新型氮芥和卤代烷基哌嗪芳香醛的合成

通过对Vilsmeier反应、烷基化反应和氯化反应的改进提出了以简单易得的苯胺和苯基哌嗪为原料制备氮芥和哌嗪芳香醛的方法. 采用该改进的方法合成了8个氮芥和哌嗪芳香醛, 其中7个为新化合物. 它们的结构均经质谱、红外光谱、核磁共振谱和元素分析确证.     

Co(III)氮芥配合物的合成、表征及其抗肿瘤活性的初步评价

低氧条件下,钴(Ⅲ)的氮芥配合物具有合适的还原电位,就可能还原得到比较活泼的Ｃｏ(Ⅱ)配合物,在溶液中其活性配体很快被体内的小分子取代,释放出的活性配体可以杀死低氧区内外的癌细胞,因此筛选合适的钴配合物作为低氧选择性抗癌药物的研究很有意义。本文以双 (2 氯乙基)胺(简称ＢＣＡ)为活性配体,取代乙酰丙酮为辅助配体,合成一系列Ｃｏ(Ⅲ)配合物(下图)。初步评估结果表明,其中两个配合物具有一定的低氧选择性,配合物的还原电位对药物的低氧选择性影响很大,合适的还原范围可能比较窄。1　实验部分1.1　试剂与仪器按文献[1]的方法合成…     

Synthesis of porphyrin nitrogen mustards with potential anti-tumor activities in chemotheraphy and photodynamic therapy

2,7,12,18-Tetramethyl-13,17-di[3'-N,N'-di(2"-chloroethyl)aminopropyl]porphin and it's 3,8-di(1'-alkyloxyethyl)-analogous or porphyrin-nitrogen mustards were synthesized for the first time Their structures were determined by spectroscopics and elemental analyses.Most of the compounds possess both the chemotherapeutic and photodynamic effects on tumor and deserve further investigation.     

O-取代苯基-O-(2-硬脂酰胺基)乙基-N,N-二(2-氯乙基)磷酰胺的合成和生物活性

N-脂肪酰基乙醇胺(NAE)作为植物体内的一种内源物质, 在调节植物生长方面起着重要作用. 为了弥补其分子结构中长的脂肪链所带来的溶解性能以及在植物体内传导性能的缺陷, 我们将N-硬脂酰乙醇胺(NAE18)引入氮芥磷酸酯中, 合成了一系列标题化合物. 在合成工作中发现: 在NAE18与氮芥芳基磷酰氯的反应过程中, 4-二甲氨基吡啶(DMAP)起着关键性的催化作用. 在不加DMAP的相同实验条件下, 反应不能进行. 对所合成的标题化合物进行了植物生长调节和杀菌活性的测定, 初步生测结果表明: 经过结构修饰后, 大多数目标化合物的活性相对NAE18有所增强, 但有关生物活性仍有待进一步研究.     

Design and Synthesis of Glycosylated Aromatic Nitrogen Mustard Derivatives

Antibody-directed enzyme prodrug therapy(ADEPT) is a new strategy for the treatment of cancer that has arisen in recent twenty years, the main merits of which are that it can improve the selectivity of anticancer drugs and reduce the side effects in remote tissue. In the present study, two prodrugs-glycosylated aromatic nitrogen mustard derivatives were synthesized. Glucose and lactose were converted into glycosyl donors-trichloroacetimidate; the obtained glycosyl donors were glycosylated with p-nitrophenol(glycosyl donors) to form β-glucosyl p-nitrobenzene and β-lactosyl p-nitrobenzene that were protected by acetyl in a stereoselective manner; the two products were reduced by zinc dust and then treated with ethylene oxide, afforded two glycosylated nitrogen mustard derivatives that were protected by acetyl; the last step was to deacetylate and then afforded the two target compounds that could be used as prodrugs of ADEPT for further Anti-tumor research.     

