Project description:Characterization and Functional Analyses of Hepatic Mesothelial Cells in Mouse Liver Development. We used microarrays to detail the global programme of gene expression in mesothelial cells during mouse liver development. Mouse liver mesothelial cells were selected by a cell sorter at E12.5 and adult for RNA extraction and hybridization on Affymetrix microarrays. We obtained PCLP1+ cells and Mesothelin+ cells at each developmental stage in order to analyze expression profiles of mesothelial cells.

Project description:RNA-sequencing analysis was carried out on ascetic fluid-isolated mesothelial cells from ovarian cancer patients compared to control human peritoneal mesothelial cells to identify a mesothelial-mesenchymal gene signature.

Project description:Malignant mesothelioma is an aggressive tumour arising from the mesothelial cells lining the pleura, peritoneum or pericardium. The principal carcinogen associated with malignant mesothelioma is asbestos . A transgenic mouse model, denoted MexTAg, which encodes the Simian Virus 40 (SV40) large T antigen (TAg) downstream of the mesothelin promoter was developed. Inactivation of the tumour suppressors p53 and RB following binding to TAg results. In this model mesothelioma develops in the mesothelial cell compartment after the mice have been exposed to asbestos. The MexTAg transgenic mouse model of mesothelioma model enables analysis of the molecular events associated with asbestos induced mesothelioma and is utilised here to investigate the molecular dynamics of tumours induced in these mice, using gene expression patterns as a read out.

Project description:Mesothelin is a differentiation antigen expressed at high levels on the surface of many cancers; its interaction with cancer antigen CA-125 can lead to metastasis. Mesothelin has been the subject of intensive investigations as a potential cancer antigen for immunotherapy. Structures of a fragment of mesothelin, full-length mesothelin alone and in complex with the Fab fragment of the therapeutic antibody MORAb-009, as well as a complex of its C-terminal fragment containing the majority of the identified shedding sites, or the shedding-resistant fragment, with monoclonal antibody 15B6 were obtained. The glycosylation profile of mesothelin purified from A431/H9 cells and patient ascites were obtained by glycoproteomics

Project description:To characterize the mesothelial cell-mediated changes of gene expression in ovarian cancer cells, we performed RNA sequencing in OVCAR8 cells with and without mesothelial cell co-culture.

Project description:Tumor metastasis commonly affects pleura in advanced lung cancer and is related to poor prognosis, but without systematic investigation on different cell types and their crosstalk at single cell resolution. Here, by integrating 180785 single cells from lung cancer and control samples, the most distinctive transcriptome profiles between tumor and control were revealed in mesothelial cells, which is the predominate cell type of pleura. Four subtypes were divided, including one predominately identified in malignant pleural effusion which was characterized by enriched cancer related pathways (e.g., cell migration) along evolutionary trajectory from normal mesothelial cells. Cancer-associated mesothelial cells exhibited varied interactions with different subtypes of malignant epithelial cells, and multiple ligands/receptors exhibited significant correlation with poor prognosis. Experimentally, mesothelial cells can increase the migration ability of lung cancer cells through co-culturing assay, and EGFR was the only affected gene in cancer cells that exhibited interaction with mesothelial cells and was associated with poor prognosis. Using EGFR antagonist cetuximab prevented the increased invasiveness of lung cancer cells induced by mesothelial cells. Moreover, EPGN-EGFR interaction was supported through spatial distribution analysis, revealing the significant proximity between EPGN+ mesothelial cells and EGFR+ epithelial cells. Our findings highlighted the important role of mesothelial cells and their interactions with cancer cells in pleural metastasis of lung cancer, which may facilitate cancer progression.

Project description:Ovarian Cancer preferentially metastasizes in association with mesothelial cell-lined surfaces.We sought to determine if mesothelial cells are required for OvCa metastasis and detect alterations in mesothelial cell gene expression upon interaction with OvCa cells. To evaluate the OvCa-induced transcriptome changes in mesothelial cells, primary human mesothelial cells from 10 patients were treated with OvCa conditioned media or ascites and RNAseq analysis was performed.

Project description:RNA-sequencing analysis was carried out on ascitic fluid-isolated mesothelial cells from ovarian cancer patients compared to control human peritoneal mesothelial cells.

Project description:Asbestos-associated diseases remain a social burden worldwide. Our previous studies identified asbestos-induced iron-rich milieu for mesothelial cells with ceaseless macrophage ferroptosis. However, molecular mechanisms how this mutagenic milieu influences mesothelial cells have not been elucidated yet. Here, we propose a novel mechanism that extracellular vesicles (EVs) mediate asbestos-associated mutagenic factors to mesothelial cells. In a mice model of intraperitoneal crocidolite injection, mutagenic milieu highly expressed CD63, an exosomal marker. We then used a CD63-GFP labeled THP-1 macrophage model exposed to crocidolite/iron, which generated EVs under ferroptotic process. We observed that MeT-5A mesothelial cells can receive and internalize these EVs. Furthermore, we comprehensively analyzed the ferroptosis-dependent EVs (FedEVs) for transported proteins and identified ferritin heavy/light chains as major proteins. Therefore, we inferred that FedEVs transport iron from ferroptotic macrophages to mesothelial cells. RNA sequencing revealed that the mesothelial cells receiving higher amounts of the FedEVs were mitotic, especially at the S and G2/M phases, by the use of Fucci mesothelial cells. Nuclear 8-hydroxy-2`-deoxyguanosine and γ-H2AX were significantly increased in the recipient mesothelial cells after exposure to FedEVs. Collectively, we here demonstrate a novel mechanism that FedEVs act as a key mutagenic mediator by transporting iron, which contribute to asbestos-induced mesothelial carcinogenesis.

Project description:Local factors produced in the tissue microenvironment play essential roles in promoting the ontogeny and phenotype of tissue resident macrophages (TRM). In the peritoneal cavity, large peritoneal macrophages (LPM) are the dominant TRMs that functionally mediate type 2 immunity, facilitate tissue repair of the mesothelium, and protect against peritoneal fibrosis. It is established that retinoic acid derived from the omentum induces transcription factor Gata6 expression in LPMs, which in turn regulates gene expression of factors that define peritoneal macrophages. It is still unclear whether retinoic acid is the sole local factor that regulates Gata6 expression in LPMs. Mesothelial cells line the entire peritoneal cavity and produce a protective, non-adhesive barrier against injury, at least in part by recruiting immune cells with secreted cytokines, such as M-CSF. We hypothesized that secreted factors from peritoneal mesothelial cells are also responsible for regulating LPM development including both ontogeny and function. Due to their immediate proximity to the peritoneal cavity, we propose that mesothelial cells can produce and secrete proteins into the peritoneum to maintain Gata6 expression by LPMs. To identify secreted factors that are highly and specifically expressed in mesothelial cells, we harvested primary mesothelial cells from 10-week-old C57BL/6 mice using FACS selection (CD45- PDPN+ GPM6a+). Total RNA was isolated from these cells and subjected to RNA-seq analysis after depletion of ribosomal RNA.