Project description:MicroRNAs have been demonstrated to be deregulated in multiple myeloma (MM). We have previously reported the downregulation of miR-214 in MM compared to normal plasma cells. In the present study, we have explored the functional role of miR-214 in myeloma pathogenesis. Ectopic expression of miR-214 reduced cell growth and induced apoptosis of myeloma cells. In order to identify the potential direct target genes of miR-214 which could be involved in the biological pathways regulated by this miRNA, gene expression profiling of H929 myeloma cell line transfected with precursor miR-214 was carried out. Functional analysis revealed significant enrichment for DNA replication, cell cycle phase and DNA binding. We show that miR-214 directly down-regulates the expression of PSMD10, which encodes the oncoprotein gankyrin, and ASF1B, a histone chaperone required for DNA replication, by binding to their 3'-UTR. In addition, gankyrin inhibition induced an increase of P53 mRNA levels and subsequent up-regulation in CDKN1A (p21Waf1/Cip1) and BAX transcripts, which are direct transcriptional targets of p53. In conclusion, we demonstrate that miR-214 function as a tumor suppressor in myeloma by a positive regulation of p53 and inhibition of DNA replication. H929 cell line was transfected with Pre-miR™ miRNA precursors pre-miR-214 or pre-miR™ miRNA negative, non-targeting control#1 (Ambion) at 50 nM concentration, using the nucleofector II system with C-16 program (Amaxa). The experiments were performed in triplicates.

Project description:MicroRNAs have been demonstrated to be deregulated in multiple myeloma (MM). We have previously reported the downregulation of miR-214 in MM compared to normal plasma cells. In the present study, we have explored the functional role of miR-214 in myeloma pathogenesis. Ectopic expression of miR-214 reduced cell growth and induced apoptosis of myeloma cells. In order to identify the potential direct target genes of miR-214 which could be involved in the biological pathways regulated by this miRNA, gene expression profiling of H929 myeloma cell line transfected with precursor miR-214 was carried out. Functional analysis revealed significant enrichment for DNA replication, cell cycle phase and DNA binding. We show that miR-214 directly down-regulates the expression of PSMD10, which encodes the oncoprotein gankyrin, and ASF1B, a histone chaperone required for DNA replication, by binding to their 3'-UTR. In addition, gankyrin inhibition induced an increase of P53 mRNA levels and subsequent up-regulation in CDKN1A (p21Waf1/Cip1) and BAX transcripts, which are direct transcriptional targets of p53. In conclusion, we demonstrate that miR-214 function as a tumor suppressor in myeloma by a positive regulation of p53 and inhibition of DNA replication.

Project description:Abstract: Background & Aims: Unusual hypervascularity is a hallmark of human hepatocellular carcinoma (HCC). Although microRNA-214 (miR-214) is upregulated in other human cancers, it is downregulated in HCC. We elucidated the biological and clinical significance of miR-214 downregulation in HCC. Methods: MicroRNAs deregulated in HCC were identified using array-based MicroRNA profiling. A luciferase reporter assay confirmed target association between miR-214 and hepatoma-derived growth factor (HDGF). Tube formation and in vivo angiogenesis assays validated the roles of miR-214/HDGF in angiogenesis. Results: MiR-214 downregulation was associated with higher tumor recurrence and worse clinical outcomes. Ectopic expression of miR-214 suppressed xenograft tumor growth and microvascularity of the tumor and its surrounding tissues. The genes downregulated by ectopic expression of miR-214 were involved in the regulation of apoptosis, cell cycle, and angiogenesis. Integrated analysis disclosed HDGF as a downstream target of miR-214. Conditioned medium of HCC cells contained bioactivity to stimulate tube formation of human umbilical vein endothelial cells, which was abolished by pretreatment of the conditioned media with HDGF antibodies, silencing of HDGF expression or ectopic expression of miR-214 in the donor HCC cells. The angiogenic activity of the conditioned media lost by ectopic expression of miR-214 in the donor cells was restored by supplementation with recombinant HDGF. In vivo tumor angiogenesis assays showed significant suppression of tumor vascularity by ectopic expression of miR-214. Conclusions: A novel role of microRNA in tumrigenesis is identified. Downregulation of miR-214 contributes to unusual hypervascularity of HCC via activation of the HDGF paracrine pathway for tumor angiogenesis.

