Project description:In this study, we describe a novel relationship between glioblastoma CSCs and the Notch pathway, which involves the constitutive activation of STAT3 and NF-κB signaling. We demonstrate that adherent glioma CSCs exhibit characteristics previously described for CSCs grown in suspension culture. The expression of CD133, Sox2 and Nestin increased when compared to glioma cells grown in monolayer, and the adherent CSCs were ~100 times more tumorigenic in vivo than monolayer cultured glioma cells. We also found that while the STAT3 and NF-κB signaling pathways are constitutively activated in glioma lines, these pathways are dramatically activated in glioma CSCs. Treatment with STAT3 inhibitors led to a loss of nuclear activation of STAT3 signaling and suppression of growth in both monolayer and CSC conditions. There was a markedly greater growth suppressive effect on glioma CSCs, suggesting that targeted therapy of these key pathways in glioma CSCs may be possible. To further investigate potential biomarkers in glioma CSCs, microarray analysis was performed and revealed deregulation of the Notch signaling pathway. This constitutive activation of STAT3, NF-κB, and Notch pathways in glioma CSCs helps identify novel therapeutic targets for the treatment of glioma. GBM6 cells were continuously maintained as subcutaneous xenografts in NSG mice, and monolayer and CSC cultures were derived from freshly harvested tumor tissue. A total of 6 samples were subjected to microarray analysis, with three biological replicates for each experimental condition.

Project description:In this study, we describe a novel relationship between glioblastoma CSCs and the Notch pathway, which involves the constitutive activation of STAT3 and NF-κB signaling. We demonstrate that adherent glioma CSCs exhibit characteristics previously described for CSCs grown in suspension culture. The expression of CD133, Sox2 and Nestin increased when compared to glioma cells grown in monolayer, and the adherent CSCs were ~100 times more tumorigenic in vivo than monolayer cultured glioma cells. We also found that while the STAT3 and NF-κB signaling pathways are constitutively activated in glioma lines, these pathways are dramatically activated in glioma CSCs. Treatment with STAT3 inhibitors led to a loss of nuclear activation of STAT3 signaling and suppression of growth in both monolayer and CSC conditions. There was a markedly greater growth suppressive effect on glioma CSCs, suggesting that targeted therapy of these key pathways in glioma CSCs may be possible. To further investigate potential biomarkers in glioma CSCs, microarray analysis was performed and revealed deregulation of the Notch signaling pathway. This constitutive activation of STAT3, NF-κB, and Notch pathways in glioma CSCs helps identify novel therapeutic targets for the treatment of glioma.

Project description:Background & Aims: Hepatocellular carcinoma (HCC) is a major health problem. Most patients are diagnosed at advanced stages when the only approved therapy is sorafenib. Consequently, there is an urgent need to develop effective treatments. IGF-signaling is aberrantly activated in HCC, but there is no clear understanding on the molecular drivers and potential therapeutic targets within the pathway. Since IGF2-ligand is overexpressed in HCC, we aimed to elucidate its mechanism of overexpression, assess its oncogenic potential in vitro and in vivo and determine the antitumoral efficacy of molecular therapies against IGF2. Methods: Expression profiling, miRNAs expression and methylation were analyzed in 228 HCCs focusing on IGF2. Stable HCC cell lines with knock-down and ectopic overexpression of IGF2 were generated. A chemically-induced mouse model of HCC, and genetically-engineered mouse models (GEMM) overexpressing IGF2 in the liver were generated to assess IGF2 oncogenicity. The therapeutic potential of the monoclonal antibody against IGF-ligands (IGF1/2-mAb) and its combination with sorafenib was tested in vitro and in a xenograft model. Results: IGF2-overexpression occurred in 15% of HCC patients as a result of the epigenetic reactivation of IGF2-fetal promoters, mainly through loss of promoter methylation. Re-expression of IGF2 was associated with progenitor cell-like and poorly differentiated HCCs, and with poor prognosis (p<0.0001). In the GEMM model, IGF2-overexpression accelerated HCC progression and reduced survival (p=0.02). Conversely, IGF2-blockage using IGF1/2- mAbs delayed tumor growth and increased survival in vivo (p<0.0001), through antiproliferative and antiangiogenic mechanisms. Conclusions: We propose IGF2 as the first actionable epi-driver in HCC, and IGF1/2-mAbs as a potential targeted therapy in a defined subset of HCC patients. Keywords: IGF2, HCC, epidriver, IGF-pathway, monoclonal antibody, BI 836845.

