of disease. We used microarrays to detail the global programme of gene expression in sera underlying anti-tuberculosis drug-induced liver injury and identified distinct classes of transcript during this process.

Project description:We generated iPSCs from human intervertebral disc cells which were obtained during spine fusion surgery of patients with spinal cord injury. The disc cell-derived iPSCs (diPSCs) showed similar characteristics to human embryonic stem cells (hESCs) and were efficiently differentiated into neural progenitor cells (NPCs) with the capability of differentiation into mature neurons in vitro. To examine whether the transplantation of NPCs derived from the diPSCs showed therapeutic effects, the NPCs were transplanted into mice at 9 days post-spinal cord injury. We detected a significant amelioration of hind limb dysfunction during the follow up recovery periods. Histological analysis at 5 weeks post-transplantation, we could identify undifferentiated human NPCs (Nestin+) as well as early (TUJ1+) and mature neurons (MAP2+) derived from the NPCs. Furthermore, the NPC transplantation demonstrated a preventive effect on the spinal cord degeneration resulting from the secondary injury. This study revealed that the intervertebral disc, a M-bM-^@M-^\to-be-wasteM-bM-^@M-^] tissue, removed from the surgical procedure, could provide a unique opportunity to study iPSCs derived from hardly accessible somatic cells in normal situation and also be a useful therapeutic resource to generate autologous neural cells to treat patients suffering from spinal cord injury. Total RNA was isolated using the NucleoSpin RNA II Kit (Macherey-Nagel, Duren, Germany, www.mn-net.com) according to the manufacturerM-bM-^@M-^Ys suggestions and was utilized for a genome-wide gene expression profiling experiment using the Illumina array (Illumina, San Diego, CA, USA, www.illumina.com) at Macrogen (Macrogen, Seoul, Korea, www.macrogen.com).