三唑并嘧啶硫亚甲基三唑硫醚衍生物的合成与生物活性

以2-巯基-5,7-二甲基-1,2,4-三唑并[1,5-a]嘧啶为原料,设计合成了10种含5,7-二甲基-1,2,4-三唑并[1,5-a]嘧啶环和1,2,4-三唑环的双杂环硫醚化合物,结构经MS、1H NMR进行表征.初步的生物活性测试表明,在50 μg/L质量浓度下,大部分化合物6对甜菜褐斑病菌表现出好的抑制效果,化合物6b、6e、6f、6g和6h抑制效果达到A级(≥90%).     

含三氟甲基均三唑衍生物的合成及结构表征

以3－三氟甲基－4－氨基－5－巯基－1,2,4－三唑为原料,在不同反应条件下与取代苯甲酸或芳醛缩合,得到15个含三氟甲基均三唑衍生物,利用元素分析,IR,^1H NMR和MS确定了这些化合物的组成与结构。     

三唑类化合物合成的新进展

本文概述了三唑类化合物合成的新进展，对三唑类化合物的主要合成反应作了介绍，通过采用箭头和增加中间过程，对反应历程作了描述。     

2-甲基-4,5-二硝基三唑-1-氧化物的合成及其结构表征

以乙二醛、甲基肼和盐酸羟胺为起始原料,经缩合、肟化得到中间体肟基甲腙;该中间体不经分离直接加入到硫酸铜-吡啶-水体系中,经缩合环化得到2-甲基三唑-1-氧化物(MTO);随后用混酸(硝酸+硫酸)硝化得到目标产物2-甲基-4,5-二硝基三唑-1-氧化物(DNMTO);初步探讨了环化反应的机理,研究了反应温度与时间等因素对硝化反应的影响,确定了最佳硝化反应条件.与此同时,利用红外光谱、核磁共振、质谱及元素分析等分析了中间产物和DNMTO的组成和结构.结果表明,目标产物的总收率为16%,纯度为99%;最佳硝化反应温度为100℃,最佳硝化反应时间为0.5h.     

4-甲基-5-硝基-1,2,3-连三唑的合成

以丙二酸二乙酯为原料,经水解、硝化得到关键中间体偕二硝基乙酸乙酯(2);2与乙醛、叠氮化钠缩合环化得到4-甲基-5-硝基-1,2,3-连三唑(3)。3的结构经NMR,IR和元素分析表征。初步探讨了硝化反应的反应历程,并对制备2的合成进行了工艺改进,发现以NaNO2-98%HNO3为硝化试剂的新方法,2的收率达62.1%,纯度93.1%。     

含三氟甲基均三唑环的Mannich碱的合成

以3-三氟甲基-4-氨基-5-巯基-1,2,4-三唑(1)为原料,与芳醛在冰醋酸中缩合得相应Schiff碱(2～5),(2～5)与各种仲胺和芳胺在室温下反应,制得24个新的Mannich碱(6～9),利用IR,^1HNMR、MS和元素分析确定了这些化合物的结构。     

5-乙氧羰基甲硫基-1,2,4-三唑席夫碱的合成及杀菌活性

以3-甲基-4-氨基-5-乙氧羰基甲硫基-1,2,4-三唑为原料,与取代芳醛合成9种3-甲基-4-(X-取代基苯亚甲基氨基)-5-乙氧羰基甲硫基-1,2,4-三唑席夫碱化合物a～i。 产物结构经1H NMR、IR和MS等技术手段确证。 其中化合物3-甲基-4-(4-羟基苯亚甲基氨基)-5-乙氧羰基甲硫基-1,2,4-三唑h进一步经X射线单晶衍射得到其晶体结构（CCDC：910927）：C14H16N4O3S,Mr=320.37,Orthorhombic,P2(1)2(1)2(1)/n,a=0.9220(10) nm,b=1.5823(17) nm,c=2.1667(2) nm,V=3.161(6) nm3,Z=8,F(000)=1344。 化合物对4种植物病原菌的初步生物活性测试结果(EC95值)表明,化合物d、e、f对供试菌种西瓜枯萎病和小麦赤霉病的抑菌活性优于对照原药三唑酮。     

某些含三唑取代的苯甲酸苯甲酰甲酯衍生物的合成

以三乙胺为缚酸剂，通过苯甲酸同ω－（１Ｈ－１，２，４－三唑－１－基）－ω－溴化苯乙酮反应，合成了六种含三唑取代的苯甲酸甲酰甲酯类化合物，具有较高收率。     

三唑并嘧啶双杂环硫醚衍生物的合成与生物活性

以2-巯基-5, 7-二甲基-1, 2, 4-三唑并[1, 5-a]嘧啶为原料,设计合成了10种含5, 7-二甲基-1, 2, 4-三唑并[1, 5-a]嘧啶环和1, 2, 4-三唑环的双杂环硫醚化合物,结构经MS、1H NMR进行表征。初步的生物活性测试表明,在50×10-6 g/L浓度下,大部分化合物6对甜菜褐斑病菌表现出好的抑制效果, 化合物6b、6e、6f、6g、6h抑制效果达到A级（≥90%）。     

