Kendra L. Furber scite author profile

The concept of competitive endogenous RNA (ceRNA) was first proposed by Salmena and colleagues. Evidence suggests that pseudogene RNAs can act as a ‘sponge’ through competitive binding of common miRNA, releasing or attenuating repression through sequestering miRNAs away from parental mRNA. In theory, ceRNAs refer to all transcripts such as mRNA, tRNA, rRNA, long non‐coding RNA, pseudogene RNA and circular RNA, because all of them may become the targets of miRNA depending on spatiotemporal situation. As binding of miRNA to the target RNA is not 100% complementary, it is possible that one miRNA can bind to multiple target RNAs and vice versa. All RNAs crosstalk through competitively binding to miRNA via miRNA response elements (MREs) contained within the RNA sequences, thus forming a complex regulatory network. The ratio of a subset of miRNAs to the corresponding number of MREs determines repression strength on a given mRNA translation or stability. An increase in pseudogene RNA level can sequester miRNA and release repression on the parental gene, leading to an increase in parental gene expression. A massive number of transcripts constitute a complicated network that regulates each other through this proposed mechanism, though some regulatory significance may be mild or even undetectable. It is possible that the regulation of gene and pseudogene expression occurring in this manor involves all RNAs bearing common MREs. In this review, we will primarily discuss how pseudogene transcripts regulate expression of parental genes via ceRNA network and biological significance of regulation.

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Vimentin-expressing proximal reactive astrocytes correlate with migration rather than proliferation following focal brain injury

Wang

Bekar

Furber

et al. 2004

Brain Research

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RNA-binding Protein Quaking Stabilizes Sirt2 mRNA during Oligodendroglial Differentiation

Thangaraj

Furber

Gan

et al. 2017

Journal of Biological Chemistry

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Myelination is controlled by timely expression of genes involved in the differentiation of oligodendrocyte precursor cells (OPCs) into myelinating oligodendrocytes (OLs). Sirtuin 2 (SIRT2), a NAD-dependent deacetylase, plays a critical role in OL differentiation by promoting both arborization and downstream expression of myelin-specific genes. However, the mechanisms involved in regulating SIRT2 expression during OL development are largely unknown. The RNA-binding protein quaking (QKI) plays an important role in myelination by post-transcriptionally regulating the expression of several myelin specific genes. In ) mutant mice, SIRT2 protein is severely reduced; however, it is not known whether these genes interact to regulate OL differentiation. Here, we report for the first time that QKI directly binds to mRNA via a common quaking response element (QRE) located in the 3' untranslated region (UTR) to control SIRT2 expression in OL lineage cells. This interaction is associated with increased stability and longer half-lives of and transcripts leading to increased accumulation of transcripts. Consistent with this, overexpression of promoted the expression of mRNA and protein. However, overexpression of the nuclear isoform promoted the expression of mRNA, but not SIRT2 protein, and delayed OL differentiation. These results suggest that the balance in the subcellular distribution and temporal expression of QKI isoforms control the availability of mRNA for translation. Collectively, our study demonstrates that QKI directly plays a crucial role in the post-transcriptional regulation and expression of to facilitate OL differentiation.

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Enhancement of the Ca2+-triggering steps of native membrane fusion via thiol-reactivity

2008

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Ca 2+ -triggered membrane fusion is the defining step of exocytosis. Isolated urchin cortical vesicles (CV) provide a stage-specific preparation to study the mechanisms by which Ca 2+ triggers the merger of two apposed native membranes. Thiol-reactive reagents that alkylate free sulfhydryl groups on proteins have been consistently shown to inhibit triggered fusion. Here, we characterize a novel effect of the alkylating reagent iodoacetamide (IA). IA was found to enhance the kinetics and Ca 2+ sensitivity of both CV-plasma membrane and CV-CV fusion. If Sr 2+ , a weak Ca 2+ mimetic, was used to trigger fusion, the potentiation was even greater than that observed for Ca 2+ , suggesting that IA acts at the Ca 2+ -sensing step of triggered fusion. Comparison of IA to other reagents indicates that there are at least two distinct thiol sites involved in the underlying fusion mechanism: one that regulates the efficiency of fusion and one that interferes with fusion competency.

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Identifying Critical Components of Native Ca²⁺‐triggered Membrane Fusion

Furber

Churchward

Rogasevskaia

et al. 2009

Annals of the New York Academy of Sciences

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Ca(2+)-triggered membrane fusion is the defining step of exocytosis. Despite realization that the fusion machinery must include lipids and proteins working in concert, only of late has work in the field focused more equally on both these components. Here we use isolated sea urchin egg cortical vesicles (CV), a stage-specific preparation of Ca(2+)-sensitive release-ready vesicles that enables the tight coupling of molecular and functional analyses necessary to dissect molecular mechanisms. The stalk-pore hypothesis proposes that bilayer merger proceeds rapidly via transient, high-negative curvature, intermediate membrane structures. Consistent with this, cholesterol, a major component of the CV membrane, contributes to a critical local negative curvature that supports formation of lipidic fusion intermediates. Following cholesterol depletion, structurally dissimilar lipids having intrinsic negative curvature greater than or equal to cholesterol recover the ability of CV to fuse but do not recover fusion efficiency (Ca(2+) sensitivity and kinetics). Conversely, cholesterol- and sphingomyelin-enriched microdomains regulate the efficiency of the fusion mechanism, presumably by contributing spatial and functional organization of other critical lipids and proteins at the fusion site. Critical proteins are thought to participate in Ca(2+) sensing, initiating membrane deformations, and facilitating fusion pore expansion. Capitalizing on a novel effect of the thiol-reactive reagent iodoacetamide (IA), potentiation of the Ca(2+) sensitivity and kinetics, a fluorescently tagged IA has been used to enhance fusion efficiency and simultaneously label the proteins involved. Isolation of cholesterol-enriched CV membrane fractions, using density gradient centrifugation, is being used to narrow the list of protein candidates potentially critical to the mechanism of fast Ca(2+)-triggered membrane fusion.

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Kendra L. Furber

Pseudogenes regulate parental gene expression via ceRNA network

Vimentin-expressing proximal reactive astrocytes correlate with migration rather than proliferation following focal brain injury

RNA-binding Protein Quaking Stabilizes Sirt2 mRNA during Oligodendroglial Differentiation

Enhancement of the Ca2+-triggering steps of native membrane fusion via thiol-reactivity

Identifying Critical Components of Native Ca²⁺‐triggered Membrane Fusion

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Kendra L. Furber

Pseudogenes regulate parental gene expression via ceRNA network

Vimentin-expressing proximal reactive astrocytes correlate with migration rather than proliferation following focal brain injury

RNA-binding Protein Quaking Stabilizes Sirt2 mRNA during Oligodendroglial Differentiation

Enhancement of the Ca2+-triggering steps of native membrane fusion via thiol-reactivity

Identifying Critical Components of Native Ca2+‐triggered Membrane Fusion

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Product

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Identifying Critical Components of Native Ca²⁺‐triggered Membrane Fusion