谷氨酰胺抑制氨诱导的大鼠纹状体中cGMP的积累，限制了一氧化氮合成所需的精氨酸供应。

Glutamine inhibits ammonia-induced accumulation of cGMP in rat striatum limiting arginine supply for NO synthesis.

作者信息

Hilgier Wojciech, Freśko Inez, Klemenska Emilia, Beresewicz Andrzej, Oja Simo S, Saransaari Pirjo, Albrecht Jan, Zielińska Magdalena

机构信息

Department of Neurotoxicology, Mossakowski Medical Research Centre, Polish Academy of Sciences, Warsaw, Poland.

出版信息

Neurobiol Dis. 2009 Jul;35(1):75-81. doi: 10.1016/j.nbd.2009.04.004. Epub 2009 Apr 18.

DOI:10.1016/j.nbd.2009.04.004

PMID:19379813

Abstract

Brain L-glutamine (Gln) accumulation and increased activity of the NO/cGMP pathway are immediate consequences of acute exposure to ammonia. This study tested whether excess Gln may influence NO and/or cGMP synthesis. Intrastriatal administration of the glutaminase inhibitor 6-diazo-5-oxo-L-norleucine or the system A-specific Gln uptake inhibitor methylaminoisobutyrate increased microdialysate Gln concentration and reduced basal and ammonia-induced NO and cGMP accumulation. Gln applied in vivo (via microdialysis) or in vitro (to rat brain cortical slices) reduced NO and cGMP accumulation in the presence and/or absence of ammonia, but not cGMP synthesis induced by the NO donor sodium nitroprusside. Attenuation of cGMP synthesis by Gln was prevented by administration of L-arginine (Arg). The L-arginine co-substrates of y(+)LAT2 transport system, L-leucine and cyclo-leucine, mimicked the effect of exogenous Gln, suggesting that Gln limits Arg supply for NO synthesis by interfering with y+LAT2-mediated Arg uptake across the cell membrane.

摘要

脑内L-谷氨酰胺（Gln）的蓄积以及NO/cGMP途径活性的增加是急性氨暴露的直接后果。本研究检测了过量的Gln是否会影响NO和/或cGMP的合成。纹状体内注射谷氨酰胺酶抑制剂6-重氮-5-氧代-L-正亮氨酸或系统A特异性Gln摄取抑制剂甲基氨基异丁酸可提高微透析液中Gln的浓度，并减少基础状态下以及氨诱导的NO和cGMP的蓄积。体内（通过微透析）或体外（对大鼠脑皮质切片）应用Gln可在有和/或无氨的情况下减少NO和cGMP的蓄积，但不会减少由NO供体硝普钠诱导的cGMP合成。给予L-精氨酸（Arg）可防止Gln对cGMP合成的减弱作用。γ（+）LAT2转运系统的L-精氨酸共底物L-亮氨酸和环亮氨酸模拟了外源性Gln的作用，提示Gln通过干扰γ+LAT2介导的Arg跨细胞膜摄取来限制用于NO合成的Arg供应。

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谷氨酰胺抑制氨诱导的大鼠纹状体中cGMP的积累，限制了一氧化氮合成所需的精氨酸供应。

Glutamine inhibits ammonia-induced accumulation of cGMP in rat striatum limiting arginine supply for NO synthesis.

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