Project description:Tumor progression depends on the bidirectional interactions between cancer and stroma in the heterogenous tumor microenvironment (TME) partially through extracellular vesicles (EVs). However, the secretary mechanism and biological effect of cancer cell derived EVs on tumor survival under starvation is poorly defined. Here, we identify cancer cells preferentially secrete miR-33a in the tumor core region with poor nutrient level. Exosomal miR-33a suppresses putrescine biosynthesis by targeting AGMAT in stromal cells, where putrescine suppresses the expression of demethylase KDM5C. Chromatin immunoprecipitation sequencing identifies miR-33a/KDM5C axis tightly regulates TIA1 gene, functioning stress granule (SG) marker. Exosomal miR-33a diminishes the assembly of stromal SGs but inducing more extracellular matrix accumulation. Collectively, our study reveals tumor selectively secretes miR-33a through EVs to remodel the stromal SG formation and extracellular matrix profiles to gain survival possibility for cancer cells under starvation, highlighting a novel regulatory mechanism of nutrient level on EV secretion and the function of polyamine metabolism in reshaping epigenetic profiles of TME.

Project description:Breast cancer cells secret different kinds of cargoes through extracellular vesicles (EVs) especially under stress conditions. However, the underling mechanism and function is poorly defined. Here, we found RNA binding protein ACO1 could bind miR-33a and assist their package into EVs in tumor core region. Thereby, miR-33a suppressed putrescine metabolism in cancer-associated fibroblasts (CAFs) and reprogrammed H3K4me3 mediated epigenetic regulation. Chip-seq data suggested stress granules related genes were downregulated and ECM related genes were upregulated. Most notably, putrescine inhibited KDM5C expression level but did not altered activity. Finally, our study provides a novel mechanism of how cancer EVs reprogrammed polyamine metabolism in tumor stroma, leading to spatially different distribution of ECM in tumor microenvironment.

Project description:Breast cancer cells secret different kinds of cargoes through extracellular vesicles (EVs) especially under stress conditions. However, the underling mechanism and function is poorly defined. Here, we found RNA binding protein ACO1 could bind miR-33a and assist their package into EVs in tumor core region. Thereby, miR-33a suppressed putrescine metabolism in cancer-associated fibroblasts (CAFs) and reprogrammed H3K4me3 mediated epigenetic regulation. Chip-seq data suggested stress granules related genes were downregulated and ECM related genes were upregulated. Most notably, putrescine inhibited KDM5C expression level but did not altered activity. Finally, our study provides a novel mechanism of how cancer EVs reprogrammed polyamine metabolism in tumor stroma, leading to spatially different distribution of ECM in tumor microenvironment.

Project description:Breast cancer cells secret different kinds of cargoes through extracellular vesicles (EVs) especially under stress conditions. However, the underling mechanism and function is poorly defined. Here, we found RNA binding protein ACO1 could bind miR-33a and assist their package into EVs in tumor core region. Thereby, miR-33a suppressed putrescine metabolism in cancer-associated fibroblasts (CAFs) and reprogrammed H3K4me3 mediated epigenetic regulation. Chip-seq data suggested stress granules related genes were downregulated and ECM related genes were upregulated. Most notably, putrescine inhibited KDM5C expression level but did not altered activity. Finally, our study provides a novel mechanism of how cancer EVs reprogrammed polyamine metabolism in tumor stroma, leading to spatially different distribution of ECM in tumor microenvironment.

Project description:In this study, we aimed to investigate the functional roles of miR-33a in PCa.We investigated the relative miR-33a level in normal and tumor prostate samples as well as PCa cell lines. Then, we performed a detailed functional analysis of mir-33a in LNCaP and VCaP PCa cells and evaluated proliferative, invasive and anchorage independent growth potential of cells upon overexpression and knockdown of miR-33a. We next explored the potential direct targets of miR-33a in PCa cells via utilizing gene expression microarray analysis, bioinformatics search, further qRT-PCR, western blot, and luciferase assay confirmation. Our results demonstrated that miR-33a is significantly downregulated in PCa tumor samples and PCa cell lines, pointing its tumor suppressor potential in PCa. Overexpression and knockdown of miR-33a significantly altered the proliferative, invasive and anchorage independent growth potentials of cells through altering the expression of its direct target PIM1. Ectopic induction of MiR-33a expression reversed the impacts of PIM1 overexpression on cellular phenotypes associated with PCa progression. Our results suggest that mir-33a exerts its tumor suppressor potential through targeting its direct target PIM1 and carries crucial roles in PCa tumorigenesis.

