Project description:Defects in cell-cell contacts participate in early steps of tumor metastasis, but the mechanism regulating the staying-at-home or leaving decision has not been molecularly defined. We found the adherens junction gene NECTIN1 deleted in 55% of human melanomas. Inactivation of NECTIN1 stimulated cancer cell spreading in zebrafish melanomas in vivo, and increased cell migration in human cell lines specifically in response to decreased IGF1 signaling. IGF1 inhibition induced robust formation of adherens junctions between NECTIN1-wildtype melanoma cells, while NECTIN1-deficient cells were unable to establish these junctions and instead activated integrin/FAK-mediated motility. In 20 human melanoma biopsies, adherens junctions were seen exclusively in areas with low IGF1 levels, but not in NECTIN1-deficient tumors. Our study uncovers a mechanism by which the status of cell-cell contacts modulates the cellular response to microenvironmental signals, effecting a decision switch between leaving and staying in the cancer cell niche.

Project description:NECTIN1 controls an IGF1-dependent adhesion switch in melanoma spreading

Project description:Intravasation, vascular dissemination and metastasis of malignant tumor cells require their passage over the vascular wall which is commonly composed of pericytes (mural cells) and the endothelial cell barrier. We currently decided to investigate the relative contribution of these cell types for B16F10 melanoma metastasis in mice using an experimental model of Shb gene inactivation. RNAseq of tumor endothelial cells from these mice revealed changes in cellular components such as adherens junctions and focal adhesions by gene ontology analysis that were in line with the observed effects on leakage and junction morphology.

Project description:Frequent loss of adhesion gene NECTIN1 triggers melanoma dissemination upon local IGF1 depletion

Project description:Here we report the characterization of a novel role for the retinoblastoma protein (pRb) as a regulator of osteoblast adhesion. Abrogation of pRb in osteoblasts resulted in aberrant cadherin expression and loss of adherens junctions. This produced defects suggestive of a transformed phenotype such as impaired cell-to-cell adhesion, loss of contact-dependent growth arrest, and the capacity to evade anoikis. This also resulted in profound abnormalities in bone structure. Consistent with this, microarray analyses showed that pRb regulates a wide repertoire of osteoblast cell adhesion genes. In addition, pRb loss also resulted in altered expression and function of several known regulators of cellular adhesion and adherens junction assembly, such as the Rho GTPase Rac1 and the merlin tumor suppressor. Taken together, our results show that pRb controls cell adhesion by regulating the expression and adherens junction components and by regulating the function of molecules involved in adherens junction assembly and stability. Microarray results helped us to portrait the overall influence on cell adhesion via both individual genes and pathway analysis. Experiment Overall Design: MC3T3 cells were obtained from immortalizing primary cultured mouse osteoblast cells by using 3T3 protocol. There are 3 biological replicates for each group, 6 samples in total were analyzed.

Project description:Here we report the characterization of a novel role for the retinoblastoma protein (pRb) as a regulator of osteoblast adhesion. Abrogation of pRb in osteoblasts resulted in aberrant cadherin expression and loss of adherens junctions. This produced defects suggestive of a transformed phenotype such as impaired cell-to-cell adhesion, loss of contact-dependent growth arrest, and the capacity to evade anoikis. This also resulted in profound abnormalities in bone structure. Consistent with this, microarray analyses showed that pRb regulates a wide repertoire of osteoblast cell adhesion genes. In addition, pRb loss also resulted in altered expression and function of several known regulators of cellular adhesion and adherens junction assembly, such as the Rho GTPase Rac1 and the merlin tumor suppressor. Taken together, our results show that pRb controls cell adhesion by regulating the expression and adherens junction components and by regulating the function of molecules involved in adherens junction assembly and stability. Microarray results helped us to portrait the overall influence on cell adhesion via both individual genes and pathway analysis.

Project description:A substantial part of cutaneous malignant melanomas develops from benign nevi. However, the precise molecular events driving the transformation from benign to malignant melanoma are not well understood. We used laser microdissection and mass spectrometry to analyze the proteomes of melanoma subtypes, including superficial spreading melanomas (SSM, n=17), nodular melanomas (NM, n=17), and acral melanomas (AM, n=15). Furthermore, we compared the proteomes of nevi cells and melanoma cells within the same specimens (nevus-associated melanoma (NAM, n=14)). In total, we quantified 7,935 proteins. Despite the genomic and clinical differences of the melanoma subtypes, our analysis revealed relatively similar proteomes, except for the upregulation of proteins involved in immune activation in NM vs AM. Examining NAM versus nevi, we found 1,725 differentially expressed proteins. Among these proteins were 140 that overlapped with cancer hallmarks, tumor suppressors, and regulators of metabolism and cell cycle. Pathway analysis indicated aberrant activation of the RAS/MAPK and PI3K-AKT-mTOR pathways, as well as the Hippo-YAP pathway. Using a classifier, we identified six proteins capable of distinguishing melanoma from nevi samples. Our study represents the first comprehensive comparative analysis of the proteome in melanoma subtypes and associated nevi, offering new insights into the biological behavior of these distinct entities.

Project description:In a prospective clinical study, we show that increased serum IGF1 levels in a patient may be a predictive marker of melanoma escape to therapies targeting MAPK pathway (BRAFi/MEKi). In addition, our in vitro and in vivo studies suggest that the response of targeted therapies-resistant melanoma cells to IGF1R inhibitor appears to correlate with the level of IGF1 secretion. Overall, our results suggest that monitoring serum IGF1 levels would individually identify melanoma patients who escape BRAFi/MEKi treatment and may benefit from a combination of targeted therapies and IGF1 signaling inhibition to overcome resistance.

Project description:We have identified PLEKHA7 as a cell-cell adhesion protein that interacts with and regulates RNAi compelxes, miRNAs and mRNAs at adherens junctions of well-differentiated epithelial cells. This study was conducted to identify global effects of PLEKHA7 depletion on total RNA expression in colon epithelial cells

Project description:Frequent loss of adhesion gene NECTIN1 triggers melanoma dissemination upon local IGF1 depletion [RNA-Seq]