The fibroblast growth factor 19 gene FGF19 has previously been reported to be amplified in several cancer types and encodes for a key autocrine signaler known to promote tumorigenic growth. Thus, it ...is imperative to understand which cancers are oncogenically addicted to FGF19 amplification as well as the role it serves in these cancer types. We report for the first time high FGF19 amplification in head and neck squamous cell carcinomas (HNSCC), which is associated with increased autocrine secretion of FGF19 and poor patient outcome in HNSCC. FGF19 amplification corresponded with constitutive activation of FGF receptor 4 (FGFR4)-dependent ERK/AKT-p70S6K-S6 signaling activation in HNSCC cells, and addition of human recombinant FGF19 could promote cell proliferation and soft agar colony formation in HNSCC cells with low FGF19 expression through activation of FGFR4 and downstream signaling cascades. In contrast, FGF19 knockout counteracts the observed effects in HNSCC cells carrying high endogenous FGF19, with knockout of FGF19 significantly suppressing tumor growth in an orthotopic mouse model of HNSCC. Collectively, this study demonstrates that FGF19 gene amplification corresponds with an increased dependency upon FGF19/FGFR4 autocrine signaling in HNSCC, revealing a therapeutic target for this cancer type.
BRAF(V600) inhibitors have offered a new gateway for better treatment of metastatic melanoma. However, the overall efficacy of BRAF(V600) inhibitors has been lower than expected in clinical trials, ...and many patients have shown resistance to the drug's effect. We hypothesized that somatic mutations in the Phosphoinositide 3-Kinase (PI3K) pathway, which promotes proliferation and survival, may coincide with BRAF(V600) mutations and contribute to chemotherapeutic resistance.
We performed a somatic mutation profiling study using the 454 FLX pyrosequencing platform in order to identify candidate cancer genes within the MAPK and PI3K pathways of melanoma patients. Somatic mutations of theses candidate cancer genes were then confirmed using Sanger sequencing.
As expected, BRAF(V600) mutations were seen in 51% of the melanomas, whereas NRAS mutations were seen in 19% of the melanomas. However, PI3K pathway mutations, though more heterogeneous, were present in 41% of the melanoma, with PTEN being the highest mutated PI3K gene in melanomas (22%). Interestingly, several novel PI3K pathway mutations were discovered in MTOR, IRS4, PIK3R1, PIK3R4, PIK3R5, and NFKB1. PI3K pathway mutations co-occurred with BRAF(V600) mutations in 17% of the tumors and co-occurred with 9% of NRAS mutant tumors, implying cooperativity between these pathways in terms of melanoma progression.
These novel PI3K pathway somatic mutations could provide alternative survival and proliferative pathways for metastatic melanoma cells. They therefore may be potential chemotherapeutic targets for melanoma patients who exhibit resistance to BRAF(V600) inhibitors.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
The tumor microenvironment induces endoplasmic reticulum (ER) stress in tumor cells, an event that can promote progression, but it is unknown how tumor cells adapt to this stress. In this study, we ...show that the fibroblast growth factor FGF19, a gene frequently amplified in hepatocellular carcinoma (HCC), facilitates a survival response to ER stress. Levels of FGF19 expression were increased in stressed HCC cells in culture and in a mouse xenograft model. Induction of ER stress required the transcription factor ATF4, which directly bound the FGF19 promoter. In cells where ER stress was induced, FGF19 overexpression promoted HCC cell survival and increased resistance to apoptosis, whereas FGF19 silencing counteracted these effects. Mechanistic investigations implicated glycogen synthase kinase-3β (GSK3β) in regulating nuclear accumulation of the stress-regulated transcription factor Nrf2 activated by FGF19. Our findings show how FGF19 provides a cytoprotective role against ER stress by activating a FGFR4-GSK3β-Nrf2 signaling cascade, with implications for targeting this signaling node as a candidate therapeutic regimen for HCC management.
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Metastasis is most often the root cause of cancer-related death. Human short stature homeobox 2 (SHOX2), a homeodomain transcription factor, is a novel inducer of epithelial-to-mesenchymal transition ...in breast cancer cells, though its exact role and underlying mechanisms in metastasis are not well understood.
TCGA analysis was performed to identify the clinical relevance of SHOX2 in breast cancer. Gene depletion was achieved by short hairpin RNA and small interfering RNA. Molecular regulations and alterations were assessed by Western blotting, immunoprecipitation, immunohistochemistry, qRT-PCR, chromatin immunoprecipitation coupled with qPCR (ChIP-qPCR), and ChIP/re-ChIP. The impact of SHOX2 signaling on tumor growth and metastasis was evaluated in orthotopic breast tumor mice.
