BACKGROUND & AIMS: The histone lysine demethylase 3A (KDM3A) demethylates H3K9me1 and H3K9Me2 to increase gene transcription and is upregulated in tumors, including pancreatic tumors. We investigated its activities in pancreatic cancer cell lines and its regulation of the gene encoding doublecortin calmodulin-like kinase 1 (DCLK1), a marker of cancer stem cells. METHODS: We knocked down KDM3A in MiaPaCa-2 and S2-007 pancreatic cancer cell lines and overexpressed KDM3A in HPNE cells (human noncancerous pancreatic ductal cell line); we evaluated cell migration, invasion, and spheroid formation under hypoxic and normoxic conditions. Nude mice were given orthotopic injections of S2-007 cells, with or without (control) knockdown of KDM3A, and HPNE cells, with or without (control) overexpression of KDM3A; tumor growth was assessed. We analyzed pancreatic tumor tissues from mice and pancreatic cancer cell lines by immunohistochemistry and immunoblotting. We performed RNA-sequencing analysis of MiaPaCa-2 and S2-007 cells with knockdown of KDM3A and evaluated localization of DCLK1 and KDM3A by immunofluorescence. We analyzed the cancer genome atlas for levels of KDM3A and DCLK1 messenger RNA in human pancreatic ductal adenocarcinoma (PDAC) tissues and association with patient survival time. RESULTS: Levels of KDM3A were increased in human pancreatic tumor tissues and cell lines, compared with adjacent nontumor pancreatic tissues, such as islet and acinar cells. Knockdown of KDM3A in S2-007 cells significantly reduced colony formation, invasion, migration, and spheroid formation, compared with control cells, and slowed growth of orthotopic tumors in mice. We identified KDM3A-binding sites in the DCLK1 promoter; S2-007 cells with knockdown of KDM3A had reduced levels of DCLK1. HPNE cells that overexpressed KDM3A formed foci and spheres in culture and formed tumors and metastases in mice, whereas control HPNE cells did not. Hypoxia induced sphere formation and increased levels of KDM3A in S2-007 cells and in HPNE cells that overexpressed DCLK1, but not control HPNE cells. Levels of KDM3A and DCLK1 messenger RNA were higher in human PDAC than nontumor pancreatic tissues and correlated with shorter survival times of patients. CONCLUSIONS: We found human PDAC samples and pancreatic cancer cell lines to overexpress KDM3A. KDM3A increases expression of DCLK1, and levels of both proteins are increased in human PDAC samples. Knockdown of KDM3A in pancreatic cancer cell lines reduced their invasive and sphereforming activities in culture and formation of orthotopic tumors in mice. Hypoxia increased expression of KDM3A in pancreatic cancer cells. Strategies to disrupt this pathway might be developed for treatment of pancreatic cancer.
We previously reported that ionizing radiation (IR) mediates cell death through the induction of CUGBP elav-like family member 2 (CELF2), a tumor suppressor. CELF2 is an RNA binding protein that modulates mRNA stability and translation. Since IR induces autophagy, we hypothesized that CELF2 regulates autophagy-mediated colorectal cancer (CRC) cell death. For clinical relevance, we determined CELF2 levels in The Cancer Genome Atlas (TCGA). Role of CELF2 in radiation response was carried out in CRC cell lines by immunoblotting, immunofluorescence, autophagic vacuole analyses, RNA stability assay, quantitative polymerase chain reaction and electron microscopy. In vivo studies were performed in a xenograft tumor model. TCGA analyses demonstrated that compared to normal tissue, CELF2 is expressed at significantly lower levels in CRC, and is associated with better overall 5-year survival in patients receiving radiation. Mechanistically, CELF2 increased levels of critical components of the autophagy cascade including Beclin-1, ATG5, and ATG12 by modulating mRNA stability. CELF2 also increased autophagic flux in CRC. IR significantly induced autophagy in CRC which correlates with increased levels of CELF2 and autophagy associated proteins. Silencing CELF2 with siRNA, mitigated IR induced autophagy. Moreover, knockdown of CELF2 in vivo conferred tumor resistance to IR. These studies elucidate an unrecognized role for CELF2 in inducing autophagy and potentiating the effects of radiotherapy in CRC.
Doublecortin like kinase 1 (DCLK1) plays a crucial role in several cancers including colon and pancreatic adenocarcinomas. However, its role in squamous cell carcinoma (SCC) remains unknown. To this end, we examined DCLK1 expression in head and neck SCC (HNSCC) and anal SCC (ASCC). We found that DCLK1 is elevated in patient SCC tissue, which correlated with cancer progression and poorer overall survival. Furthermore, DCLK1 expression is significantly elevated in human papilloma virus negative HNSCC, which are typically aggressive with poor responses to therapy. To understand the role of DCLK1 in tumorigenesis, we used specific shRNA to suppress DCLK1 expression. This
Aromatase inhibitors (AIs) reduce estrogen levels up to 98% as the standard practice to treat postmenopausal women with estrogen receptor-positive (ER+) breast cancer. However, approximately 30% of ER+ breast cancers develop resistance to treatment. Enhanced interferon-alpha (IFNα) signaling is upregulated in breast cancers resistant to AIs, which drives expression of a key regulator of survival, interferon-induced transmembrane protein 1 (IFITM1). However, how upregulated IFNα signaling mediates AI resistance is unknown. In this study, we utilized MCF-7:5C cells, a breast cancer cell model of AI resistance, and demonstrate that these cells exhibit enhanced IFNα signaling and ligand-independent activation of the estrogen receptor (ERα). Experiments demonstrated that STAT1, the mediator of intracellular signaling for IFNα, can interact directly with ERα. Notably, inhibition of IFNα signaling significantly reduced ERα protein expression and ER-regulated genes. In addition, loss of ERα suppressed IFITM1 expression, which was associated with cell death. Notably, chromatin immunoprecipitation experiments validated that both ERα and STAT1 associate with ERE sequences in the IFITM1 promoter. Overall, hyperactivation of IFNα signaling enhances ligand-independent activation of ERα, which promotes ER-regulated, and interferon stimulated gene expression to promote survival in AI-resistant breast cancer cells.
