Project description:Presence of BM-infiltrating neuroblastoma (NB) cells occurs in about 50% of patients affected by this peculiar pediatric cancer. Children aged more than 18 months at diagnosis with metastatic NB are high-risk patients with 25-30% overall survival at 5 years, despite multimodal aggressive therapy. Little is known about the metastatic process in NB patients. Hereby, we focused on miRNA expression profiles of BM-infiltrating as compared to those of primary NB tumors. For this purpose, we analyzed 22 BM-infiltrating NB cells, 22 primary NB tumors, and 4 paired BM-infiltrating and primary tumor specimens, all from patients with metastatic disease and aged > 18 months at diagnosis. Statistical analysis indicated that in human BM-infiltrating cells miR-659-3p was down-modulated as compared to primary tumors, in all sets of samples. Functional studies in HTLA and SH-SY5Y NB cell lines by miR-659-3p mimic and inhibitors demonstrated that miR-659-3p regulates the expression of the transcription factor CNOT1, that in turn regulates the expression of AU-rich element (ARE)-containing target genes AKT3, BCL2, THSB2 and CYR61, all belonging to the focal adhesion pathway. Indeed, CNOT1 expression was found significantly higher, whereas that of the ARE-containing target genes was significantly lower in BM-infiltrating cells than in primary tumors. Our findings about a role of the focal adhesion pathway, regulated by miR-659-3p through CNOT1, in NB metastatic process are intriguing for the development of new therapeutic strategies aimed to interrupt the metastatic process. To evaluate the effect of miR-659-3p up- and down-regulation on gene expression, HTLA-230 and SH-SY5Y cells were transfected with specific miR-659-3p mirVana™ mimic and inhibitor, respectively (Ambion, Life Technologies, Carlsbad, CA, USA, catalog# MC and MH 11582). Samples transfected with mirVana™ miRNA Mimic Negative Control #1 and mirVana™ miRNA Inhibitor Negative Control #1 were used as reference conditions. Transfection was performed at 20 nM miRNA concentration in OptiMEM© medium (Sigma-Aldrich), using Lipofectamin RNAiMAX© (Life Technologies), according to manufacturer’s protocol. Cells were then cultured for 48 hours, checked for viability and processed for total mRNA and miRNA extraction, as described below. Transfection experiments were performed twice with similar results. HTLA-230 (kindly donated by Dr E. Bogenman, Los Angeles, USA) and SH-SY5Y (purchased from Banca Biologica and Cell Factory, Genoa, Italy) NB cell lines were cultured in RPMI 1640 medium supplemented with 10% heat inactivated FCS, 50 mg/ml streptomycin, 50 mg/ml penicillin and 2 mM glutamine (Sigma-Aldrich, Milan, Italy). The HTLA-230 cells present MYCN amplification and SH-SY5Y cells have normal MYCN status. Both cell lines were checked for MYCN amplification, morphology, proliferation rate and mycoplasma contamination, after thawing and within four passages in culture. To evaluate the effect of miR-659-3p up- and down-regulation on gene expression, 1x106 HTLA-230 and SH-SY5Y cells were transfected with specific miR-659-3p mirVana™ mimic and inhibitor, respectively (Ambion, Life Technologies, Carlsbad, CA, USA, catalog# MC and MH 11582). Samples transfected with mirVana™ miRNA Mimic Negative Control #1 and mirVana™ miRNA Inhibitor Negative Control #1 were used as reference conditions. Transfection was performed at 20 nM miRNA concentration in OptiMEM© medium (Sigma-Aldrich), using Lipofectamin RNAiMAX© (Life Technologies), according to manufacturer’s protocol. Cells were then cultured for 48 hours, checked for viability and processed for total mRNA and miRNA extraction, as described below. Transfection experiments were performed twice with similar results.

