Project description:Our objective was to identify the potential autoantibody markers in meningiomas using high-density human proteome arrays (~17,000 full-length recombinant human proteins). This study revealed the dysregulation of 489 and 104 proteins in grades I and II of meningioma, respectively, along with the enrichment of signalling pathways which play a major role in the manifestation of the disease. This study revealed the dysregulation of 489 and 104 proteins in grades I and II of meningioma, respectively, along with the enrichment of signalling pathways which play a major role in the manifestation of the disease. Autoantibody targets like IGHG4, CRYM, EFCAB2, STAT6, HDAC7A and CCNB1 were dysregulated across both grades.

Project description:TaqMan low density array (TLDA) was carried out to screen of the profiles of circulating miRNAs in pooled serum samples from healthy controls and pre-operative meningioma patients. The expression changes of circulating miRNAs in meningioma patients were identified.

Project description:MADSCAN evaluation using heart disease patients

Project description:Multiple stereotatically separate sites from human meningioma were processed for methlyation profiling Meningiomas are the most common primary intracranial tumors, but the molecular drivers of meningioma tumorigenesis are poorly understood. We hypothesized that investigating intratumor heterogeneity in meningiomas would elucidate biologic drivers and reveal new targets for molecular therapy. To test this hypothesis, we performed multiplatform molecular profiling of 86 spatially-distinct samples from 13 human meningiomas. Our data reveal that regional alterations in chromosome structure underlie clonal transcriptomic, epigenomic, and histopathologic signatures in meningioma. Stereotactic co-registration of sample coordinates to preoperative magnetic resonance images further demonstrated that high apparent diffusion coefficient (ADC) distinguished meningioma regions with proliferating cells enriched for developmental gene expression programs. To understand the function of these genes in meningioma, we developed a human cerebral organoid model of meningioma and validated the high ADC marker genes CDH2 and PTPRZ1 as potential targets for meningioma therapy using live imaging, single cell RNA sequencing, CRISPR interference, and pharmacology.

Project description:CDI HuProt™ (Human Proteome Microarray), was used to study Pituitary Adenomas PAs (Acromegaly, Cushing's and NFPA) using serum samples, from around 14 individuals (4 Healthy control, 4 Acromegaly, 3 Cushing’s and 3 NFPAs patient samples) were used study their autoantibody profiles. Patient serum samples in dilution 1:500 ratio were used for primary incubation. Secondary incubation was performed with anti-human IgG conjugated with Cy5 (Jackson Immuno Research, catalogue number 109-175-064) in 1:5000 dilutions was used. This CDI HuProt™ array was scanned with GenePix 4000B Microarray Scanner (Molecular Devices), with a PMT gain of 500, Scan Power 100 and Laser power of 1.31.

Project description:Human meningioma culture

Project description:Meningiomas are the most common primary brain tumors, where complete surgical resection is often challenging giving rise to recurrence. Mutations of the E3 ubiquitin ligase TRAF7 are found in one-fourth of meningioma patients and typically co-occur with mutations in either KLF4, AKT1, or PI3KCA. By creating an in vitro meningioma model derived from primary meningeal cells, we elucidated the cooperative interactions that conspire meningioma development. A multi-omics framework on meningeal cells revealed TRAF7-mediated rewiring of the proteome with the majority of protein expression being post‐transcriptionally‐regulated. Integrating TRAF7-driven ubiquitinome and proteome alterations and TRAF7 interactome highlight the role of TRAF7 in posttranslational regulation of the cytoskeleton organization. TRAF7 controls actin dynamics by acting as a proteostatic regulator of the RAS-related small GTPases. TRAF7 loss-of-function diminishes ubiquitination of RAS and CDC42, leading to the activation of the PAK and MAPK signaling pathways. Up-regulation of CDC42 signaling promotes anchorage-independent growth of meningeal cells. On the other hand, the RAS/MAPK pathway triggers the tumor suppressive activity of KLF4 that inhibits meningeal cell growth due to the activation of the Semaphorin pathway. Simultaneous loss of KLF4 and TRAF7 function enhances tumorigenic transformation of meningeal cells, functionally confirming their roles in meningioma development.