Prostate cancer is the most common cancer among men. Currently, targeting the AR pathway, chemotherapy or immune-based therapies are major options but only provide a modest improvement in overall survival. RNA binding proteins have been shown to regulate AR expression in the progression of PCa. We and others have demonstrated that RNA binding protein RBM3 is upregulated in various solid tumors including PCa. We have also shown that RBM3 binds to 3’UTR of mRNAs of tumor-promoting factors and increases their mRNA stability and translation. However, the role of RBM3 in PCa is not well evaluated. We first analyzed the expression levels of RBM3 in the TCGA database. There was a significant increase in RBM3 expression even in cancers with a Gleason score of 6 upto Gleason 10 cancers. To confirm this we performed RT-PCR analyses of a prostate cancer cDNA panel. There was a significant increase in RBM3 expression in the PCa tissues compared to normal control. We used LNCaP and its derivative cell line C4-2B which show features of progressed disease such as metastatic capability and hormone independence. RT-PCR and western blot analyses demonstrated significantly higher RBM3 levels in C4-2B cells as compared to LNCaP cells suggesting a role for RBM3 in tumor progression. The tumor microenvironment also plays a very important role in prognosis of PCa. Specifically, tumor-associated macrophages (TAMs) have been shown to increase metastatic potential and increase tumor angiogenesis. To determine the levels of RBM3 expression and its effects on macrophage infiltration, we mined the TCGA database using TIMER2.0 software. There was a positive correlation of RBM3 expression with infiltration of both M1 and M2 macrophages. To further study the effect of interactions between PCa cells and TAMs, we used immortalized THP1 monocytes, which can be activated to M1 and M2 macrophages. We observed that just converting the THP1 cells to M1 or M2 macrophages increased RBM3 expression in both cell types. Also, when M1 and M2 macrophages were treated with conditioned media from LNCaP or C4-2B cells, there was an induction in the expression of RBM3. Similarly, when conditioned media from M0, M1, M2 activated THP1 cells were applied to LNCaP and C4-2B cells, there was an increase in RBM3 expression in the PCa cells. This suggests a positive cross-talk between the macrophages and PCa cells. We evaluated the cytokine profile in the conditioned media from M1 and M2 macrophages and determined that while M1 macrophages had increased levels of CXCL10, M2 macrophages showed higher levels of IL4 and IL10. Moreover, PCa cells have higher levels of CXCR3, the receptor for CXCL10. Together, these data suggest that crosstalk between TAMs and cancer cells in the PCA microenvironment plays a significant role in increasing RBM3 expression, which in turn enhances global translation of disease progression related genes. Citation Format: Afreen Asif Ali Sayed, David Standing, Prasad Dandawate, Shahid Umar, Roy Jensen, Rahul Parikh, John Taylor, Shrikant Anant. Determining the expression of RNA binding protein Rbm3 in tumor cells and immune cells in the tumor microenvironment in prostate cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 2558.
Background and Aims: Translational regulation involve the coordinated actions of RNA binding proteins (RBPs) and non-coding RNAs. For efficient translation, the mRNA needs to be circularized. While RNA binding proteins and translation factors have been shown to regulate the circularization, the role of lncRNAs in the process is not yet defined. Methods: We first performed RNA-seq and RNA-immunoprecipitation coupled-Seq (RIP-Seq) to identify differentially expressed lncRNA and mRNA in RBM3 overexpressing cell lines. We manipulated lncRNA expression in the cells and determined effects on gene expression and cell viability and motility. The studies were confirmed in vivo in intestine specific RBM3 transgenic and RBM3 knockout mouse models. Results: In comparing the RNA-Seq and RIP-Seq datasets, we identified increased expression of lncRNA LSAMP-3 and Flii-1 that bind to RBM3. In addition, there was an increase in expression of epithelial mesenchymal transition and angiogenesis markers following RBM3 overexpression. Moreover, modeling studies suggest that these lncRNAs formed kissing-loop interactions on target mRNAs including transcripts that encode epithelial mesenchymal transition and angiogenesis. While RBM3 transgenic mice showed increased LSAMP-3 and Flii-1, this was reduced in the RBM3 knockout mice. Also, RBM3 overexpression increased tumor xenograft growth, which was suppressed by knockdown of the lncRNAs. Also, knockdown of endogenous RBM3 specifically in the intestine suppressed azoxymethane-dextran sodium sulfate driven colitis-associated cancers, with a corresponding reduction in the expression of lncRNAs and transcripts that encode epithelial mesenchymal transition and angiogenesis. Conclusion: We propose that RBPs such as RBM3 mediate their function through regulatory lncRNAs that enable circularization to control translation.
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