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本文引用的文献

1
Nitroxyl inhibits breast tumor growth and angiogenesis.硝酰基抑制乳腺肿瘤生长和血管生成。
Int J Cancer. 2008 Apr 15;122(8):1905-10. doi: 10.1002/ijc.23305.
2
Antioxidant actions of nitroxyl (HNO).硝酰(HNO)的抗氧化作用。
Free Radic Biol Med. 2007 Feb 15;42(4):482-91. doi: 10.1016/j.freeradbiomed.2006.11.015. Epub 2006 Nov 17.
3
Mechanism of pH-dependent decomposition of monoalkylamine diazeniumdiolates to form HNO and NO, deduced from the model compound methylamine diazeniumdiolate, density functional theory, and CBS-QB3 calculations.从模型化合物甲胺重氮二醇盐、密度泛函理论和CBS-QB3计算推导单烷基胺重氮二醇盐pH依赖性分解形成HNO和NO的机制。
Inorg Chem. 2006 Mar 20;45(6):2448-56. doi: 10.1021/ic051505z.
4
Comparison of the NO and HNO donating properties of diazeniumdiolates: primary amine adducts release HNO in Vivo.二氮烯二醇盐的一氧化氮和一氧化氢供体性质比较:伯胺加合物在体内释放一氧化氢。
J Med Chem. 2005 Dec 29;48(26):8220-8. doi: 10.1021/jm050151i.
5
N-hydroxyurea and acyl nitroso compounds as nitroxyl (HNO) and nitric oxide (NO) donors.N-羟基脲和酰基亚硝基化合物作为硝酰(HNO)和一氧化氮(NO)供体。
Curr Top Med Chem. 2005;5(7):665-73. doi: 10.2174/1568026054679362.
6
Donors of HNO.亚硝酸的供体
Curr Top Med Chem. 2005;5(7):649-64. doi: 10.2174/1568026054679290.
7
Nitroxyl (HNO): chemistry, biochemistry, and pharmacology.硝酰(HNO):化学、生物化学与药理学
Annu Rev Pharmacol Toxicol. 2005;45:335-55. doi: 10.1146/annurev.pharmtox.45.120403.095959.
8
Mechanism of aerobic decomposition of Angeli's salt (sodium trioxodinitrate) at physiological pH.安吉利盐(三氧二硝酸钠)在生理pH值下的需氧分解机制。
J Am Chem Soc. 2005 Jan 19;127(2):722-31. doi: 10.1021/ja045480z.
9
Chemistry of the diazeniumdiolates. O- versus N-alkylation of the RNH[N(O)NO](-) ion.二氮烯二醇盐的化学。RNH[N(O)NO](-)离子的O-烷基化与N-烷基化
J Am Chem Soc. 2004 Oct 13;126(40):12880-7. doi: 10.1021/ja031538i.
10
Mechanisms of HNO and NO production from Angeli's salt: density functional and CBS-QB3 theory predictions.安吉利盐产生HNO和NO的机制:密度泛函和CBS-QB3理论预测
J Am Chem Soc. 2004 Mar 31;126(12):3795-800. doi: 10.1021/ja0391614.

作为 pH 的函数,一种基于伯胺的重氮二羟酸盐的 HNO 和 NO 的释放。

HNO and NO release from a primary amine-based diazeniumdiolate as a function of pH.

机构信息

Department of Chemistry and Biochemistry, University of Arizona, Tucson, Arizona 85721, USA.

出版信息

Inorg Chem. 2011 Apr 18;50(8):3262-70. doi: 10.1021/ic101736e. Epub 2011 Mar 15.

DOI:10.1021/ic101736e
PMID:21405089
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3075328/
Abstract

The growing evidence that nitroxyl (HNO) has a rich pharmacological potential that differs from that of nitric oxide (NO) has intensified interest in HNO donors. Recently, the diazeniumdiolate (NONOate) based on isopropylamine (IPA/NO; Na[(CH(3))(2)CHNH(N(O)NO)]) was demonstrated to function under physiological conditions as an organic analogue to the commonly used HNO donor Angeli's salt (Na(2)N(2)O(3)). The decomposition mechanism of Angeli's salt is dependent on pH, with transition from an HNO to an NO donor occurring abruptly near pH 3. Here, pH is shown to also affect product formation from IPA/NO. Chemical analysis of HNO and NO production led to refinement of an earlier, quantum mechanically based prediction of the pH-dependent decomposition mechanisms of primary amine NONOates such as IPA/NO. Under basic conditions, the amine proton of IPA/NO is able to initiate decomposition to HNO by tautomerization to the nitroso nitrogen (N(2)). At lower pH, protonation activates a competing pathway to NO production. At pH 8, the donor properties of IPA/NO and Angeli's salt are demonstrated to be comparable, suggesting that at or above this pH, IPA/NO is primarily an HNO donor. Below pH 5, NO is the major product, while IPA/NO functions as a dual donor of HNO and NO at intermediate pH. This pH-dependent variability in product formation may prove useful in examination of the chemistry of NO and HNO. Furthermore, primary amine NONOates may serve as a tunable class of nitrogen oxide donor.

摘要

越来越多的证据表明,亚硝酰(HNO)具有与一氧化氮(NO)不同的丰富药理学潜力,这使得人们对 HNO 供体的兴趣日益浓厚。最近,基于异丙胺(IPA/NO;Na[(CH(3))(2)CHNH(N(O)NO)])的叠氮基二亚氨酸酯(NONOate)被证明在生理条件下作为常用 HNO 供体 Angeli 盐(Na(2)N(2)O(3))的有机类似物发挥作用。Angeli 盐的分解机制依赖于 pH 值,在 pH 值接近 3 时,HNO 向 NO 供体的转变突然发生。在这里,pH 值也被证明会影响 IPA/NO 的产物形成。对 HNO 和 NO 产生的化学分析导致对基于量子力学的早期预测进行了改进,该预测涉及伯胺 NONOates(如 IPA/NO)的 pH 依赖性分解机制。在碱性条件下,IPA/NO 的胺质子通过互变异构作用转化为亚硝酰氮(N(2)),能够引发 HNO 的分解。在较低的 pH 值下,质子化激活了一条竞争途径,导致 NO 的产生。在 pH 值为 8 时,IPA/NO 和 Angeli 盐的供体性质被证明是相当的,这表明在或高于该 pH 值时,IPA/NO 主要是 HNO 供体。在 pH 值低于 5 时,主要产物是 NO,而 IPA/NO 在中间 pH 值下作为 HNO 和 NO 的双重供体发挥作用。这种产物形成的 pH 依赖性可变性可能在考察 NO 和 HNO 的化学性质方面证明是有用的。此外,伯胺 NONOates 可能成为一种可调节的一氧化氮供体。