The expression level of SHOX2 is strongly associated with poor distant metastasis-free survival in breast cancer patients and inactivation of SHOX2 suppresses breast tumor growth and metastasis in mice. In breast cancer cells, SHOX2 directly activates Wiskott-Aldridge syndrome protein family member 3 (WASF3), a metastasis-promoting gene, at the transcriptional level, leading to a significant increase in metastatic potential. Mechanistically, SHOX2 activates signal transducer and activator of transcription 3 (STAT3) and recruits it to the WASF3 promoter, where STAT3 cooperates with SHOX2 to form a functional immunocomplex to promote WASF3 transcriptional activity in breast cancer cells. WASF3 knockdown abrogates SHOX2-induced metastasis, but not SHOX2-dependent tumorigenesis.
These findings provide a critical link between the SHOX2-STAT3-WASF3 signaling axis and metastasis and suggest that the targeting of this signaling node may represent a valuable alternative strategy for combating breast cancer metastasis.
Coordination between the amplification of the fibroblast growth factor FGF19, overexpression of its corresponding receptor FGFR4, and hyperactivation of the downstream transmembrane enzyme β-klotho ...has been found to play pivotal roles in mediating tumor development and progression. Aberrant FGF19-FGFR4 signaling has been implicated in driving specific tumorigenic events including cancer cell proliferation, apoptosis resistance, and metastasis by activating a myriad of downstream signaling cascades. As an attractive target, several strategies implemented to disrupt the FGF19-FGFR4 axis have been developed in recent years, and FGF19-FGFR4 binding inhibitors are being intensely evaluated for their clinical use in treating FGF19-FGFR4 implicated cancers. Based on the established work, this review aims to detail how the FGF19-FGFR4 signaling pathway plays a vital role in cancer progression and why disrupting communication between FGF19 and FGFR4 serves as a promising therapeutic strategy for disrupting cancer progression.
Basal‐like breast cancers typically correspond with increased enrichment of EpCAM‐/CD49f‐ cancer stem cells (CSC) and a propensity toward metastasis. However, the molecular mechanisms underlying ...these general characteristics are not well understood. To provide further insight concerning CSCs and their intrinsic metastatic mechanisms, we compared the 450K DNA methylation profile of EpCAM‐/CD49f‐ poor breast cancer cell lines to that of EpCAM‐/CD49f‐ enriched breast cancer cell lines. From our results, we were able to determine and highlight IL32 as a gene whose promoter is hypomethylated in EpCAM‐/CD49f‐ enriched cell lines. The hypomethylated IL32 promoter corresponded with increased IL32 expression in both cell lines and basal‐like breast cancer patients from The Cancer Genome Atlas (TCGA) database. Interestingly, increased IL32 expression preferentially occurred for the IL32‐beta transcript and corresponds with previous reports demonstrating that IL32‐beta is not secreted from the cell like other canonical interleukins and preferentially localizes to the mitochondria in breast cancer cells. Additionally, expression of the beta‐transcript could be suppressed when CSC‐enriched cells were treated with the BET‐bromodomain inhibitor JQ1. Because of this phenomenon, we sought to determine the effects of suppressing IL32 in the EpCAM‐/CD49f‐ enriched cell line SUM159PT via siRNA‐mediated knockdown and subsequent RNAseq differential expression analysis. From our results, we determined that transcripts involved in extracellular matrix (ECM) organization and collagen/integrin interaction were preferentially affected by IL32 silencing. Additionally, IL32 suppression decreased the invasiveness of SUM159PT based on an ECM‐matrix cell invasion assay. Collectively, our results reflect the notion that differential IL32 expression by promoter hypomethylation in breast CSCs plays a role in ECM remodeling for purposes of breast cancer cell invasion and metastasis.
FGF19 is a noncanonical FGF ligand that can control a broad spectrum of physiological responses, which include bile acid homeostasis, liver metabolism and glucose uptake. Many of these responses are ...mediated by FGF19 binding to its FGFR4/β-klotho receptor complex and controlling activation of an array of intracellular signaling events. Overactivation of the FGF19/FGFR4 axis has been implicated in tumorigenic formation, progression and metastasis, and inhibitors of this axis have recently been developed for single agent use or in combination with other anticancer drugs. Considering the critical role of this receptor complex in cancer, this review focuses on recent developments and applications of FGF19/FGFR4-targeted therapeutics.
The Cub and Sushi Multiple Domains 1 (CSMD1) gene, located on the short arm of chromosome 8, codes for a type I transmembrane protein whose function is currently unknown. CSMD1 expression is ...frequently lost in many epithelial cancers. Our goal was to characterize the relationships between CSMD1 somatic mutations, allele imbalance, DNA methylation, and the clinical characteristics in colorectal cancer patients.
We sequenced the CSMD1 coding regions in 54 colorectal tumors using the 454FLX pyrosequencing platform to interrogate 72 amplicons covering the entire coding sequence. We used heterozygous SNP allele ratios at multiple CSMD1 loci to determine allelic balance and infer loss of heterozygosity. Finally, we performed methylation-specific PCR on 76 colorectal tumors to determine DNA methylation status for CSMD1 and known methylation targets ALX4, RUNX3, NEUROG1, and CDKN2A.
