RNA editing by adensosine deaminases is a widespread mechanism to alter genetic information in metazoa. In addition to modifications in non-coding regions, editing contributes to diversification of protein function, in analogy to alternative splicing. However, although splicing programs respond to external signals, facilitating fine tuning and homeostasis of cellular functions, a similar regulation has not been described for RNA editing. Here, we show that the AMPA receptor R/G editing site is dynamically regulated in the hippocampus in response to activity. These changes are bi-directional, reversible and correlate with levels of the editase Adar2. This regulation is observed in the CA1 hippocampal subfield but not in CA3 and is thus subfield/celltype-specific. Moreover, alternative splicing of the flip/flop cassette downstream of the R/G site is closely linked to the editing state, which is regulated by Ca(2+). Our data show that A-to-I RNA editing has the capacity to tune protein function in response to external stimuli

Ales Balik

Altschul

Andrew C. Penn

Aruscavage

Bass

Birney

Bratt

Brorson

Coleman

Daniel

Darty

Dawson

de la Mata

Feldmeyer

Feng

Fisahn

Gahwiler

Gainey

Gallo

Goodman

Greger

Gurevich

Hamada

Hideyama

Higuchi

Hoopengardner

Hundley

Ingo H. Greger

Jepson

Katoh

Kent

Lein

Lomeli

Maas

Marcucci

Palladino

Paul

Peng

Penn

Pozo

Rosenthal

Rueter

Ryman

Sanjana

Schoft

Seeburg

Sommer

Stefl

Tariq

Toth

Traynelis

Turrigiano

Valente

Venkatesh

Wang

Witter

Zsofia Nemoda

Nucleic Acids Research

English

PubMed

Crossref

Activity-regulated RNA editing in select neuronal subfields in hippocampus

Ales Balik (5069927)

Andrew Penn (4461826)

Zsofia Nemoda (689604)

Ingo H Greger (16224008)

Sussex Research Online

RNA editing by adensosine deaminases is a wide-spread mechanism to alter genetic information in metazoa. In addition to modifications in non-coding regions, editing contributes to diversification of protein function, in analogy to alternative splicing. However, although splicing programs respond to external signals, facilitating fine tuning and homeo-stasis of cellular functions, a similar regulation has not been described for RNA editing. Here, we show that the AMPA receptor R/G editing site is dynamic-ally regulated in the hippocampus in response to activity. These changes are bi-directional, reversible and correlate with levels of the editase Adar2. This regulation is observed in the CA1 hippocampal subfield but not in CA3 and is thus subfield/ celltype-specific. Moreover, alternative splicing of the flip/flop cassette downstream of the R/G site is closely linked to the editing state, which is regulated by Ca2+. Our data show that A-to-I RNA editing has the capacity to tune protein function in response to external stimuli

CiteSeerX

A CaMK IV responsive RNA element mediates depolarization-induced alternative splicing of ion channels.

A distant cis acting intronic element induces site-selective RNA editing.

A novel RNA pentaloop fold involved in targeting ADAR2.

A phylogenetic analysis reveals an unusual sequence conservation within introns involved in RNA editing.

A-to-I pre-mRNA editing in Drosophila is primarily involved in adult nervous system function and integrity.

A-to-I RNA editing and human disease.

A-to-I RNA editing: effects on proteins key to neural excitability.

Activity-dependent A-to-I RNA editing in rat cortical neurons.

Activity-dependent scaling of quantal amplitude in neocortical neurons.

ADAR editing in double-stranded UTRs and other noncoding RNA sequences.

ADAR2-dependent RNA editing of AMPA receptor subunit GluR2 determines vulnerability of neurons in forebrain ischemia.

Afferent-speciﬁc innervation of two distinct AMPA receptor subtypes on single hippocampal interneurons.

Altered RNA editing in mice lacking ADAR2 autoregulation.

AMPA receptor tetramerization is mediated by Q/R editing.

An ADAR that edits transcripts encoding ion channel subunits functions as a dimer.

An overview of Ensembl.

Anatomical organization of the parahippocampalhippocampal network.

BLAT–the BLAST-like alignment tool.

Cholinergic induction of network oscillations at 40 Hz in the hippocampus in vitro.