Project description:Abstract: Background & Aims: Unusual hypervascularity is a hallmark of human hepatocellular carcinoma (HCC). Although microRNA-214 (miR-214) is upregulated in other human cancers, it is downregulated in HCC. We elucidated the biological and clinical significance of miR-214 downregulation in HCC. Methods: MicroRNAs deregulated in HCC were identified using array-based MicroRNA profiling. A luciferase reporter assay confirmed target association between miR-214 and hepatoma-derived growth factor (HDGF). Tube formation and in vivo angiogenesis assays validated the roles of miR-214/HDGF in angiogenesis. Results: MiR-214 downregulation was associated with higher tumor recurrence and worse clinical outcomes. Ectopic expression of miR-214 suppressed xenograft tumor growth and microvascularity of the tumor and its surrounding tissues. The genes downregulated by ectopic expression of miR-214 were involved in the regulation of apoptosis, cell cycle, and angiogenesis. Integrated analysis disclosed HDGF as a downstream target of miR-214. Conditioned medium of HCC cells contained bioactivity to stimulate tube formation of human umbilical vein endothelial cells, which was abolished by pretreatment of the conditioned media with HDGF antibodies, silencing of HDGF expression or ectopic expression of miR-214 in the donor HCC cells. The angiogenic activity of the conditioned media lost by ectopic expression of miR-214 in the donor cells was restored by supplementation with recombinant HDGF. In vivo tumor angiogenesis assays showed significant suppression of tumor vascularity by ectopic expression of miR-214. Conclusions: A novel role of microRNA in tumrigenesis is identified. Downregulation of miR-214 contributes to unusual hypervascularity of HCC via activation of the HDGF paracrine pathway for tumor angiogenesis. To identify miRNAs that are deregulated in human HCC, 68 HCC and 21 non-tumor liver tissues were subjected to profiling of miRNA expression using miRNA arrays containing 739 human miRNA probes. Differentially expressed microRNAs were identified.

Project description:The mechanism by which aging induces aortic aneurysm and dissection (AAD) remains unclear. A total of 430 subjects were recruited for screening of differentially expressed plasma microRNAs. We found that miR-1204 was significantly increased in both plasma and aorta of elder patients with AAD, and was positively correlated with age. Cell senescence induced the expression of miR-1204 through p53 interaction with plasmacytoma variant translocation 1, and miR-1204 induced vascular smooth muscle cell (VSMC) senescence to form a positive feedback loop. miR-1204 aggravated angiotensin II-induced AAD formation, and inhibition of miR-1204 attenuated β-aminopropionitrile monofumarate-induced AAD formation. Mechanistically, miR-1204 directly targeted myosin light chain kinase (MYLK) to promote VSMCs to acquire senescence-associated secretory phenotype (SASP) and lose their contractile phenotype. Overexpression of MYLK reversed miR-1204-induced VSMC senescence, SASP and contractile phenotype changes, and the decrease of transforming growth factor-β signaling pathway. Our findings suggest aging aggravates AAD via miR-1204-MYLK signaling axis.

Project description:The heat-shock protein 90 (HSP90) is a promising target in cancer therapy, but its inhibitors' clinical trial failures are partly due to a compensatory heat-shock response (HSR) mediated by heat-shock factor 1 (HSF1). We previously showed that wildtype p53 reduces HSR by repressing HSF1 via a p21-CDK4/6-MAPK-HSF1 axis. Here, we explore if simultaneous p53 activation or cell cycle inhibition can disrupt the HSF1-HSR axis and enhance HSP90 inhibitors' efficiency. mRNA sequencing was performed on HCT116 cells treated for 24 hours with DMSO, 50 nM Ganetespib, 1 µM RG-7388, or their combination. We found that the p53 activator Idasanutlin suppresses HSF1-HSR activity in HSP90 inhibitor-based therapies, synergistically reducing cell viability and accelerating cell death in p53-proficient colorectal cancer (CRC) cells and organoids. Combination therapy upregulates p53 pathways, apoptosis, and inflammation. In a CRC mouse model, dual HSF1-HSP90 inhibition represses tumor growth and alters immune cell composition. CDK4/6 inhibition under HSP90 inhibition mimics HSR repression in p53-proficient CRC cells. In p53-deficient CRC cells and p53-mutated organoids, combined HSP90 and CDK4/6 inhibition suppresses HSF1-HSR and reduces cancer growth, offering a p53-independent strategy for CRC treatment. In conclusion, we present new options to improve HSP90-based therapies for enhanced CRC treatment.

