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1
Nitric oxide signaling is disrupted in the yeast model for Batten disease.在巴滕病的酵母模型中,一氧化氮信号传导被破坏。
Mol Biol Cell. 2007 Jul;18(7):2755-67. doi: 10.1091/mbc.e06-11-1053. Epub 2007 May 2.
2
Absence of Btn1p in the yeast model for juvenile Batten disease may cause arginine to become toxic to yeast cells.在青少年型巴滕病酵母模型中缺乏Btn1p可能会导致精氨酸对酵母细胞产生毒性。
Hum Mol Genet. 2007 May 1;16(9):1007-16. doi: 10.1093/hmg/ddm046. Epub 2007 Mar 6.
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A role in vacuolar arginine transport for yeast Btn1p and for human CLN3, the protein defective in Batten disease.酵母Btn1p和人类CLN3(巴顿病中存在缺陷的蛋白质)在液泡精氨酸转运中的作用。
Proc Natl Acad Sci U S A. 2003 Dec 23;100(26):15458-62. doi: 10.1073/pnas.2136651100. Epub 2003 Dec 5.
4
Action of BTN1, the yeast orthologue of the gene mutated in Batten disease.BTN1的作用,Batten病中发生突变的基因在酵母中的同源物。
Nat Genet. 1999 May;22(1):55-8. doi: 10.1038/8861.
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Investigation of Batten disease with the yeast Saccharomyces cerevisiae.利用酿酒酵母对巴滕病进行研究。
Mol Genet Metab. 1999 Apr;66(4):314-9. doi: 10.1006/mgme.1999.2820.
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A yeast model for the study of Batten disease.用于研究巴滕病的酵母模型。
Proc Natl Acad Sci U S A. 1998 Jun 9;95(12):6915-8. doi: 10.1073/pnas.95.12.6915.
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BTN1, the Saccharomyces cerevisiae homolog to the human Batten disease gene, is involved in phospholipid distribution.BTN1,酿酒酵母与人脑苷脂沉积病基因的同源物,参与磷脂分布。
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Phenotypic reversal of the btn1 defects in yeast by chloroquine: a yeast model for Batten disease.氯喹对酵母中btn1缺陷的表型逆转:巴顿病的酵母模型
Proc Natl Acad Sci U S A. 1999 Sep 28;96(20):11341-5. doi: 10.1073/pnas.96.20.11341.
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pH-dependent localization of Btn1p in the yeast model for Batten disease.pH 依赖性定位 Batten 病酵母模型中的 Btn1p。
Dis Model Mech. 2011 Jan;4(1):120-5. doi: 10.1242/dmm.006114. Epub 2010 Oct 19.
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btn1, the Schizosaccharomyces pombe homologue of the human Batten disease gene CLN3, regulates vacuole homeostasis.btn1是人类巴顿病基因CLN3在粟酒裂殖酵母中的同源物,它调节液泡稳态。
J Cell Sci. 2005 Dec 1;118(Pt 23):5525-36. doi: 10.1242/jcs.02656. Epub 2005 Nov 15.

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Mitochondria-Targeted Curcumin: A Potent Antibacterial Agent against Methicillin-Resistant with a Possible Intracellular ROS Accumulation as the Mechanism of Action.线粒体靶向姜黄素:一种针对耐甲氧西林金黄色葡萄球菌的强效抗菌剂,可能通过细胞内活性氧积累作为作用机制。
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Amino Acids. 2023 Feb;55(2):215-233. doi: 10.1007/s00726-022-03220-x. Epub 2022 Dec 1.
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Loss of CLN3, the gene mutated in juvenile neuronal ceroid lipofuscinosis, leads to metabolic impairment and autophagy induction in retinal pigment epithelium.CLN3 基因的缺失是少年神经元蜡样脂褐质沉积症的致病基因,会导致视网膜色素上皮的代谢损伤和自噬诱导。
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Protective Effects of Arginine on Saccharomyces cerevisiae Against Ethanol Stress.精氨酸对酿酒酵母抵抗乙醇胁迫的保护作用。
Sci Rep. 2016 Aug 10;6:31311. doi: 10.1038/srep31311.
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Fibrates inhibit the apoptosis of Batten disease lymphoblast cells via autophagy recovery and regulation of mitochondrial membrane potential.贝特类药物通过自噬恢复和线粒体膜电位调节来抑制巴滕病淋巴母细胞的凋亡。
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Acrolein-Induced Oxidative Stress and Cell Death Exhibiting Features of Apoptosis in the Yeast Saccharomyces cerevisiae Deficient in SOD1.在缺乏超氧化物歧化酶1(SOD1)的酿酒酵母中,丙烯醛诱导的氧化应激和细胞死亡呈现出凋亡特征。
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本文引用的文献