Project description:The cancer stem cells (CSCs) have important therapeutic implications for multi-resistant cancers including hepatocellular carcinoma (HCC). Among the key pathways frequently activated in liver CSCs is NF-kB signaling. Here we evaluated the CSCs-depleting potential of NF-kB inhibition in liver cancer achieved by IKK inhibitor curcumin and specific peptide SN50 . The effects on CSCs were assessed by analysis of Side Population (SP) and expression levels of CSC-related genes as determined by RT-qPCR, gene expression microarray, EMSA, and Western blotting. Curcumin caused anti-proliferative and pro-apoptotic responses directly related to the extent of NF-kB inhibition. In curcumin-sensitive tumor cells, the treatment led to a selective CSC depletion as evidenced by a reduced SP size, decreased sphere formation, down-regulation of CSC markers and suppressed tumorigenicity. Similarly, NF-kB inhibition by SN50 caused a general suppression of cell growth accompanied by a reduced SP fraction. In contrast, curcumin-resistant cells exhibited a paradoxical increase in proliferation and expression of CSC markers. Mechanistically, CSC-depleting activity of curcumin was exerted by the NF-kB-mediated HDAC inhibition causing down-regulation of c-MYC and other key oncogenic targets. Co-administration of the class I/II HDAC inhibitor trichostatine sensitized resistant cells to curcumin. Further, integration of a predictive signature of curcumin sensitity with our HCC database indicated that HCC patients with poor prognosis and progenitor features are most likely to benefit from NF-kB inhibition. These results demonstrate that NF-kB inhibition can specifically target CSC populations and suggest a potential for combined inhibition of NF-kB and HDAC signaling for treatment of liver cancer patients with poor prognosis. Five human hepatoma cell lines with and without curcumin

Project description:In the current study, we delineate the molecular mechanisms of acquisition of resistance to two isoform-selective inhibitors of PI3K (isiPI3K), alpelisib and taselisib, in human papillomavirus positive head and neck cell lines. By comparing RNA sequencing of isiPI3K-sensitive tumor cells and their corresponding isiPI3K-acquired-resistant tumor cells, we found that overexpression of insulin growth factor 2 (IGF2) is associated with the resistance phenotype. We further demonstrated by gain and loss of function studies that IGF2 plays a causative role in limiting the sensitivity of human papillomavirus-positive head and neck cell lines. Moreover, we show that blocking IGF2 stimulation activity, using an inhibitor of the IGF1 receptor (IGF1R), enhances isiPI3K efficacy and displays a synergistic anti-tumor effect in vitro and superior anti-tumor activity ex vivo and in vivo.

Project description:The cancer stem cells (CSCs) have important therapeutic implications for multi-resistant cancers including hepatocellular carcinoma (HCC). Among the key pathways frequently activated in liver CSCs is NF-kB signaling. Here we evaluated the CSCs-depleting potential of NF-kB inhibition in liver cancer achieved by IKK inhibitor curcumin and specific peptide SN50 . The effects on CSCs were assessed by analysis of Side Population (SP) and expression levels of CSC-related genes as determined by RT-qPCR, gene expression microarray, EMSA, and Western blotting. Curcumin caused anti-proliferative and pro-apoptotic responses directly related to the extent of NF-kB inhibition. In curcumin-sensitive tumor cells, the treatment led to a selective CSC depletion as evidenced by a reduced SP size, decreased sphere formation, down-regulation of CSC markers and suppressed tumorigenicity. Similarly, NF-kB inhibition by SN50 caused a general suppression of cell growth accompanied by a reduced SP fraction. In contrast, curcumin-resistant cells exhibited a paradoxical increase in proliferation and expression of CSC markers. Mechanistically, CSC-depleting activity of curcumin was exerted by the NF-kB-mediated HDAC inhibition causing down-regulation of c-MYC and other key oncogenic targets. Co-administration of the class I/II HDAC inhibitor trichostatine sensitized resistant cells to curcumin. Further, integration of a predictive signature of curcumin sensitity with our HCC database indicated that HCC patients with poor prognosis and progenitor features are most likely to benefit from NF-kB inhibition. These results demonstrate that NF-kB inhibition can specifically target CSC populations and suggest a potential for combined inhibition of NF-kB and HDAC signaling for treatment of liver cancer patients with poor prognosis.