1-甲基-4-苯基-1H-1,2,3-三唑-5-甲酸衍生物的定向合成

1-甲基-4-苯基-1H-1,2,3-三唑-5-甲酸是一类重要的三唑类衍生物,是多种药物合成的重要中间体.以苯乙炔为原料,设计出了一条定向合成1-甲基-4-苯基-1H-1,2,3-三唑-5-甲酸的新方法.首先苯乙炔与叠氮化钠、碘甲烷在碘化亚铜催化下反应生成1-甲基-4-苯基-1H-1,2,3-三唑,再依次与正丁基锂、甲酸乙酯反应生成中间体1-甲基-4-苯基-1H-1,2,3-三唑-5-甲醛后直接氧化生成目标化合物.该合成途径原料易得、总产率较高、后处理操作简便,具有较高的应用价值.     

Adsorptive Cathodic Stripping Voltammetry for Quantification of Alprazolam

A simple and highly sensitive electrochemical sensor was developed for adsorptive cathodic stripping voltammetry of alprazolam. Based on an electrochemically pretreated glassy carbon electrode, the sensor demonstrated good adsorption and electrochemical reduction of alprazolam. The morphology of the glassy carbon electrode and the electrochemically pretreated glassy carbon electrode were characterized by scanning electron microscopy/energy dispersive X-ray spectroscopy, Fourier transform infrared spectroscopy, cyclic voltammetry, and electrochemical impedance spectroscopy. The electrochemical behaviors of alprazolam were determined by cyclic voltammetry, and the analytical measurements were studied by adsorptive cathodic stripping voltammetry. Optimized operational conditions included the concentration and deposition time of sulfuric acid in the electrochemical pretreatment, preconcentration potential, and preconcentration time. Under optimal conditions, the developed alprazolam sensor displayed a quantification limit of 0.1 mg L⁻¹, a detection limit of 0.03 mg L⁻¹, a sensitivity of 67 µA mg⁻¹ L cm⁻² and two linear ranges: 0.1 to 4 and 4 to 20 mg L⁻¹. Sensor selectivity was excellent, and repeatability (%RSD < 4.24%) and recovery (82.0 ± 0.2 to 109.0 ± 0.3%) were good. The results of determining alprazolam in beverages with the developed system were in good agreement with results from the gas chromatography–mass spectrometric method.     

Compritol-Based Alprazolam Solid Lipid Nanoparticles for Sustained Release of Alprazolam: Preparation by Hot Melt Encapsulation

The current study was designed to investigate the feasibility of incorporating the water-insoluble lipophilic drug Alprazolam (Alp) into solid lipid nanoparticles (SLNs) to offer the combined benefits of the quick onset of action along with the sustained release of the drug. Therefore, compritol-based alprazolam-loaded SLNs (Alp-SLNs) would provide early relief from anxiety and sleep disturbances and long-lasting control of symptoms in patients with depression, thereby enhancing patient compliance. The optimized Alp-SLNs analyzed by DLS and SEM showed consistent particle size of 92.9 nm with PI values and standard deviation of the measurements calculated at <0.3 and negative surface charge. These characteristic values demonstrate the desired level of homogeneity and good physical stability of Alp-SLNs. The SLNs had a good entrapment efficiency (89.4%) and high drug-loading capacity (77.9%). SEM analysis revealed the smooth spherical morphology of the SLNs. The physical condition of alprazolam and absence of interaction among formulation components in Alp-SLNs was confirmed by FTIR and DSC analyses. XRD analysis demonstrated the molecular dispersion of crystalline alprazolam in Alp-SLNs. The in vitro release study implied that the release of Alp from the optimized Alp-SLN formulation was sustained as compared to the Alp drug solution because Alp-SLNs exhibited sustained release of alprazolam over 24 h. Alp-SLNs are a promising candidate to achieve sustained release of the short-acting drug Alp, thereby reducing its dosing frequency and enhancing patient compliance.     