Project description:The expression of the mciroRNA, miR-153 is significantly altered in neural stem cells (NSCs) following exposure to the teratogens, alcohol and nicotine (PMIDs:22458409, 17687032). To better understand how miR-153 may mediate teratogenesis, we first needed to identify miR153 targets in fetal NSCs. Gestational day 12.5 fetal mouse cortical neural epithelium was isolated and grown as neurospheres in defined medium for studies. We overexpressed miR-153 in fetal NSCs for 24 hours in a transient transfection assay, and profiled mRNA expression using a microarray platform (codelink array) to identify potential target genes. Over expression of pre-miR-153 resulted in a ~32-fold induction of miR-153 compared to the transfection control. Transcript profiles were assessed from RNA samples (6 independent replicates in each condition) hybridized to codelink microarrays according to manufacturer's protocols. Data analysis showed that miR-153 overexpression resulted in statistically significant down-regulation of 102 genes (at a false discovery rate α=0.1, of a total of 860 transcripts down-regulated by ≥1.3-fold). These data suggested the role of this miRNA in moderately controlling expression hundreds of gene transcripts. These regulated genes may be important in controlling neural stem cell differentiation and downstream signaling pathways.

Project description:Human pluripotent stem cells hold great potential for regenerative medicine, but available cell types have important limitations. While embryonic stem cells derived from fertilized embryos (IVF-ESCs) are considered the "gold standard" of pluripotency, they are allogeneic to potential recipients. Autologous induced pluripotent stem cells (iPSCs) are prone to epigenetic and transcriptional aberrations. To determine whether accumulation of such aberrations is intrinsic to somatic cell reprogramming or secondary to the reprogramming method, we generated a genetically matched collection of human IVF-ESCs, iPSCs, and ESCs derived by somatic cell nuclear transfer (SCNT; NT-ESCs), and subjected them to genome-wide genetic, epigenetic and transcriptional analyses. SCNT-based reprogramming is mediated by the full complement of oocyte cytoplasmic factors, thus closely recapitulating early embryogenesis. NT-ESCs and iPSCs derived from the same somatic donor cells contained comparable numbers of de novo copy number variations (CNVs), suggesting that the two reprogramming methods may not differ significantly in mutagenic or selective pressure. On the other hand, the DNA methylation and transcriptome profiles of NT-ESCs corresponded very closely to those of IVF-ESCs, while iPSCs differed markedly from IVF-ESCs and harbored residual DNA methylation patterns typical of parental fibroblasts, suggesting incomplete reprogramming. We conclude that human somatic cells can be faithfully reprogrammed to pluripotency by SCNT and are therefore ideal candidates for cell replacement therapies. 16 matched samples, two IVF-ESCs, five sendai produced iPSC lines, two retro-virus produced iPSC lines, four NT-ESCs, the parental fibroblast line, and the sperm and oocyte donor were genotyped using the Illumina Omni5, which interrogates 4.3 million SNPs across the human genome. Additionally, matched samples from a patient with Leigh syndrome, a NT-ESC line, three iPSC lines, and the parental fibroblast line were genotyped using the Illumina Omni5.

Project description:Searching of target genes of miR-193b by transcriptome assay using 44K Whole Human Genome Microarray system (Agilent Technologies, Palo Alto, CA) resulted in finding of several candidate genes. To search of targets genes of miR-193b, we performed transcriptome analysis to compare expression profiles between human pancreatic cancer cells, MIA PaCa-2, transfected with precursor of miR-193b and those transfected with a negative control precursor.

Project description:miR-10a has been shown to regulate proliferation and invasiveness of cancer cells and inflammatory responses of endothelial cells. The function of miR-10a in the skin has not been studied before. Here we examined miR-10a expression, regulation and functions in keratinocytes (KCs) in association with atopic dermatitis (AD).

Project description:This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:'MicroRNA (miRNA) is a type of non-coding RNA that regulates the expression of its target genes by interacting with the complementary sequence of the target mRNA molecules. Recent evidence has shown that genotoxic stress induces miRNA expression, but the target genes involved and role in cellular responses remain unclear. We examined the role of miRNA in the cellular response to X-ray irradiation by studying the expression profiles of radio-responsive miRNAs and their target genes in cultured human cell lines. We found that expression of miR-574-3p was induced in the lung cancer cell line A549 by X-ray irradiation. Overexpression of miR-574-3p caused delayed growth in A549 cells. A predicted target site was detected in the 3''-untranslated region of the enhancer of the rudimentary homolog (ERH) gene, and transfected cells showed an interaction between the luciferase reporter containing the target sequences and miR-574-3p. Overexpression of miR-574-3p suppressed ERH protein production and delayed cell growth. This delay was confirmed by knockdown of ERH expression. Our study suggests that miR-574-3p may contribute to the regulation of the cell cycle in response to X-ray irradiation via suppression of ERH protein production. mRNA expression were compared between the A549 cell overexpressing a radio-responsive miRNA and in the A549 cells suppressing the miRNA. Five miRNAs (miR-181d, miR-565, miR-574-3p, miR-629* and miR-766) were examined. Microarray experiments were performed with triplicate for each experiment.'

