Activity-dependent increase in β-amyloid precursor protein mRNA expression in neurons

Akiko Tabuchi; Asami Ishii; Mamoru Fukuchi; Sachiyo Kobayashi; Toshiharu Suzuki; Masaaki Tsuda

doi:10.1097/01.wnr.0000127140.54853.04

Activity-dependent increase in β-amyloid precursor protein mRNA expression in neurons

Akiko Tabuchi, Asami Ishii, Mamoru Fukuchi, Sachiyo Kobayashi, Toshiharu Suzuki, Masaaki Tsuda^*

^*この論文の責任著者

分子神経生物学研究室

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

2 被引用数 (Scopus)

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Although β-amyloid precursor protein (APP) has been suggested to play a role in neuronal survival and plasticity, the mRNA expression of APP has not been studied in terms of neuronal activity. In cultures of mouse cerebellar granule cells, we found that the levels of APP mRNA increased when a high concentration of potassium was present in the medium. A deprivation of membrane depolarization caused by lowering the K⁺ concentration decreased both mRNA expression and protein synthesis of APP. Increasing the concentration, however, restored mRNA expression, which was driven by the influx of Ca ²⁺ through L-type voltage-dependent calcium channels and mediated by de novo protein synthesis. Thus, APP mRNA expression is controlled in an activity-dependent manner in neurons.

本文言語	英語
ページ（範囲）	1329-1333
ページ数	5
ジャーナル	NeuroReport
巻	15
号	8
DOI	https://doi.org/10.1097/01.wnr.0000127140.54853.04
出版ステータス	出版済み - 2004/06/07

ASJC Scopus 主題領域

神経科学一般

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10.1097/01.wnr.0000127140.54853.04

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title = "Activity-dependent increase in β-amyloid precursor protein mRNA expression in neurons",

abstract = "Although β-amyloid precursor protein (APP) has been suggested to play a role in neuronal survival and plasticity, the mRNA expression of APP has not been studied in terms of neuronal activity. In cultures of mouse cerebellar granule cells, we found that the levels of APP mRNA increased when a high concentration of potassium was present in the medium. A deprivation of membrane depolarization caused by lowering the K+ concentration decreased both mRNA expression and protein synthesis of APP. Increasing the concentration, however, restored mRNA expression, which was driven by the influx of Ca 2+ through L-type voltage-dependent calcium channels and mediated by de novo protein synthesis. Thus, APP mRNA expression is controlled in an activity-dependent manner in neurons.",

keywords = "APP, Apoptosis, Calcium, Cerebellar granule cell, Membrane depolarization, β-Amyloid",

author = "Akiko Tabuchi and Asami Ishii and Mamoru Fukuchi and Sachiyo Kobayashi and Toshiharu Suzuki and Masaaki Tsuda",

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AU - Tabuchi, Akiko

AU - Ishii, Asami

AU - Fukuchi, Mamoru

AU - Kobayashi, Sachiyo

AU - Suzuki, Toshiharu

AU - Tsuda, Masaaki

PY - 2004/6/7

Y1 - 2004/6/7

N2 - Although β-amyloid precursor protein (APP) has been suggested to play a role in neuronal survival and plasticity, the mRNA expression of APP has not been studied in terms of neuronal activity. In cultures of mouse cerebellar granule cells, we found that the levels of APP mRNA increased when a high concentration of potassium was present in the medium. A deprivation of membrane depolarization caused by lowering the K+ concentration decreased both mRNA expression and protein synthesis of APP. Increasing the concentration, however, restored mRNA expression, which was driven by the influx of Ca 2+ through L-type voltage-dependent calcium channels and mediated by de novo protein synthesis. Thus, APP mRNA expression is controlled in an activity-dependent manner in neurons.

AB - Although β-amyloid precursor protein (APP) has been suggested to play a role in neuronal survival and plasticity, the mRNA expression of APP has not been studied in terms of neuronal activity. In cultures of mouse cerebellar granule cells, we found that the levels of APP mRNA increased when a high concentration of potassium was present in the medium. A deprivation of membrane depolarization caused by lowering the K+ concentration decreased both mRNA expression and protein synthesis of APP. Increasing the concentration, however, restored mRNA expression, which was driven by the influx of Ca 2+ through L-type voltage-dependent calcium channels and mediated by de novo protein synthesis. Thus, APP mRNA expression is controlled in an activity-dependent manner in neurons.

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KW - Apoptosis

KW - Calcium

KW - Cerebellar granule cell

KW - Membrane depolarization

KW - β-Amyloid

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Activity-dependent increase in β-amyloid precursor protein mRNA expression in neurons

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