Project description:Analysis of abnormal cellular response to stress after overexpression of stress-induced microRNAs. The hypothesis tested in the present study was that miR-141 or miR-200c may influence transcription of stress-pathways related genes Total RNA obtained from fibroblasts transfected for 48h with Control, miR-141 or miR-200c. 2h hours before lysis, fibroblasts were stimulated with 400 uM H2O2.

Project description:miRNA analysis of murine fibroblasts subjected to acute oxidative stress

Project description:Islets from control and beta-cell specific miR-141/200c overexpressing mice were extracted and Affymetrix gene expression analysis performed We used Affymetrix Chip analysis to address which genes are regulated upon miR-200-overexpression in beta-cells at the age of 6 weeks. Transgenic mice overexpressing miR-141/200c and control mice were subjected to islet extraction, RNA was extracted using Trizol method, and Affymetrix analysis was performed.

Project description:ERα is one of the most important transcription factors and therapeutic targets in breast cancer. The patterns of ERα expression in normal breast tissue and cancerous lesions are strikingly different. What drives the change of ERα pattern during lesions formation remains unclear. Here, we describe a novel regulatory mechanism through which miR-200c/141 regulates the level as well as the distribution of ERα in the mammary gland. miR-200c/141 is specifically expressed in luminal cells. Luminal-deletion of miR-200c/141 (miR-cKO) leads to a drastic expansion of ERα+ cell proportion. Single cell RNAseq reveals that miR-cKO generates aberrant luminal subpopulations with increased proliferative and anti-apoptotic features. In vivo lineage tracing of ER- luminal cells demonstrates that miR-200c/141 deletion can convert ER- cells into ER+ cells, which contribute partly to the increase of ERα+ luminal cells. Mechanistic study identifies  Ccnd1  as a novel target of miR-200c/141 .  Upon miR-200c/141deletion, elevated  Ccnd1  level corroborates ERα transcriptional activation, leads to enhanced ERα signaling activity, consequently increased transcription of ERα coding gene  Esr1  through self-activation at promoter E1. Our findings reveal a new miR-200c/141-Ccnd1-ERα axis, and provide new molecular insights into how miR-200c/141-Ccnd1 enforces the lineage barrier between ER- and ER+ luminal cells, and what drives the change of ERα expression pattern.

Project description:ERα is one of the most important transcription factors and therapeutic targets in breast cancer. The patterns of ERα expression in normal breast tissue and cancerous lesions are strikingly different. What drives the change of ERα pattern during lesions formation remains unclear. Here, we describe a novel regulatory mechanism through which miR-200c/141 regulates the level as well as the distribution of ERα in the mammary gland. miR-200c/141 is specifically expressed in luminal cells. Luminal-deletion of miR-200c/141 (miR-cKO) leads to a drastic expansion of ERα+ cell proportion. Single cell RNAseq reveals that miR-cKO generates aberrant luminal subpopulations with increased proliferative and anti-apoptotic features. In vivo lineage tracing of ER- luminal cells demonstrates that miR-200c/141 deletion can convert ER- cells into ER+ cells, which contribute partly to the increase of ERα+ luminal cells. Mechanistic study identifies  Ccnd1  as a novel target of miR-200c/141 .  Upon miR-200c/141deletion, elevated  Ccnd1  level corroborates ERα transcriptional activation, leads to enhanced ERα signaling activity, consequently increased transcription of ERα coding gene  Esr1  through self-activation at promoter E1. Our findings reveal a new miR-200c/141-Ccnd1-ERα axis, and provide new molecular insights into how miR-200c/141-Ccnd1 enforces the lineage barrier between ER- and ER+ luminal cells, and what drives the change of ERα expression pattern.

Project description:Analysis of abnormal cellular response to stress after overexpression of stress-induced microRNAs. The hypothesis tested in the present study was that miR-141 or miR-200c may influence transcription of stress-pathways related genes

Project description:The mouse incisor is a remarkable tooth that grows throughout the animal’s lifetime. This continuous renewal is fueled by epithelial stem cells that give rise to ameloblasts, which generate enamel, and little is known about the function of specific miRNAs in this process. Here we describe the role of a novel Pitx2:miR-200c/141:Noggin regulatory pathway in dental epithelial cell differentiation. miR-200c repressed noggin, an antagonist of Bmp signaling. Pitx2 expression caused an up-regulation of miR-200c and chromatin immunoprecipitation (ChIP) assays revealed endogenous Pitx2 binding to the miR-200c/141 promoter. A positive feedback loop was discovered between miR-200c and Bmp signaling. miR-200c/141 induced expression of E-cadherin and the dental epithelial cell differentiation marker, amelogenin. In addition, miR-203 expression was activated by endogenous Pitx2 and targeted the Bmp antagonist Bmper to further regulate Bmp signaling. miR-200c/141 knockout mice showed defects in enamel formation with decreased E-cadherin and amelogenin expression and increased noggin expression. Our in vivo and in vitro studies reveal a multistep transcriptional program involving the Pitx2:miR-200c/141:Noggin regulatory pathway that is important in epithelial cell differentiation and tooth development.

Project description:The microRNAs miR-141 and -200c were co-overexpressed in the Min6 beta-cell line, which caused pro-apoptotic gene expression and subsquently apoptosis. We used Affymetrix Chip analysis to address which genes are regulated upon miR-200-overexpression to define target genes of miR-200 and pro-apoptotic genes upregulated by miR-200 to induce apoptosis. Min6 cells were infected with a control Adenovirus or Adenovirus overexpression miR-141/200c. Cells were harvested with Trizol and RNA extraction was performed. RNA from n=3 wells was pooled for each condition and subjected to Affymetrix chip analysis

Project description:We used transcription activator-like effector nucleases (TALENs) to generate knockout cells for two related microRNAs (miRNAs), mir-141 and mir-200c, which belong to the deeply conserved mir-200 family. By carrying out deep sequencing, we identified the target genes of each miRNA. Interestingly, miR-141 and miR-200c, despite their overall similarity, suppressed largely non-overlapping groups of targets. Analysis of global mRNA level change in mir-141 and mir-200c knockout compared to wild type cells

Project description:We performed RNA sequencing of islets of Langerhans isolated from RipmiR-141~200c and RipmiR-141~200c Zeb1200M mice to determine the transcriptomic effects of mutating miR-200 binding sites in the endogenous Zeb1 3'UTR of mice in which miR-141~200c is overexpressed under the rat insulin promoter (RIP).