Project description:MicroRNA (miRNA) expression profiling identified miR-638 as one of the most significantly overexpressed miRNAs in metastatic lesions compared with primary melanomas. miR-638 enhanced the tumourigenic properties of melanoma cells in vitro and lung colonization in vivo. mRNA expression profiling of miR-638 and antagomir-transduced cells identified new candidate genes as miR-638 targets, the majority of which is involved in p53-mediated apoptosis regulation. miR-638 depletion stimulated expression of p53 and its downstream target genes and induced apoptosis and autophagy in melanoma cells. miR-638 promoter analysis revealed transcription factor associated protein 2-? (TFAP2A) as a direct negative regulator of miR-638. Further analyses provided strong evidence for a double negative regulatory feedback loop between miR-638 and TFAP2A. Taken together, miR-638 may support melanoma progression by suppressing p53-mediated apoptosis pathways and by targeting the transcriptional repressor TFAP2A. Whole genome cDNA microarray (Illumina Human HT-12 v4 Expression BeadChip Kit, San Diego, CA 92122 USA) analyses were performed in duplicates using RNA extracted from SK-Mel-147 cells transfected with a non-targeting control, miR-638 or antagomiR-638.

Project description:MicroRNA (miRNA) is a type of non-coding RNA that regulates the expression of its target genes by interacting with the complementary sequence of the target mRNA molecules. Recent evidence has shown that genotoxic stress induces miRNA expression, but the target genes involved and role in cellular responses remain unclear. We examined the role of miRNA in the cellular response to X-ray irradiation by studying the expression profiles of radio-responsive miRNAs and their target genes in cultured human cell lines. We found that expression of miR-574-3p was induced in the lung cancer cell line A549 by X-ray irradiation. Overexpression of miR-574-3p caused delayed growth in A549 cells. A predicted target site was detected in the 3'-untranslated region of the enhancer of the rudimentary homolog (ERH) gene, and transfected cells showed an interaction between the luciferase reporter containing the target sequences and miR-574-3p. Overexpression of miR-574-3p suppressed ERH protein production and delayed cell growth. This delay was confirmed by knockdown of ERH expression. Our study suggests that miR-574-3p may contribute to the regulation of the cell cycle in response to X-ray irradiation via suppression of ERH protein production. This SuperSeries is composed of the SubSeries listed below. Refer to individual Series

Project description:Human pluripotent stem cells hold great potential for regenerative medicine, but existing cell types have imitations. Human embryonic stem cells derived from fertilized embryos (IVF-ESCs) are considered the “gold standard”, but are allogeneic to potential recipients. Autologous induced pluripotent stem cells (iPSCs) can be produced from somatic cells by forced expression of pluripotency-associated factors, but are prone to genetic and epigenetic aberrations. To determine whether accumulation of such aberrations is intrinsic to somatic cell reprogramming, or secondary to the reprogramming method, we employed an alternative approach by somatic cell nuclear transfer (SCNT). SCNT-based reprogramming to NT-ESCs is mediated by factors present in oocyte’s cytoplasm, thus mimicking early embryogenesis. We generated genetically matched pluripotent stem cells and conducted genome-wide genetic, epigenetic and transcriptional analyses. We discovered that unlike iPSCs, NT-ESCs have a low burden of de novo copy number variations (CNVs), reflecting superior maintenance of genetic stability. Moreover, DNA methylation and transcriptome profiles of NT-ESCs corresponded closely to those of IVF-ESCs. In contrast, iPSCs harbored methylation abnormalities including residual CpG methylation typical of parental fibroblasts, suggesting incomplete reprogramming. We conclude that human somatic cells can be faithfully reprogrammed to pluripotency by SCNT with the potential to satisfy the clinical requirements for cell replacement therapies. Bisulphite converted DNAs of two IVF-ESCs, two sendai produced iPSC lines, two retro-virus produced iPSC lines, four NT-ESCs, and the parental fibroblast were hybridized to the Illumina Infinium HumanMethylation 450K Beadchip