Project description:1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) is a neurotoxin that can cause gastrointestinal ulcers by affecting dopamine levels. Therefore, MPTP has been considered a toxic substance that causes gastric ulcer disease in experimental animals. In this study, tree shrews were used as the animal model of gastric mucosa injury, and MPTP was intraperitoneally injected for 13 weeks, while tree shrews were not injected as the control group. Under the light microscope, local congestion or diffuse bleeding points of gastric mucosa and multiple redness and swelling bleeding symptoms on the inner wall were observed in the treatment group, as well as immune cell infiltration was found in HE staining, but no such phenomenon was observed in the control group. In order to explore the molecular basis of changes in MPTP induced gastric mucosa injury, the transcriptome and proteome data of gastric mucosa were analyzed. We observed significant differences in mRNA and protein expression levels under the influence of MPTP. The changes in mRNA and proteins are related to increased immune infiltration, cellular processes and angiogenesis. More differentially expressed genes play a role in immune function, especially the candidate genes RPL4 and ANXA1 with significant signal and core role. There are also differentially expressed genes that play a role in mucosal injury and shedding, especially candidate genes GAST and DDC with certain signaling and corresponding functions. Understanding the factors and molecular basis that affect the expression of related genes is crucial for coping with Emotionality gastric mucosa injury disease and developing new treatment methods to establish the ability to resist disease.

Project description:As BiP is involved in the ARDS mechanism of disease, we analyzed the proteomic profile of lung tissue challenged with LPS and/or treated with 4-PBA to identify pathways and components that link BiP and cellular stress with the hyperinflammatory response.

Project description:We made LPS induced ARDS model mice, and determined the effect of recombinant anti-thrombin against ARDS.

Project description:We made LPS induced ARDS model mice, and determined the effect of recombinant human thrombomodulin against ARDS.

Project description:We conducted micro-array analysis to quantify the global transcriptome variations in floral organs of a male and female tree allowing for identification of sex-linked transcripts. We used RNA samples from male floral buds in August and female floral buds in September. Bud scale were removed. While the sampling time differed, the developmental stage of the floral organs was similar between the male and female. Five independent samples of floral bud tissues with bud scales removes were collected from the upper crown of a sexually mature male tree and female tree. RNA was extracted from tissues and hybridized on Affymetrix Genechip Poplar Genome Array.

Project description:In order elucidate the key signaling pathways in choroidal neovascularization, we induced choroidal angiogenesis by laser photocoagulation in 12 tree shrews and obtained mRNA profiles of their choroids and retinas by high-throughput transcriptome sequencing. Gene ontology(GO) and kyoto encyclopedia of genes and genomes(KEGG) enrichment analysis, hierarchical cluster analysis, weighted gene co-expression network analysis, protein-protein interaction (PPI) network analysis, and reverse transcription quantitative PCR (RT-qPCR) were performed.

Project description:Upon lipopolysaccharide (LPS) or interleukin-4 stimulation to trigger M1 or M2 polarized states respectively, label-free quantitative mass spectrometry (LFQ-MS) revealed novel state-specific proteomic profiles of microglia-derived exosomes.

Project description:Huanglongbing (HLB) is a worldwide devastating disease of citrus. There are no effective control measures for this newly emerging but century-old disease. Previously, we reported a combination of Penicillin G and Streptomycin was effective in eliminating or suppressing the associated bacterium, M-bM-^@M-^XCandidatus Liberibacter asiaticusM-bM-^@M-^Y (Las). Here we report the bacterial composition and community structure in HLB-affected citrus plants during a growing season and while being treated with antibiotic combinations PS (Penicillin G and Streptomycin) and KO (Kasugamycin and Oxytetracycline) using the PhylochipM-bM-^DM-" G3 array. The antibiotic treatments were conducted on the randomized complete block design with four replicates. For each replicate, five HLB-affected, 7-year-old citrus trees (a unique hybrid, 10c-5-58, which is an open-pollinated seedling from the combination of Lee mandarin M-CM-^W Orlando tangelo) at the USHRL farm, 10 cm in diameter, were injected with either 100 ml of the antibiotic combination treatment PS (5 g of penicillin G potassium + 0.5 g of Streptomycin per tree) or the antibiotic treatment KO (2 g of oxytetracycline + 1.0 g of kasugamycin per tree). Five trees were injected with water as injection controls (CK). Injections were made using an Avo-Ject syringe injector (a catheter-tipped 60 ml syringe; Aongatete Coolstores Ltd., NZ) beginning in August of 2010. The tapered tip was firmly fitted into a 19/64-in (7.5 mm) diameter hole, M-bM-^IM-^H3 cm deep, drilled into the tree. The injector was kept in the tree and the treatment lasted for one week in each injection-trunk. Treatments were repeated every 2 months for one year and ceased in August of 2011. Before and during treatment more than 30 leaf samples per tree were taken from different positions around the tree canopies for qPCR assays at 2 month intervals.DNA for the PhyloChipM-bM-^DM-" G3 analysis, which was extracted from 20 samples of the same treatment, was pooled in equal amounts and quantified by the PicoGreenM-BM-. method. The PhyloChipTM G3 analysis was conducted by Second Genome Inc. (San Francisco, CA).

Project description:Tissue from cleared mammary fat pad and sham-operated controlateral control was removed before and at 10, 15,17, and 19 days of pregnancy. Cleared vs. controlateral tissue was hybridized in dye-swap design to in-house cDNA microarry platform. This design aims to identify factors signaling from the epithelial part of the mammary gland to the surrounding fat pad to initiate adipo-epithelial transdifferentiation. We surgically removed the epithelial part of the 4th mammary gland (including the nipple and the rudimentary ductal tree) in three weeks old CD1 mice where the ductal anlage is confined to the proximal part of the mammary fat pad close to the nipple. The controlateral gland was sham-operated as control. This leaves a cleared mammary fat pad in its endogenous environment. The dissected tissues were subjected to whole mount analysis to judge if the removal of epithelial tissue was complete. At the age of 10 to 15 weeks the tissues were harvested before and 10, 15, 17, and 19 days after the start of pregnancy. RNA from cleared fat pads were compared to sham-operated contralateral controls by competitive hybridization on two-channel microarrays. If enough material was available three different pools of RNA (= three biological replicates) were used for hybridization (from d19 material only two replicates were obtained) in a dye-swap configuraiton (one biological replicate of d17 and d19 samples did not provide sufficient amount for a dyw-swap pair).

Project description:Gene expression analysis of BALB/c mouse lung tissue following LPS, high pressure ventilation and LPS+high pressure ventilation treatment Keywords: VILI, gene expression profiling, ARDS