人造芥子油中异硫氰酸烯丙酯与硫氰酸烯丙酯的气相色谱分析

采用２ｍ×３ｍｍ玻璃柱，涂布０．５％ＥＧＡ的８０～１００目ＧａｓｃｈｒｏｍＱ为固定相，以异辛醇为内标物，分析芥子油中异硫氰酸烯丙酯与硫氰酸烯丙酯异构体。该方法既可用于人造芥子油的含量分析，也可用于市售芥子油的质量鉴定。     

芥子气纯度测定不确定度分析与评定

采用酸碱滴定法测定芥子气纯度,对测量结果的不确定度进行评定。分析了测定过程中不确定度来源,包括滴定剂的标定、消耗滴定剂体积、样品称量等引入的不确定度及其计算方法,最后合成得到标准不确定度。当芥子气纯度测定结果为94.78%时,扩展不确定度为0.34%(k=2)。实验结果表明,样品称量引入的不确定度对测量结果的影响最大。     

Synthesis,cytotoxicity, topoisomerase I inhibition and molecular docking of novel phosphoramide mustard sophoridinic acid analogues

A series of novel phosphoramide mustard sophoridinic acid analogues, consisting of nitrogen mustard group and sophoridinic acid scaffold, have been designed, synthesized and evaluated for their topoisomerase inhibitory activity as well as cytotoxicity against six tumor cell lines (SMMC‐7721, LoVo, MCF‐7, K562, S180 and H22) and a normal cell line (L929). Among the compounds tested, five were found to be potent inhibitors and exhibited potent cytotoxicity against S180 and H22 cell lines with IC₅₀ values of 1–4 μM. Further mechanistic studies showed that this class of compounds acted as novel topoisomerase I (Topo I) catalytic inhibitors by preventing the binding of Topo I to DNA and inhibiting the cleavage of DNA, and molecular docking studies revealed that the binding energy for these compounds was comparable to that for classic Topo I inhibitors CPT and HCPT, indicating that the compounds have an interaction with DNA and Topo I.     

Aromatic Nitrogen Mustard‐Based Prodrugs: Activity,Selectivity, and the Mechanism of DNA Cross‐Linking

Three novel H₂O₂‐activated aromatic nitrogen mustard prodrugs ( 6 – 8 ) are reported. These compounds contain a DNA alkylating agent connected to a H₂O₂‐responsive trigger by different electron‐withdrawing linkers so that they are inactive towards DNA but can be triggered by H₂O₂ to release active species. The activity and selectivity of these compounds towards DNA were investigated by measuring DNA interstrand cross‐link (ICL) formation in the presence or absence of H₂O₂. An electron‐withdrawing linker unit, such as a quaternary ammonia salt ( 6 ), a carboxyamide ( 7 ), and a carbonate group ( 8 ), is sufficient to deactivate the aromatic nitrogen mustard resulting in less than 1.5 % cross‐linking formation. However, H₂O₂ can restore the activity of the effectors by converting a withdrawing group to a donating group, therefore increasing the cross‐linking efficiency (>20 %). The stability and reaction sites of the ICL products were determined, which revealed that alkylation induced by 7 and 8 not only occurred at the purine sites but also at the pyrimidine site. For the first time, we isolated and characterized the monomer adducts formed between the canonical nucleosides and the aromatic nitrogen mustard ( 15 ) which supported that nitrogen mustards reacted with dG, dA, and dC. The activation mechanism was studied by NMR spectroscopic analysis. An in vitro cytotoxicity assay demonstrated that compound 7 with a carboxyamide linker dramatically inhibited the growth of various cancer cells with a GI₅₀ of less than 1 μM , whereas compound 6 with a charged linker did not show any obvious toxicity in all cell lines tested. These data indicated that a neutral carboxyamide linker is preferable for developing nitrogen mustard prodrugs. Our results showed that 7 is a potent anticancer prodrug that can serve as a model compound for further development. We believe these novel aromatic nitrogen mustards will inspire further and effective applications.     

“Click” Chemistry Mildly Stabilizes Bifunctional Gold Nanoparticles for Sensing and Catalysis

A large family of bifunctional 1,2,3‐triazole derivatives that contain both a polyethylene glycol (PEG) chain and another functional fragment (e.g., a polymer, dendron, alcohol, carboxylic acid, allyl, fluorescence dye, redox‐robust metal complex, or a β‐cyclodextrin unit) has been synthesized by facile “click” chemistry and mildly coordinated to nanogold particles, thus providing stable water‐soluble gold nanoparticles (AuNPs) in the size range 3.0–11.2 nm with various properties and applications. In particular, the sensing properties of these AuNPs are illustrated through the detection of an analogue of a warfare agent (i.e., sulfur mustard) by means of a fluorescence “turn‐on” assay, and the catalytic activity of the smallest triazole–AuNPs (core of 3.0 nm) is excellent for the reduction of 4‐nitrophenol in water.