Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability

Gulayse Ince-Dunn; Hirotaka J. Okano; Kirk B. Jensen; Woong Yang Park; Ru Zhong; Jernej Ule; Aldo Mele; John J. Fak; Ching Wen Yang; Chaolin Zhang; Jong Yoo; Margaret Herre; Hideyuki Okano; Jeffrey L. Noebels; Robert B. Darnell

doi:10.1016/j.neuron.2012.07.009

Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability

Gulayse Ince-Dunn
, Hirotaka J. Okano
, Kirk B. Jensen
, Woong Yang Park
, Ru Zhong
, Jernej Ule
, Aldo Mele
, John J. Fak
, Ching Wen Yang
, Chaolin Zhang
, Jong Yoo
, Margaret Herre
, Hideyuki Okano
, Jeffrey L. Noebels
, Robert B. Darnell

Rockefeller University
Keio University
Baylor College of Medicine

Research output: Contribution to journal › Article › peer-review

173 Scopus citations

Abstract

The paraneoplastic neurologic disorders target several families of neuron-specific RNA binding proteins (RNABPs), revealing that there are unique aspects of gene expression regulation in the mammalian brain. Here, we used HITS-CLIP to determine robust binding sites targeted by the neuronal Elav-like (nElavl) RNABPs. Surprisingly, nElav protein binds preferentially to GU-rich sequences in vivo and in vitro, with secondary binding to AU-rich sequences. nElavl null mice were used to validate the consequence of these binding events in the brain, demonstrating that they bind intronic sequences in a position dependent manner to regulate alternative splicing and to 3@UTR sequences to regulate mRNA levels. These controls converge on the glutamate synthesis pathway in neurons; nElavl proteins are required to maintain neurotransmitter glutamate levels, and the lack of nElavl leads to spontaneous epileptic seizure activity. The genome-wide analysis of nElavl targets reveals that one function of neuron-specific RNABPs is to control excitation-inhibition balance in the brain.

Original language	English
Pages (from-to)	1067-1080
Number of pages	14
Journal	Neuron
Volume	75
Issue number	6
DOIs	https://doi.org/10.1016/j.neuron.2012.07.009
State	Published - 20 Sep 2012
Externally published	Yes

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Ince-Dunn, G., Okano, H. J., Jensen, K. B., Park, W. Y., Zhong, R., Ule, J., Mele, A., Fak, J. J., Yang, C. W., Zhang, C., Yoo, J., Herre, M., Okano, H., Noebels, J. L., & Darnell, R. B. (2012). Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability. Neuron, 75(6), 1067-1080. https://doi.org/10.1016/j.neuron.2012.07.009

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title = "Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability",

abstract = "The paraneoplastic neurologic disorders target several families of neuron-specific RNA binding proteins (RNABPs), revealing that there are unique aspects of gene expression regulation in the mammalian brain. Here, we used HITS-CLIP to determine robust binding sites targeted by the neuronal Elav-like (nElavl) RNABPs. Surprisingly, nElav protein binds preferentially to GU-rich sequences in vivo and in vitro, with secondary binding to AU-rich sequences. nElavl null mice were used to validate the consequence of these binding events in the brain, demonstrating that they bind intronic sequences in a position dependent manner to regulate alternative splicing and to 3@UTR sequences to regulate mRNA levels. These controls converge on the glutamate synthesis pathway in neurons; nElavl proteins are required to maintain neurotransmitter glutamate levels, and the lack of nElavl leads to spontaneous epileptic seizure activity. The genome-wide analysis of nElavl targets reveals that one function of neuron-specific RNABPs is to control excitation-inhibition balance in the brain.",

author = "Gulayse Ince-Dunn and Okano, \{Hirotaka J.\} and Jensen, \{Kirk B.\} and Park, \{Woong Yang\} and Ru Zhong and Jernej Ule and Aldo Mele and Fak, \{John J.\} and Yang, \{Ching Wen\} and Chaolin Zhang and Jong Yoo and Margaret Herre and Hideyuki Okano and Noebels, \{Jeffrey L.\} and Darnell, \{Robert B.\}",

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Ince-Dunn, G, Okano, HJ, Jensen, KB, Park, WY, Zhong, R, Ule, J, Mele, A, Fak, JJ, Yang, CW, Zhang, C, Yoo, J, Herre, M, Okano, H, Noebels, JL & Darnell, RB 2012, 'Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability', Neuron, vol. 75, no. 6, pp. 1067-1080. https://doi.org/10.1016/j.neuron.2012.07.009

TY - JOUR

T1 - Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability

AU - Ince-Dunn, Gulayse

AU - Okano, Hirotaka J.

AU - Jensen, Kirk B.

AU - Park, Woong Yang

AU - Zhong, Ru

AU - Ule, Jernej

AU - Mele, Aldo

AU - Fak, John J.

AU - Yang, Ching Wen

AU - Zhang, Chaolin

AU - Yoo, Jong

AU - Herre, Margaret

AU - Okano, Hideyuki

AU - Noebels, Jeffrey L.

AU - Darnell, Robert B.

PY - 2012/9/20

Y1 - 2012/9/20

N2 - The paraneoplastic neurologic disorders target several families of neuron-specific RNA binding proteins (RNABPs), revealing that there are unique aspects of gene expression regulation in the mammalian brain. Here, we used HITS-CLIP to determine robust binding sites targeted by the neuronal Elav-like (nElavl) RNABPs. Surprisingly, nElav protein binds preferentially to GU-rich sequences in vivo and in vitro, with secondary binding to AU-rich sequences. nElavl null mice were used to validate the consequence of these binding events in the brain, demonstrating that they bind intronic sequences in a position dependent manner to regulate alternative splicing and to 3@UTR sequences to regulate mRNA levels. These controls converge on the glutamate synthesis pathway in neurons; nElavl proteins are required to maintain neurotransmitter glutamate levels, and the lack of nElavl leads to spontaneous epileptic seizure activity. The genome-wide analysis of nElavl targets reveals that one function of neuron-specific RNABPs is to control excitation-inhibition balance in the brain.

AB - The paraneoplastic neurologic disorders target several families of neuron-specific RNA binding proteins (RNABPs), revealing that there are unique aspects of gene expression regulation in the mammalian brain. Here, we used HITS-CLIP to determine robust binding sites targeted by the neuronal Elav-like (nElavl) RNABPs. Surprisingly, nElav protein binds preferentially to GU-rich sequences in vivo and in vitro, with secondary binding to AU-rich sequences. nElavl null mice were used to validate the consequence of these binding events in the brain, demonstrating that they bind intronic sequences in a position dependent manner to regulate alternative splicing and to 3@UTR sequences to regulate mRNA levels. These controls converge on the glutamate synthesis pathway in neurons; nElavl proteins are required to maintain neurotransmitter glutamate levels, and the lack of nElavl leads to spontaneous epileptic seizure activity. The genome-wide analysis of nElavl targets reveals that one function of neuron-specific RNABPs is to control excitation-inhibition balance in the brain.

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JO - Neuron

JF - Neuron

IS - 6

ER -

Neuronal Elav-like (Hu) Proteins Regulate RNA Splicing and Abundance to Control Glutamate Levels and Neuronal Excitability

Abstract

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