Project description:The small RNA landscape of pediatric ALK-positive ALCL was defined by RNA sequencing. Overall, 121 miRNAs were significantly dysregulated in ALCL compared to non-neoplastic lymph nodes. The most up-regulated miRNA was miR-21-5p, while miR-19a-3p and miR-214-5p were reduced in ALCL. Characterization of miRNA expression in cases that relapsed after first line therapy disclosed a significant association between miR-214-5p down-regulation and aggressive non-common histology.

Project description:We determined the effect of p53 activation on de novo protein synthesis using quantitative proteomics of newly synthesized proteins (pulsed stable isotope labeling with amino acids in cell culture, pSILAC) in combination with mRNA and non-coding RNA expression analyses by next generation sequencing (RNA-, miR-Seq) in the colorectal cancer (CRC) cell line SW480. Furthermore, genome-wide DNA binding of p53 was analyzed by chromatin-immunoprecipitation (ChIP-Seq). Thereby, we identified differentially regulated mRNAs (1258 up, 415 down), miRNAs (111 up, 95 down), lncRNAs (270 up, 123 down) and proteins (542 up, 569 down). Changes in mRNA and protein expression levels showed a positive correlation (r = 0.50, p < 0.0001). More transcriptionally induced genes displayed occupied p53 binding sites (4.3% mRNAs, 7.2% miRNAs, 6.3% lncRNAs, 5.9% proteins) than repressed genes (2.4% mRNAs, 3.2% miRNAs, 0.8% lncRNAs, 1.9% proteins), suggesting indirect mechanisms of repression. Around 50% of the downregulated proteins displayed seed-matching sequences of p53-induced miRNAs in the corresponding 3â??-UTRs. Moreover, proteins repressed by p53 significantly overlapped with those previously shown to be repressed by miR-34a. We confirmed upregulation of the novel direct p53 target genes LINC01021, MDFI, ST14 and miR-486 and showed that ectopic LINC01021 expression inhibited proliferation in SW480 cells. Furthermore, HMGB1, KLF12 and CIT mRNAs were confirmed as direct targets of the p53-induced miR-34a, miR-205 and miR-486-5p, respectively. In line with the loss of p53 function during tumor progression, elevated expression of HMGB1, KLF12 and CIT was detected in advanced stages of cancer. This study provides new insights and a comprehensive catalogue of p53-mediated regulations and p53 DNA binding in CRC cells.

Project description:Silicosis is a devastating occupational lung disease characterized by chronic inflammation and diffuse interstitial fibrosis. Previous studies have shown that miRNA imbalance contributes to silicosis progression, however, the role of miR-214-3p in silicosis is largely unknown. In this study, we performed proteomics analysis of macrophage transfected with miR-NC or miR-214-3p after silica dust exposure for 36 hours, to analyze the effect of miR-214-3p overexpression on SiO2-induced macrophage inflammation.

Project description:Purpose: Determine the differential gene expression pattern between wildtype, Pkd2-KO and Pkd2-miR-214 KO mice Methods: kidney mRNA profiles of Pkd2-KO and Pkd2-mir-214-KO mice was sequenced with N of 3 in each group Results: 972 differentially expressed transcripts were identified between Pkd2-KO kidneys and Pkd2-miR-214-KO kidneys Conclusion: Deletion of miR-214 promotes interstitial inflammation in mouse models of ADPKD