Estimation of Alprazolam and Sertraline in Pure Powder and Tablet Formulations by High-Performance Liquid Chromatography and High-Performance Thin-Layer Chromatography

Abstract

This article describes validated high-performance liquid chromatographic (HPLC) and high-performance thin-layer chromatographic (HPTLC) methods for simultaneous estimation of alprazolam (ALZ) and sertraline (SER) in pure powder and tablet formulation. The HPLC separation was achieved on a Nucleosil C18 column (150 mm long, 4.6 mm i.d., and 5-µm particle size) using acetonitrile and phosphate buffer (50 + 50 v/v), pH 5.5, as the mobile phase at a flow rate of 1.0 mL/min at ambient temperature. The HPTLC separation was achieved on an aluminum-backed layer of silica gel 60 F₂₅₄ using acetone/toluene/ammonia (6.0:3.0:1.0, v/v/v) as the mobile phase. Quantification with the HPLC method was achieved with ultraviolet (UV) detection at 230 nm over the concentration range 3–18 µg/mL for both drugs with mean recovery of 101.86 ± 0.21 and 100.57 ± 0.31% for ALZ and SER, respectively. Quantification in HPTLC was achieved with UV detection at 230 nm over the concentration range of 400–1400 ng/spot for both drugs with mean recoveries of 101.32 ± 0.15 and 100.38 ± 0.51% for ALZ and SER, respectively. These methods are rapid, simple, precise, sensitive, and are applicable for the simultaneous determination of ALZ and SER in pure powder and formulations.     

Biodegradation of Alprazolam in Pharmaceutical Wastewater Using Mesoporous Nanoparticles-Adhered Pseudomonas stutzeri

The release of pharmaceutical wastewaters in the environment is of great concern due to the presence of persistent organic pollutants with toxic effects on environment and human health. Treatment of these wastewaters with microorganisms has gained increasing attention, as they can efficiently biodegrade and remove contaminants from the aqueous environments. In this respect, bacterial immobilization with inorganic nanoparticles provides a number of advantages, in terms of ease of processing, increased concentration of the pollutant in proximity of the cell surface, and long-term reusability. In the present study, MCM-41 mesoporous silica nanoparticles (MSN) were immobilized on a selected bacterial strain to remove alprazolam, a persistent pharmaceutical compound, from contaminated water. First, biodegrading microorganisms were collected from pharmaceutical wastewater, and Pseudomonas stutzeri was isolated as a bacterial strain showing high ability to tolerate and consume alprazolam as the only source for carbon and energy. Then, the ability of MSN-adhered Pseudomonas stutzeri bacteria was assessed to biodegrade alprazolam using quantitative HPLC analysis. The results indicated that after 20 days in optimum conditions, MSN-adhered bacterial cells achieved 96% biodegradation efficiency in comparison to the 87% biodegradation ability of Pseudomonas stutzeri freely suspended cells. Kinetic study showed that the degradation process obeys a first order reaction. In addition, the kinetic constants for the MSN-adhered bacteria were higher than those of the bacteria alone.     

Detection and Quantification of Alprazolam Added to Long Drinks by Near Infrared Spectroscopy and Chemometrics

In the present work, a fast, relatively cheap, and green analytical strategy to identify and quantify the fraudulent (or voluntary) addition of a drug (alprazolam, the API of Xanax^®) to an alcoholic drink of large consumption, namely gin and tonic, was developed using coupling near-infrared spectroscopy (NIR) and chemometrics. The approach used was both qualitative and quantitative as models were built that would allow for highlighting the presence of alprazolam with high accuracy, and to quantify its concentration with, in many cases, an acceptable error. Classification models built using partial least squares discriminant analysis (PLS-DA) allowed for identifying whether a drink was spiked or not with the drug, with a prediction accuracy in the validation phase often higher than 90%. On the other hand, calibration models established through the use of partial least squares (PLS) regression allowed for quantifying the drug added with errors of the order of 2–5 mg/L.     

绿色合成：一个逐步形成的学科前沿

绿色合成是有机合成化学面向新世纪的学科前沿。本文探讨绿色合成的目标及实现这一目标的一些可能途径。     

片呐醇的绿色合成

综述了近年来片呐醇绿色合成研究的新进展,主要包括微波、超声波、固相合成、电合成、光化学合成等新技术、新试剂在该反应中的应用。     

硫杂蒽酮的合成和表征

为了寻求合成硫杂蒽酮的高效新方法,以2,2′-二硫代二苯甲酸和苯酚为原料,硫酸为溶剂和催化剂,考察了沸石分子筛、Al2O3和P2O5、温度、原料的物质的量之比、反应时间对反应收率的影响,确定了最佳反应条件,推测了可能的反应过程;进而以2,2′-二硫代二苯甲酸和相应的苯衍生物为原料,在H2SO4-P2O5体系中于最佳反应条件下制备了13个硫杂蒽酮类化合物,并利用柱色谱分离以及红外光谱与核磁共振谱对产物进行表征.结果表明,在反应体系中引入P2O5有利于促进反应的完成;最佳反应条件为:温度70℃、2,2′-二硫代二苯甲酸/苯衍生物物质的量之比1∶6、反应时间6h.邻苯二酚与二硫代水杨酸的反应产物——化合物11(a)和11(b)为同分异构体.     

烯胺酮的合成及其在有机合成中的应用

烯胺酮是目前应用较为广泛的有机合成中间体, 对其合成及其作为中间体在有机化合物特别是杂环化合物的合成中的应用进行了综述.