Project description:Most studies of cancer stem cells (CSC) involve the inoculation of cells from human tumors into immunosuppressed mice, preventing an assessment on the immunologic interactions and effects of CSCs. In this study, the investigators examined the vaccination effects produced by CSC-enriched populations from histologically distinct murine tumors after their inoculation into different syngeneic immunocompetent hosts. Enriched CSCs were immunogenic and more effective as an antigen source than unselected tumor cells in inducing protective antitumor immunity.Immune sera from CSC-vaccinated hosts contained high levels of IgG which bound to CSCs, resulting in CSC lysis in the presence of complement.CTLs generated from peripheral blood mononuclear cells or splenocytes harvested from CSC-vaccinated hosts were capable of killing CSCs in vitro. Mechanistic investigations established that CSC-primed antibodies and T cells were capable of selective targeting CSCs and conferring anti-tumor immunity.

Project description:Chronic kidney disease (CKD) is prevalent in 10% of world’s adult population, with Estimated Glomerular filtration rate (eGFR) and albuminuria employed in diagnosis. Role of protein glycosylation in causal mechanisms of CKD progression is largely unknown. Aim of this study was to identify urinary O-linked glycopeptides in association to CKD for better characterization of CKD molecular manifestations. Urine samples from 2 healthy and 8 CKD subjects were analyzed by CE-MS/MS and glycopeptide analysis using Proteome Discoverer 1.4. Distribution of identi-fied glycopeptides and correlation with Age, eGFR and Albuminuria were evaluated in 3810 da-tasets. In total, 17 O-linked glycopeptides from 7 different proteins were identified, derived primarily from Insulin-like growth factor-II (IGF2). Glycosylation occurred at the surface ex-posed IGF2 Threonine 96 position. Three glycopeptides (DVStPPTVLPDNFPRYPVGKF, DVStPPTVLPDNFPRYPVG and DVStPPTVLPDNFPRYP) exhibited positive correlation with Age. Glycopeptide (tPPTVLPDNFPRYP) showed strong negative association with eGFR. These results suggest that with aging and deteriorating kidney function, alterations in IGF2 proteoforms take place; which may reflect changes in mature IGF2 protein. Our results corroborate this hypothesis as IGF2 increased plasma levels were observed in CKD patients. Protease predictions, consider-ing also available transcriptomics data, suggest activation of cathepsin S with CKD, meriting further investigation.

Project description:We tested whether loss of p53 function leads to insulin-like growth factor 2 (IGF2) pathway dependency in vivo in genetically defined mouse models. Unexpectedly we found lethality, due to post-natal lung haemorrhage, occurred in Igf2 paternal null allele female mice (Igf2-p) but only if derived from double heterozygote fathers (Igf2-p, p53+/-). Consequently we investigated the effects of paternal genotype (wild-type, Igf2-p and Igf2-p, p53+/-) on gene expression. Microarray gene expression profiling of whole mouse embryos (embryonic day 9.5) revealed that lethality was associated with a specific gene signature. Since double heterozygote female offspring (Igf2-p, p53+/-) of Igf2-p, p53+/- fathers did not have the lethality phenotype we identified gene expression changes associated with this 'rescue'. Supplementary information available when browsing all available files.

Project description:We identified an enhancer element near IGF2 locus that is possibly involved with dopamine function and schizophrenia. A knockout mouse was generated for the enhancer element in the IGF2 locus. We then characterized the striatal synaptosomes ( i.e. biological fraction representing pre- post synaptic nerve terminal)by mass spectometry from WT and Igf2 enhancer KO mice.