Project description:To explore the biological benefit for miR-33a mediated decreased CAF survival in the tumor core region, proteomic profiling identified total of 62 proteins upregulated in the secretome of CAF/miR-33a than CAF control.

Project description:MiR-33a is involved in the maintenance of Glioma Initiating Cells (GIC) and tumor progression. MicroRNA-33a could promote GIC growth and self-renewal by regulating two pathways including cAMP/PKA pathway and Notch pathway. We used microarrays to identify the direct target genes of miR-33a in a glioblastoma cell line D456MG. We used microarrays to detail the global change of gene expression after miR-33a over-expression and identified target genes during this process. Cells were infected with lenti-virus expressing a control vector (pWPXLD) or human primary miR-33a. Then RNA was extracted and gene expression was profiled by Affymetrix microarray.

Project description:MiR-33a is involved in the maintenance of Glioma Initiating Cells (GIC) and tumor progression. MicroRNA-33a could promote GIC growth and self-renewal by regulating two pathways including cAMP/PKA pathway and Notch pathway. We used microarrays to identify the direct target genes of miR-33a in a glioblastoma cell line D456MG. We used microarrays to detail the global change of gene expression after miR-33a over-expression and identified target genes during this process.

Project description:We investigated the relative miRNA levels in primary prostate cancer samples from patients that had a subsequent recurrence event versus patients that did not. For one of the top miRNAs arising from this analysis, miR-33a, we carried out further investigation, including miRNA levels in normal and tumor prostate samples as well as PCa cell lines. Then, we performed a detailed functional analysis of mir-33a in LNCaP and VCaP PCa cells and evaluated proliferative, invasive and anchorage independent growth potential of cells upon overexpression and knockdown of miR-33a.

Project description:Dysregulation of tumor suppressor miRNAs (tsmiRs) is associated with tumor progression in cancer. miR-23b-3p, miR-218-5p and miR-124-3p are tsmiRs in cervical cancer (CC) and regulate the translation of genes involved in metastasis-related biological processes. Objective. To analyze transcriptome changes in cervical cancer cell lines (C-33A HPV-negative and CaSki HPV-positive) overexpressing miR-23b-3b+miR-218-5p+miR-124-3p, to identify specific target transcripts common to all three miRNAs, as well as signaling pathways and cellular processes related to tumor progression. Methods. The transcriptome of C-33A and CaSki cells transfected with miR-23b-3b+miR-218-5p+miR-124-3p was analyzed by RNA-seq. Differentially expressed genes (DEGs) were subjected to Gene Ontology analysis on the DAVID platform. The function of under-regulated genes was analyzed on the GEPIA 2.0, Kaplan-Meier plotter and STRING platforms. On the TargetScanHuman platform it was determined which transcripts have MREs for miR-23b-3p, miR-218-5p and/or miR-124-3p in their 3`UTR region. Results. Simultaneous overexpression of miR-218-5p, miR-124-3p and miR-23b-3p induced changes in global gene expression in C-33A and CaSki cells. In C-33A cells, DEGs included 45 over- and 172 under-regulated transcripts; in CaSki, 125 transcripts were over- and 84 under-regulated. The under-regulated transcripts enrich proliferation, migration, apoptosis and angiogenesis; 20 of these genes are associated with overall survival (OS) in women with CC, and 18 of the 20 mRNAs have MREs for one, two or all three miRNAs. Conclusions. miR-23b-3b+miR-218-5p+miR-124-3p, differentially modify global gene expression in C-33A and CaSki cells. The results indicate that these miRNAs act synergistically and modulate CC progression through individual and shared targets by two or all three miRNAs.