Comprehensive analysis of RNA-Seq data reveals extensive RNA editing in a human transcriptome.

Control of kinetic properties of AMPA receptor channels by nuclear RNA editing.

Depolarization and CaM kinase IV modulate NMDA receptor splicing through two essential RNA elements.

Developmentally regulated, combinatorial RNA processing modulates AMPA receptor biogenesis.

editing by ADAR2 with opposing effects.

Editing of glutamate receptor subunit B pre-mRNA by splice-site variants of interferon-inducible double-stranded RNA-speciﬁc adenosine deaminase ADAR1.

Flip and ﬂop: a cell-speciﬁc functional switch in glutamate-operated channels of the CNS.

Gapped BLAST and PSI-BLAST: a new generation of protein database search programs.

Gating motions underlie AMPA receptor secretion from the endoplasmic reticulum.

Genome-wide atlas of gene expression in the adult mouse brain.

Glutamate receptor ion channels: structure, regulation, and function.

Improvement in the accuracy of multiple sequence alignment program MAFFT.

Improving the accuracy of predicting secondary structure for aligned RNA sequences.

Induced loss of ADAR2 engenders slow death of motor neurons from Q/R site-unedited GluR2.

Inosine exists in mRNA at tissue-speciﬁc levels and is most abundant in brain mRNA.

Isoform-speciﬁc early trafﬁcking of AMPA receptor ﬂip and ﬂop variants.

Ligandbinding domain determines endoplasmic reticulum exit of AMPA receptors.

Modulation of serotonin 2C receptor editing by sustained changes in serotonergic neurotransmission.

Molecular determinants of AMPA receptor subunit assembly.

Nervous system targets of RNA editing identiﬁed by comparative genomics.

Neurological dysfunctions in mice expressing different levels of the Q/R site-unedited AMPAR subunit GluR-B.

Neuronal regulation of alternative pre-mRNA splicing.

On simultaneous conﬁdence intervals for multinomial proportions.

Organotypic monolayer cultures of nervous tissue.

Point mutation in an AMPA receptor gene rescues lethality in mice deﬁcient in the RNA-editing enzyme ADAR2.

Profound downregulation of the RNA editing enzyme ADAR2 in ALS spinal motor neurons.

Regulation of alternative splicing by RNA editing.

Regulation of glutamate receptor B pre-mRNA splicing by RNA editing.

Regulation of ion channel/ neurotransmitter receptor function by RNA editing.

Requirement of the RNA editing deaminase ADAR1 gene for embryonic erythropoiesis.

RNA binding-independent dimerization of adenosine deaminases acting on RNA and dominant negative effects of nonfunctional subunits on dimer functions.

RNA editing by adenosine deaminases that act on RNA.

RNA editing in brain controls a determinant of ion ﬂow in glutamate-gated channels.

RNA editing in regulating gene expression in the brain.

RNA editing of AMPA receptor subunit GluR-B: a base-paired intron-exon structure determines position and efﬁciency.

RNA polymerase II elongation at the crossroads of transcription and alternative splicing.

Selective expression of heteromeric AMPA receptors driven by ﬂip-ﬂop differences.

Steric antisense inhibition of AMPA receptor Q/R editing reveals tight coupling to intronic editing sites and splicing.

Structure and sequence determinants required for the RNA editing of ADAR2 substrates.

Survey of allelic expression using EST mining.

Survey sequencing and comparative analysis of the elephant shark (Callorhinchus milii) genome.

Synaptic scaling requires the

The C-terminal domain of RNA Pol II helps ensure that editing precedes splicing of the GluR-B transcript.

The role of RNA editing in controlling glutamate receptor channel properties.

The self-tuning neuron: synaptic scaling of excitatory synapses.

The solution structure of the ADAR2 dsRBM-RNA complex reveals a sequence-speciﬁc readout of the minor groove.

Transcript diversiﬁcation in the nervous system: A to I RNA editing in CNS function and disease development.

Unraveling mechanisms of homeostatic synaptic plasticity.

VARNA: Interactive drawing and editing of the RNA secondary structure.

Activity-regulated RNA editing in select neuronal subfields in hippocampus

Abstract

Similar works

Full text

Available Versions

Crossref

Sussex Research Online

CiteSeerX