Project description:Saccharibacteria (TM7) are obligate epibionts living on the surface of their host bacteria, and strongly correlated with dysbiotic microbiomes during periodontitis and other inflammatory diseases, suggesting they are putative pathogens. However, due to the recalcitrance of TM7 cultivation, no causal research has been conducted to investigate their role in inflammatory diseases. Here, we isolated multiple TM7 species on their host bacteria from periodontitis patients. These TM7 species reduced inflammation and consequential bone loss by modulating their host bacterial pathogenicity in mouse ligature-induced periodontitis model. Two host bacterial functions involved in collagen binding and utilization of eukaryotic sialic acid were identified as required for inducing bone loss and altered by TM7 association. This down-regulation of host bacterial pathogenicity by TM7 was shown for multiple TM7/host bacteria pairs, suggesting that, in contrast to their suspected pathogenic role, TM7 could protect mammalian hosts from inflammatory damage induced by their host bacteria.

Project description:Proteins have been extracted from kidney calculi with SDS buffer. Proteins were seperated by 1D-SDS-PAGE and stained with coomassie. Each gel lane was cut into 5 (or 6) pieces. Proteins were digested in gel with trypsin. Tryptic peptides were analysed by nanoLC-MS/MS on an ion trap instrument (6340 Ion Trap, Agilent) with CID. Peak lists were generated with Mascot Distiller, and database searching was performed with Mascot. The data from 5 (or 6) LC-MS/MS runs from one patient ware merged into one mgf file, which was searched against IPI (human) database.

Project description:Patients with major depressive disorder (MDD) have a high relapse rate and first prescribed selective serotonin reuptake inhibitors (SSRIs). The selection process of an antidepressant agent is primarily guided by trial and error. If patients do not benefit from the initial course of antidepressant medication for at least 4-6 weeks, additional therapeutic strategies are required to gain remission, including switching within and between classes of antidepressants. In order to discovery SSRI-related plasma protein markers, we designed a retrospective study. In this study, four longitudinal plasma samples were collected from 10 patients during the 10-week drug reaction period after being diagnosed with depression, and more than a thousand plasma proteins were identified by highly sensitive nanoflow liquid chromatography-tandem mass spectrometry (LC−MS/MS).

Project description:Ovarian cancer (OC) is the most lethal gynecologic malignancy, attributed by late diagnosis. Genetic alteration of BRCA1/2 was well known risk factors in people who does not occur ovarian cancer. There is a need for convenient and continuous diagnosis of ovarian cancer after genetic testing, and we intend to apply a blood biomarker-based liquid biopsy. In a retrospective study, 20 OC patients and 20 normal controls were used for plasma samples, and BRCA1/2 carriers accounted for half in each group. We applied the bottom-up proteomics approach to depleted plasma samples with a nano-flow LC-MS and analyzed protein data quantitatively.

Project description:The purpose of this study is to find candidate biomarkers by analyzing metabolites and proteins with differential amounts in 10 ovarian cancer patient plasmas and 10 healthy female plasmas. Only MS files for plasma proteins are uploaded here. The metabolite quants were obtained using Biocrates AbsolutedIDQ p400, and MS data was not uploaded but only the quantitative value table was uploaded.

Project description:To identify differentially expressed genes in Boris KO testis, gene expression profilings were performed with NIAID mouse customized arrays. Gene expressions of five biological replicates of Boris KO testis were compared to those of wild type testis. Total RNAs from WT and BORIS KO testes prepared from P14 mice were labelled with Cy5 and Cy3, respectively. Five sets of each genotype were studied.

Project description:The function of the non-virion protein (NV) of the Viral hemorrhagic septicemia virus (VHSV) has been long questioned but it still remains unknown. We report here the differences in gene expression profiles of trouts infected with deleted NV VHSV or wild type VHSV so that it could shed some light on the issue. Eight fingerlings of rainbow trout were used for the experiment. Four of them were injected with deleted NV VHSV and the rest were injected with wild type VHSV as a control. Head kidney and spleen of each trout were collected 2 days post-injection and total RNA was extracted.

Project description:We are currently studying the mechanisms that confer tumour initiating potential upon SP, and as part of this work, we undertook gene profiling studies comparing expression between SP and non-SP cells, initially focusing on the most common soft tissue sarcoma, malignant fibrous histiocytoma (or MFH) Sarcomas contain a subpopulation of cells which exclude Hoechst dye (SP cells) and are enriched for tumor initiating potential. The persistence of SP cells could be responsible for relapse or a failed response to therapy. Expression profiles were compared between the SP and non-SP cells from malignant fibrous histiocytoma (MFH) tumors using microarray. The Hedgehog and Notch pathways were activated in SP cells. Blocking these pathways in MFH xenografts established in NOD-SCID mice depleted the abundance of SP cells and reduced tumor growth. Intriguingly, treatment also substantially inhibited the potential for successful secondary transplantation. The data provides support that SP cells act as tumor initiating cells in sarcomas and suggests targeting the SP as an enticing approach for sarcoma therapy. In this study, we studied six MFH tumours, and identified a number of signaling pathways that were consistently activated in the SP population compared to the non-SP population.

Project description:The clinical management of locally advanced oesophageal adenocarcinoma (OAC) commonly involves neoadjuvant chemoradiotherapy (CRT), but complete pathological response to CRT only occurs in 20-30% of patients, as radioresistance remains a major clinical challenge. In this study we used an established isogenic cell line model of radioresistant OAC to detect proteomic signatures of radioresistance in order to identify novel potential molecular and cellular targets of radioresistance in OAC. Intracellular proteins obtained from radiosensitive (OE33P) and radioresistant (OE33R) cells were subjected to LC-MS/MS analysis. We identified 5785 proteins of which 251 were significantly modulated in OE33R cells, when compared to OE33P. Gene ontology and pathway analysis of the significantly modulated proteins demonstrated altered metabolism in radioresistant cells accompanied by an inhibition of apoptosis in OE33R cells. In addition, radioresistant cells were predicted to have an activation of inflammatory and angiogenic pathways when compared to the radiosensitive cells. For the first time, we performed a comprehensive proteomic profiling of our established isogenic cell line model of radioresistant OAC, providing insights into the molecular and cellular pathways which regulates radioresistance in OAC, and we provided pathway specific signatures of radioresistance that will aid further studies on the development of targeted therapies and personalised approaches to radiotherapy, with the ultimate goal of improving response to radiotherapy in cancer patients.

Project description:Protein complexes are responsible for the bulk of activities within the cell, but how their behavior and abundance varies across tumors remains poorly understood. By combining proteomic profiles of breast tumors with a large-scale protein-protein interaction network, we have identified a set of 285 high-confidence protein complexes whose subunits have highly correlated protein abundance across tumor samples. We used this set to identify complexes that are reproducibly under- or over-expressed in specific breast cancer subtypes. We found that mutation or deletion of one subunit of a co-regulated complex was often associated with a collateral reduction in protein expression of additional complex members. This collateral loss phenomenon was typically evident from proteomic, but not transcriptomic, profiles suggesting post- transcriptional control. Mutation of the tumor suppressor E-cadherin (CDH1) was associated with a collateral loss of members of the adherens junction complex, an effect we validated using an engineered model of E-cadherin loss.