Using 454FLX sequencing and confirming with Sanger sequencing, 16 CSMD1 somatic mutations were identified in 6 of the 54 colorectal tumors (11%). The nonsynonymous to synonymous mutation ratio of the 16 somatic mutations was 15:1, a ratio significantly higher than the expected 2:1 ratio (p = 0.014). This ratio indicates a presence of positive selection for mutations in the CSMD1 protein sequence. CSMD1 allelic imbalance was present in 19 of 37 informative cases (56%). Patients with allelic imbalance and CSMD1 mutations were significantly younger (average age, 41 years) than those without somatic mutations (average age, 68 years). The majority of tumors were methylated at one or more CpG loci within the CSMD1 coding sequence, and CSMD1 methylation significantly correlated with two known methylation targets ALX4 and RUNX3. C:G>T:A substitutions were significantly overrepresented (47%), suggesting extensive cytosine methylation predisposing to somatic mutations.
Deep amplicon sequencing and methylation-specific PCR reveal that CSMD1 alterations can correlate with earlier clinical presentation in colorectal tumors, thus further implicating CSMD1 as a tumor suppressor gene.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Abstract
Metastatic basal-like breast cancers are believed to correspond with EpCAM-/Cd49f- cancer stem cell (CSC) enrichment. As well, basal-like breast cancers typically correspond with tumor ...inflammation and immunoediting phenotypes. However, the exact interplay between CSCs and the inflammatory signature of basal-like breast cancers is not well understood. To provide insight regarding the clinical overlap between breast cancer stem cells and tumor inflammation, we compared the 450K DNA methylation profile of EpCAM-/CD49f- CSCs from the isogenic MCF10A p53-/PTEN- breast cell line against the corresponding EpCAM+/CD49f+ and EpCAM-/CD49f+ subpopulations to determine whether differential DNA methylation occurred within the promoters of immune-related genes in CSCs. In addition, we also overlapped the 450K DNA methylation profile from 16 established breast cancer cell lines of varying EpCAM-/CD49f- concentrations to compare against the isolated CSCs. Based on our results, we identified 1432 differentially methylated promoter regions overall (ANOVA FDR p-value <0.001) and found IL32 to be differentially hypomethylated in the EpCAM-/CD49f- enriched cell lines. This hypomethylation of IL32 corresponded with increased expression of the beta isoform of IL32. Results from the cell lines were mirrored in The Cancer Genome Atlas (TCGA) breast cancer datasets, which revealed decreased promoter DNA methylation and increased gene expression of IL32 in basal-like patients. Further analysis of TCGA data using Gene Set Enrichment Analysis (GSEA) revealed that transcripts that tightly correlate with IL32 expression were preferentially involved in NF-kappaB mediated inflammation, with specific examples including REL, CCL5, PIK3CD, and IDO1. Furthermore, publicly available H3K27Ac and BRD4 ChIPseq data revealed that the IL32 promoter in the basal-like breast cancer cell line SUM159PT contains a high presence of H3K27 acetylation and BRD4 recruitment, with the latter event being disrupted by JQ1 treatment. These results complemented qRT-PCR results showing the IL32-beta isoform being quickly suppressed by 1uM JQ1 in SUM159PT as well as chick chorioallanotoic membrane (CAM) xenograft assays demonstrating suppressed metastasis and neovascularization of SUM159PT treated with JQ1. Collectively, these findings highlight the potential impact of IL32 promoter hypomethylation in basal-like breast cancer stem cells and how the overall epigenetic signature may predispose CSCs towards an immunomodulatory phenotype.
Citation Format: Emma V. Gray, Caroline E. Dyar, Maria Ouzounova, Max S. Wicha, Hasan Korkaya, Austin Y. Shull. IL32 expression is epigenetically regulated in EpCAM-/Cd49f- basal-like breast cancers and can be suppressed by the bromodomain inhibitor JQ1 abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2019; 2019 Mar 29-Apr 3; Atlanta, GA. Philadelphia (PA): AACR; Cancer Res 2019;79(13 Suppl):Abstract nr 3683.
Peptide-derived drug discovery has experienced a remarkable resurgence in the past decade since the failure of small-molecule modulators to effectively access the large binding surfaces of ...intracellular protein–protein interactions as well as “undruggable” residues of certain disease-driving proteins. However, the effectiveness of peptide-based cancer therapies is being questioned in light of declines in pharmaceutical R&D efficiency. As a model of whole organism, zebrafish provide a means to develop promising peptide and protein anticancer agents in an informative, cost-effective and time-efficient manner, which also allows for surveying mechanisms of drug action and optimization of drug delivery system. This review highlights the achievements and potential of zebrafish for modelling human cancer and for peptide-based drug discovery and development. Specific challenges, possible strategies and future prospects are also discussed.
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