1
Absence of Btn1p in the yeast model for juvenile Batten disease may cause arginine to become toxic to yeast cells.在青少年型巴滕病酵母模型中缺乏Btn1p可能会导致精氨酸对酵母细胞产生毒性。
Hum Mol Genet. 2007 May 1;16(9):1007-16. doi: 10.1093/hmg/ddm046. Epub 2007 Mar 6.
2
An atypical active cell death process underlies the fungicidal activity of ciclopirox olamine against the yeast Saccharomyces cerevisiae.一种非典型的细胞主动死亡过程是环吡酮胺对酿酒酵母的杀真菌活性的基础。
FEMS Yeast Res. 2007 May;7(3):404-12. doi: 10.1111/j.1567-1364.2006.00188.x. Epub 2007 Jan 19.
3
Metacaspase activity of Arabidopsis thaliana is regulated by S-nitrosylation of a critical cysteine residue.拟南芥的 metacaspase 活性受一个关键半胱氨酸残基的 S-亚硝基化作用调控。
J Biol Chem. 2007 Jan 12;282(2):1352-8. doi: 10.1074/jbc.M608931200. Epub 2006 Nov 16.
4
Mitochondrial cytochrome oxidase produces nitric oxide under hypoxic conditions: implications for oxygen sensing and hypoxic signaling in eukaryotes.线粒体细胞色素氧化酶在缺氧条件下产生一氧化氮:对真核生物中氧感知和缺氧信号传导的影响。
Cell Metab. 2006 Apr;3(4):277-87. doi: 10.1016/j.cmet.2006.02.011.
5
Saccharomyces cerevisiae lacking Btn1p modulate vacuolar ATPase activity to regulate pH imbalance in the vacuole.缺乏Btn1p的酿酒酵母调节液泡ATP酶活性以调节液泡中的pH失衡。
J Biol Chem. 2006 Apr 14;281(15):10273-80. doi: 10.1074/jbc.M510625200. Epub 2006 Jan 18.
6
Defective lysosomal arginine transport in juvenile Batten disease.青少年型贝敦氏病中溶酶体精氨酸转运缺陷。
Hum Mol Genet. 2005 Dec 1;14(23):3759-73. doi: 10.1093/hmg/ddi406. Epub 2005 Oct 26.
7
Physiological regulation of yeast cell death in multicellular colonies is triggered by ammonia.多细胞菌落中酵母细胞死亡的生理调节由氨触发。
J Cell Biol. 2005 Jun 6;169(5):711-7. doi: 10.1083/jcb.200410064.
8
The intimate relation between nitric oxide and superoxide in apoptosis and cell survival.一氧化氮与超氧化物在细胞凋亡和细胞存活中的密切关系。
Antioxid Redox Signal. 2005 Mar-Apr;7(3-4):497-507. doi: 10.1089/ars.2005.7.497.
9
Yeast flavohemoglobin, a nitric oxide oxidoreductase, is located in both the cytosol and the mitochondrial matrix: effects of respiration, anoxia, and the mitochondrial genome on its intracellular level and distribution.酵母黄素血红蛋白,一种一氧化氮氧化还原酶,存在于细胞质和线粒体基质中:呼吸作用、缺氧及线粒体基因组对其细胞内水平和分布的影响。
J Biol Chem. 2005 Mar 4;280(9):7645-53. doi: 10.1074/jbc.M411478200. Epub 2004 Dec 20.
10
Regulation of programmed cell death in neuronal cells by nitric oxide.一氧化氮对神经元细胞程序性细胞死亡的调节
In Vivo. 2004 May-Jun;18(3):367-76.

在巴滕病的酵母模型中,一氧化氮信号传导被破坏。

Nitric oxide signaling is disrupted in the yeast model for Batten disease.

作者信息

Osório Nuno S, Carvalho Agostinho, Almeida Agostinho J, Padilla-Lopez Sérgio, Leão Cecília, Laranjinha João, Ludovico Paula, Pearce David A, Rodrigues Fernando

机构信息

Life and Health Sciences Research Institute ICVS, School of Health Sciences, University of Minho, 4710 Braga, Portugal.

出版信息

Mol Biol Cell. 2007 Jul;18(7):2755-67. doi: 10.1091/mbc.e06-11-1053. Epub 2007 May 2.

DOI:10.1091/mbc.e06-11-1053
PMID:17475770
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1924819/
Abstract

The juvenile form of neuronal ceroid lipofuscinoses (JNCLs), or Batten disease, results from mutations in the CLN3 gene, and it is characterized by the accumulation of lipopigments in the lysosomes of several cell types and by extensive neuronal death. We report that the yeast model for JNCL (btn1-Delta) that lacks BTN1, the homologue to human CLN3, has increased resistance to menadione-generated oxidative stress. Expression of human CLN3 complemented the btn1-Delta phenotype, and equivalent Btn1p/Cln3 mutations correlated with JNCL severity. We show that the previously reported decreased levels of L-arginine in btn1-Delta limit the synthesis of nitric oxide (.NO) in both physiological and oxidative stress conditions. This defect in .NO synthesis seems to suppress the signaling required for yeast menadione-induced apoptosis, thus explaining btn1-Delta phenotype of increased resistance. We propose that in JNCL, a limited capacity to synthesize .NO directly caused by the absence of Cln3 function may contribute to the pathology of the disease.

摘要

青少年型神经元蜡样脂褐质沉积症(JNCLs),即巴滕病,是由CLN3基因突变引起的,其特征是几种细胞类型的溶酶体中脂色素积累以及广泛的神经元死亡。我们报道,缺乏人类CLN3同源物BTN1的JNCL酵母模型(btn1-Δ)对甲萘醌产生的氧化应激具有增强的抗性。人类CLN3的表达补充了btn1-Δ的表型,并且等效的Btn1p/Cln3突变与JNCL严重程度相关。我们表明,先前报道的btn1-Δ中L-精氨酸水平降低在生理和氧化应激条件下均限制了一氧化氮(·NO)的合成。这种·NO合成缺陷似乎抑制了酵母甲萘醌诱导的细胞凋亡所需的信号传导,从而解释了btn1-Δ增强抗性的表型。我们提出,在JNCL中,由于缺乏Cln3功能而直接导致的·NO合成能力受限可能促成了该疾病的病理过程。