Project description:This SuperSeries is composed of the following subset Series: GSE12011: Regulation of human endothelial gene expression by miR-126 GSE12012: Regulation of zebrafish endothelial gene expression by miR-126 Refer to individual Series

Project description:Regulation of endothelial gene expression by miR-126 in human and zebrafish

Project description:Regulation of human endothelial gene expression by miR-126

Project description:Development of gene expression signatures after knocking down of miR-132 in zebrafish

Project description:Expression data from early Zebrafish embryos after knockdown of mir-34

Project description:Raw sequence reads of miR-462/miR-731 knockdwon zebrafish embryos

Project description:Zebrafish: Estrogen induced gene expression

Project description:Fish, JE, Santoro, MM, Morton, SU, Yu, S, Yeh, RF, Wythe, JD, Ivey, KI, Bruneau, BG, Stainier, DYR, and Srivastava, D. (2008). miR-126 Regulates Angiogenic Signaling and Vascular Integrity. Developmental Cell 15, 272-284. Precise regulation of the formation, maintenance, and remodeling of the vasculature is required for normal development, tissue response to injury, and tumor progression. How specific microRNAs intersect with and modulate angiogenic signaling cascades is unknown. Here, we identified microRNAs that were enriched in endothelial cells derived from mouse embryonic stem (ES) cells and in developing mouse embryos. We found that miR-126 regulated the response of endothelial cells to VEGF. Additionally, knockdown of miR-126 in zebrafish resulted in loss of vascular integrity and hemorrhage during embryonic development. miR-126 functioned in part by directly repressing negative regulators of the VEGF pathway, including the Sprouty-related protein SPRED1 and phosphoinositol-3 kinase regulatory subunit 2 (PIK3R2/p85-β). Increased expression of Spred1 or inhibition of VEGF signaling in zebrafish resulted in defects similar to miR-126 knockdown. These findings illustrate that a single miRNA can regulate vascular integrity and angiogenesis, providing a new target for modulating vascular formation and function. Experiment Overall Design: To identify the genes regulated by miR-126 in vivo, flk1:GFP transgenic zebrafish embryos (which express GFP in the endothelium) were injected at the one-cell stage with 4 ng of two independent antisense morpholinos that block the processing of the miR-126 pri-cursor. At 48 hours post-fertilization, endothelial cells were isolated by fluorescence-activated cell sorting from flk1:GFP transgenic fish, and RNA was extracted. Arrays were performed on four biological replicates of control and two independent miR-126 morpholinos.

Project description:Fish, JE, Santoro, MM, Morton, SU, Yu, S, Yeh, RF, Wythe, JD, Ivey, KI, Bruneau, BG, Stainier, DYR, and Srivastava, D. (2008). miR-126 Regulates Angiogenic Signaling and Vascular Integrity. Developmental Cell 15, 272-284. Precise regulation of the formation, maintenance, and remodeling of the vasculature is required for normal development, tissue response to injury, and tumor progression. How specific microRNAs intersect with and modulate angiogenic signaling cascades is unknown. Here, we identified microRNAs that were enriched in endothelial cells derived from mouse embryonic stem (ES) cells and in developing mouse embryos. We found that miR-126 regulated the response of endothelial cells to VEGF. Additionally, knockdown of miR-126 in zebrafish resulted in loss of vascular integrity and hemorrhage during embryonic development. miR-126 functioned in part by directly repressing negative regulators of the VEGF pathway, including the Sprouty-related protein SPRED1 and phosphoinositol-3 kinase regulatory subunit 2 (PIK3R2/p85-?). Increased expression of Spred1 or inhibition of VEGF signaling in zebrafish resulted in defects similar to miR-126 knockdown. These findings illustrate that a single miRNA can regulate vascular integrity and angiogenesis, providing a new target for modulating vascular formation and function. Human umbilical vein endothelial cells, which express high levels of miR-126, were utilized to identify mRNA targets of miR-126. Cells were electroporated with 15 nmol of an antisense morpholino that blocks the processing of the miR-126 pri-cursor. A non-targeting morpholino (15 nmol) was used as a control. RNA was isolated 72 hr following electroporation and arrays were performed using Affymetrix Human Gene 1.0 ST arrays. Analysis was performed on three biological replicates of control morpholino and miR-126 antisense morpholino transfected cells

Project description:Zebrafish Mespaa regulates miR-430 expression during gastrulation and initiates cardiac laterality