Project description:Purpose: In this study, we try to investigate the possible signaling pathways involved in the tumorigenesis of fibroblastic and anaplastic meningiomas. We also attempt to investigate EGFL6 gene expression in brain arachnoidal tissues and various tumors and to measure EGFL6 levels in serum samples from healthy people and patients with various tumors by using ELISA. Experimental Design: Differential gene expression profiles between meningiomas and brain arachnoidal tissues were established by using Affymetrix GeneChip Human U133 Plus 2.0 Array. KEGG pathway analysis was performed to identify potential gene pathways that may be involved in the pathogenesis of meningiomas. Quantitative real-time PCR (qRT-PCR) was performed to validate the differentially expressed genes in the KEGG pathways. EGFL6 mRNA levels were also determined in brain arachnoidal tissues, meningiomas, and other tumors by qRT-PCR. EGFL6 levels were measured in serum samples from healthy people and patients with various tumors by using ELISA. Results: Fibroblastic meningioma exhibited upregulated PI3K/Akt and TGFβ signaling pathways, and accelerated G1/S progression cell cycle. KEGG analysis also demonstrated that focal adhesion and ECM-receptor interaction pathways were activated in anaplastic meningioma. Benign meningiomas had significantly higher levels of EGFL6 mRNA than brain arachnoidal tissues and atypical and anaplastic meningiomas (P<0.001). EGFL6 gene was also highly expressed in ovarian cancer, but expressed lowly in all other investigated tumors. EGFL6 was hardly detectable in serum samples of healthy people. The mean serum EGFL6 concentration was 675, 118, and 126 pg/ml in patients with benign, atypical, and anaplastic meningiomas respectively. Patients with ovarian cancers also had high serum EGFL6 levels (mean concentration: 617 pg/ml). Patients with all other investigated tumors, however, had low levels of serum EGFL6 with mean concentration less than 240 pg/ml. Conclusion: We proposed that deregulation of cell cycle and PI3K/Akt pathways might play important roles in the tumorigenesis of fibroblastic meningioma. It was also suggested that the activated integrin-mediated signaling pathways were involved in the pathogenesis of anaplastic meningioma. We presented evidence that EGFL6 might serve as a novel serum biomarker for benign meningioma and ovarian cancer. It was also suggested that EGFL6 could help discriminate benignancy or malignancy of meningiomas before surgery or at early time points. Differential gene expression profiles between meningiomas and brain arachnoidal tissues were established by using Affymetrix GeneChip Human U133 Plus 2.0 Array. KEGG pathway analysis was performed to identify potential gene pathways that may be involved in the pathogenesis of meningiomas. Quantitative real-time PCR (qRT-PCR) was performed to validate the differentially expressed genes in the KEGG pathways. EGFL6 mRNA levels were also determined in brain arachnoidal tissues, meningiomas, and other tumors by qRT-PCR. EGFL6 levels were measured in serum samples from healthy people and patients with various tumors by using ELISA.

Project description:Variability of meningioma growth, even within benign subgroup, makes some remain unaltered, while others grow fast despite an appended radiotherapy. Biomarkers that differentiate between less and more aggressive meningiomas would therefore have a significant clinical benefit in prediction of their biological behaviour. The aim of the study was to identify new candidate miRNAs enabling better and proper prediction of meningioma recurrence. We used miRNA 4.0 array (Applied Biosystems, Foster City, CA, USA) to detect miRNA profiles in 44 primary meningioma patients (19 with subsequent recurrence) and 5 healthy controls. Moreover, miRNA profiles were analyzed in 15 secondary meningiomas.

Project description:Primary outcome(s): Evaluation of CTCs in the peripheral blood using the CellSearch System and the microcavity array