Project description:Several members from microRNA 17-92 cluster, i.e. miR-19a, miR-19b and miR-20a, were found up-regulated in human epidermal keratinocytes at wound-edges compared to the intact skin; however their biological role in keratinocytes during wound repair has not been studied. To study the genes regulated by miR-19a, miR-19b and miR-20a, we transfected miRNA specific mimics, i.e. pre-miR-19a, pre-miR-19b or pre-miR-20a into human primary epidermal keratinocytes to overexpress them. We performed a global transcriptome analysis of keratinocytes upon overexpression of miR-19a or miR-19b or miR-20a using Affymetrix arrays.
Project description:Lung fibroblasts play a pivotal role in pulmonary fibrosis, a devastating lung diseases, by producing extracellular matrix. MicroRNAs (miRNAs) suppress a lot of genes posttranscriptionally, but the dynamics and the role of miRNAs in activated lung fibroblasts in fibrotic lung has been poorly understood. We found miR-19a, 19b and 20a subcluster expression increased in activated lung fibroblasts as the fibrosis progression. To elucidate whether fibroblast-specific intervention against miR-19a, 19b and 20a subcluster modulates pathogenic activation of lung fibroblasts in vivo, we intratracheally-transferred the subcluster-overexpressed fibroblasts into bleomycin-treated lungs and performed global transcriptome analysis.
Project description:The precise control of miR-17~92 microRNA (miRNA) is essential for normal development and overexpression of certain miRNAs from this cluster is oncogenic. Here we find the relative expression of the six miRNAs processed from the primary (pri-miR-17~92) transcript is dynamically regulated during embryonic stem cell differentiation. We identify a new miRNA biogenesis intermediate, termed ‘progenitor-miRNA’ (pro-miRNA), that is an efficient substrate for Microprocessor. An autoinhibitory 5’ RNA fragment is cleaved to generate pro-miRNA and selectively license Microprocessor-mediated production of pre-miR-17, -18a, -19a, 20a, and -19b. Using genetic, biochemical, and structural methods we define two complementary cis-regulatory repression domains required for the formation of this inhibitory RNA conformation. We find the endonuclease CPSF3 (CPSF73), and the Spliceosome-associated ISY1 are required for pro-miRNA biogenesis and expression of all miRNAs within the cluster except miR-92. Thus, developmentally regulated generation of pro-miRNA explains the posttranscriptional control of miR-17~92 expression in development. Illumina RNAseq in WT, dgcr8-/- and dicer-/- mESCs and small RNA seq in WT mESCs
Project description:We identified pathologically relevant miRs that exhibited abnormal VU expression and displayed their targets enriched explicitly in the VU gene signature. The biological function of these miRNAs in human epidermal keratinocytes or fibroblasts during wound repair remains unclear. To study the genes regulated by miR-96-5p, miR-218-5p, miR-424-5p, miR-450b-5p, miR-516b-5p or miR-7704, we transfected miRNA mimics into human primary epidermal keratinocytes or fibroblasts to overexpress respective miRNA expression. We performed a global transcriptome analysis of keratinocytes or fibroblasts upon miRNA overexpression using Affymetrix arrays.
Project description:The precise control of miR-17~92 microRNA (miRNA) is essential for normal development and overexpression of certain miRNAs from this cluster is oncogenic. Here we find the relative expression of the six miRNAs processed from the primary (pri-miR-17~92) transcript is dynamically regulated during embryonic stem cell differentiation. We identify a new miRNA biogenesis intermediate, termed ‘progenitor-miRNA’ (pro-miRNA), that is an efficient substrate for Microprocessor. An autoinhibitory 5’ RNA fragment is cleaved to generate pro-miRNA and selectively license Microprocessor-mediated production of pre-miR-17, -18a, -19a, 20a, and -19b. Using genetic, biochemical, and structural methods we define two complementary cis-regulatory repression domains required for the formation of this inhibitory RNA conformation. We find the endonuclease CPSF3 (CPSF73), and the Spliceosome-associated ISY1 are required for pro-miRNA biogenesis and expression of all miRNAs within the cluster except miR-92. Thus, developmentally regulated generation of pro-miRNA explains the posttranscriptional control of miR-17~92 expression in development.
Project description:miR-34a and miR-34c were found up-regulated at wound-edges of human venous ulcer compared to nomal wound and the intact skin; however their biological role in keratinocytes during wound repair has not been studied. To study the genes regulated by miR-34a and miR-34c, we transfected miR-34a and miR-34c mimic into human primary epidermal keratinocytes to overexpress them. We performed a global transcriptome analysis of keratinocytes upon overexpression of miR-34a or miR-34c using Affymetrix arrays.
Project description:<p>Transcription factor p63 is a key regulator of epidermal keratinocyte proliferation and differentiation. Mutations in the p63 DNA-binding domain are associated with Ectrodactyly Ectodermal Dysplasia Cleft Lip/Palate (EEC) syndrome. Underlying molecular mechanism of these mutations however remain unclear. Here we characterized the transcriptome and epigenome of p63 mutant keratinocytes derived from EEC patients. The transcriptome of p63 mutant keratinocytes deviated from the normal epidermal cell identity. Epigenomic analyses showed an altered enhancer landscape in p63 mutant keratinocytes contributed by loss of p63-bound active enhancers and by unexpected gain of enhancers. The gained enhancers were frequently bound by deregulated transcription factors such as RUNX1. Reversing RUNX1 overexpression partially rescued deregulated gene expression and the altered enhancer landscape. Our findings identify an unreported disease mechanism whereby mutant p63 rewires the enhancer landscape and affects epidermal cell identity, consolidating the pivotal role of p63 in controlling the enhancer landscape of epidermal keratinocytes.</p>