Benjamin Soibam scite author profile

MicroRNAs (miRNAs) are short, non-coding RNAs that target and silence protein coding genes through 3-UTR elements. Evidence increasingly assigns an immunosuppressive role for miRNAs in immunity, but relatively few miRNAs have been studied, and an overall understanding of the importance of these regulatory transcripts in complex in vivo systems is lacking.Here we have applied multiple technologies to globally analyze miRNA expression and function in allergic lung disease, an experimental model of asthma. Deep sequencing and microarray analyses of the mouse lung short RNAome revealed numerous extant and novel miRNAs and other transcript classes. Similar to mRNAs, lung miRNA expression changed dynamically during the transition from the naive to the allergic state, suggesting numerous functional relationships. A possible role for miRNA editing in altering the lung mRNA target repertoire was also identified. Multiple members of the highly conserved let-7 miRNA family were the most abundant lung miRNAs, and we confirmed in vitro that interleukin 13 (IL-13), a cytokine essential for expression for allergic lung disease, is regulated by mmulet-7a. However, inhibition of let-7 miRNAs in vivo using a locked nucleic acid profoundly inhibited production of allergic cytokines and the disease phenotype. Our findings thus reveal unexpected complexity in the miRNAome underlying allergic lung disease and demonstrate a proinflammatory role for let-7 miRNAs. MicroRNAs (miRNAs)3 are short regulatory RNAs with the potential to target and suppress multiple genes across diverse signaling pathways comprising biologically meaningful networks. Consequently, miRNAs that are inappropriately expressed in the context of specific diseases are of particular interest as therapeutic targets if they can be shown to coordinate such networks. Initially transcribed as relatively long primary transcripts, pri-miRNAs are subsequently modified by the nuclear RNAses Drosha and Pasha to yield precursor miRNAs (pre-miRNAs) that are further processed by the cytoplasmic RNase III Dicer to form short double-stranded miR-miR* duplexes, one strand of which (miR) is then integrated into the RNA-induced silencing complex that includes the enzymes Dicer and Argonaute (Ago). The mature miRNAs (ϳ17-24 nt) direct the RNA-induced silencing complex to specific target sites located within the 3Ј-UTR of target genes. Once bound to target sites, miRNAs repress translation through mRNA decay, translational inhibition, and/or sequestration into processing bodies (1-3).Recent estimates indicate that over 60% of protein-coding genes carry 3Ј-UTR miRNA target sites, suggesting a role for miRNAs in the control of gene expression in diverse processes (4). Indeed, miRNAs have now been firmly linked to the regulation of early development (5), cell proliferation, and cell death (6); apoptosis and fat metabolism (7); and cell differentiation (8). In addition, studies of miRNA expression in chronic lymphocytic leukemia (9), colonic adenocarcinoma (10), Burkitt lymphoma, and cardiac ...

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The common marmoset genome provides insight into primate biology and evolution

Worley¹,

Warren²,

Rogers³

et al. 2014

Nat Genet

235

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A first analysis of the genome sequence of the common marmoset (Callithrix jacchus), assembled using traditional Sanger methods and Ensembl annotation, has permitted genomic comparison with apes and that old world monkeys and the identification of specific molecular features a rapid reproductive capacity partly due to may contribute to the unique biology of diminutive The common marmoset has prevalence of this dizygotic primate. twins. Remarkably, these twins share placental circulation and exchange hematopoietic stem cells in utero, resulting in adults that are hematopoietic chimeras. We observed positive selection or non-synonymous substitutions for genes encoding growth hormone / insulin-like growth factor (growth pathways), respiratory complex I (metabolic pathways), immunobiology, and proteases (reproductive and immunity pathways). In addition, both protein-coding and microRNA genes related to reproduction exhibit rapid sequence evolution. This New World monkey genome sequence enables significantly increased power for comparative analyses among available primate genomes and facilitates biomedical research application.

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miR-322/-503 cluster is expressed in the earliest cardiac progenitor cells and drives cardiomyocyte specification

Shen

Soibam

Benham

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Understanding the mechanisms of early cardiac fate determination may lead to better approaches in promoting heart regeneration. We used a mesoderm posterior 1 (Mesp1)-Cre/Rosa26-EYFP reporter system to identify microRNAs (miRNAs) enriched in early cardiac progenitor cells. Most of these miRNA genes bear MESP1-binding sites and active histone signatures. In a calcium transient-based screening assay, we identified miRNAs that may promote the cardiomyocyte program. An X-chromosome miRNA cluster, miR-322/-503, is the most enriched in the Mesp1 lineage and is the most potent in the screening assay. It is specifically expressed in the looping heart. Ectopic miR-322/-503 mimicking the endogenous temporal patterns specifically drives a cardiomyocyte program while inhibiting neural lineages, likely by targeting the RNA-binding protein CUG-binding protein Elav-like family member 1 (Celf1). Thus, early miRNAs in lineage-committed cells may play powerful roles in cell-fate determination by cross-suppressing other lineages. miRNAs identified in this study, especially miR-322/-503, are potent regulators of early cardiac fate.

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Open‐field arena boundary is a primary object of exploration for Drosophila

et al. 2012

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Drosophila adults, when placed into a novel open-field arena, initially exhibit an elevated level of activity followed by a reduced stable level of spontaneous activity and spend a majority of time near the arena edge, executing motions along the walls. In order to determine the environmental features that are responsible for the initial high activity and wall-following behavior exhibited during exploration, we examined wild-type and visually impaired mutants in arenas with different vertical surfaces. These experiments support the conclusion that the wall-following behavior of Drosophila is best characterized by a preference for the arena boundary, and not thigmotaxis or centrophobicity. In circular arenas, Drosophila mostly move in trajectories with low turn angles. Since the boundary preference could derive from highly linear trajectories, we further developed a simulation program to model the effects of turn angle on the boundary preference. In an hourglass-shaped arena with convex-angled walls that forced a straight versus wall-following choice, the simulation with constrained turn angles predicted general movement across a central gap, whereas Drosophila tend to follow the wall. Hence, low turn angled movement does not drive the boundary preference. Lastly, visually impaired Drosophila demonstrate a defect in attenuation of the elevated initial activity. Interestingly, the visually impaired w1118 activity decay defect can be rescued by increasing the contrast of the arena's edge, suggesting that the activity decay relies on visual detection of the boundary. The arena boundary is, therefore, a primary object of exploration for Drosophila.

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Benjamin Soibam

Proinflammatory Role for let-7 MicroRNAS in Experimental Asthma

The common marmoset genome provides insight into primate biology and evolution

miR-322/-503 cluster is expressed in the earliest cardiac progenitor cells and drives cardiomyocyte specification

Open‐field arena boundary is a primary object of exploration for Drosophila

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