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组蛋白去乙酰化酶(HDACs)通过催化各种底物蛋白包括组蛋白、转录因子、α-微管蛋白和核输入蛋白等的ε-赖氨酸残基乙酰化侧链的去乙酰化来影响细胞功能,抑制HDAC活性可以治疗表观遗传异常引起的癌症和其他慢性疾病.以HDAC抑制剂(HDACi) Chlamydocin为骨架设计合成一类新型抑制剂,将HDACi的结合区设计为二硫键结构、在环肽中苯丙氨酸的苯环不同位点引入甲基,合成4种不同序列的环肽类HDACi.考察HDACi体外抗肿瘤细胞(MCF-7,Hela和7721)活性,结果表明HDACi对三种肿瘤细胞系均显示良好的生长抑制作用,细胞形态都发生明显变化,其中对Hela细胞的毒性最高,IC50达到0.1 μmol/L. 相似文献
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通过计算机模拟的对接过程研究,发现了MS-275— 一种苯甲酰胺类的组蛋白去乙酰酶(HDAC)抑制剂与酶的可能的全新结合方式.这种结合方式与已经阐明的组蛋白去乙酰酶类似蛋白(HDLP)与曲古柳菌素A(trichostatin A, TSA)和suberoylanilide hydroxamic acid(SAHA)形成的复合物晶体结构中配体与酶的作用方式完全不同.从对接结果看,MS-275的作用靶点在酶活性口袋的最狭窄部位,而不是直接作用于锌离子.这似乎能够解释MS-275的低毒性特点,并且为设计和筛选全新的HDAC抑制剂提供了新思路. 相似文献
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组蛋白去乙酰化酶抑制剂是一类以组蛋白去乙酰化酶为靶点的新型靶向抗肿瘤药物,在抗增殖、促凋亡、促分化、阻滞细胞生长周期、抗血管生成等方面有很好的作用。组蛋白去乙酰化酶抑制剂以其独特的抗肿瘤作用机理,在研发肿瘤治疗药物中占有重要地位。在组蛋白去乙酰化酶抑制剂分类中,环肽类抑制剂结构最为复杂,对多种类型的实体瘤及血液学癌细胞均具有良好的对抗作用。本文针对天然和化学合成的环肽类组蛋白去乙酰化酶抑制剂中金属结合区、表面识别区以及连接区的结构特点进行了综述,并描述了各类抑制剂对酶的抑制活性和抗肿瘤增殖活性。对抑制剂不同结构区的修饰、改造可以使抑制剂对不同肿瘤细胞具有高效性和特异性作用,通过构效关系研究寻找具有高效低毒、靶向性环肽类抑制剂的结构规律,可为研究开发抗肿瘤药物提供帮助。 相似文献
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组蛋白去乙酰化酶(histone deacetylase, HDACs)是肿瘤治疗的靶点之一,组蛋白去乙酰化酶抑制剂(histone deacetylase inhibitor, HDACi)可通过多种机制发挥抗肿瘤作用,包括抑制肿瘤细胞活力、迁移、侵袭、血管生成、增殖、DNA修复和诱导细胞凋亡。本文对近年来以HDACs为单靶点和多靶点的羟肟酸类衍生物的合成及其抗肿瘤活性进行综述,并对此方面的发展趋势、应用前景进行展望。 相似文献
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以BMS-777607和E7050为先导化合物,设计并合成了11个新型的吡啶类c-Met激酶抑制剂(9a~9f和10a~10e),其结构经1H NMR和MS(ESI)表征。采用MTT法测定了9a~9f和10a~10e对人胃癌细胞株(NCI-N87和GTL-16)的体外抗肿瘤细胞增殖活性。结果表明:9a, 9d和10a对GTL-16的抑制活性较好,其IC50分别为0.60 μmol·L-1, 1.36 μmol·L-1和0.93 μmol·L-1,优于BMS-777607(2.50 μmol·L-1)。 相似文献
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以顺-二碘-二环戊胺合铂(Ⅱ)为起始原料,经聚合反应和胺化反应制得顺式-二碘-异丙胺-环戊胺合铂(Ⅱ)(2);2分别与氯化钾,1,1-环丁基二羧酸钾和一水合草酸钾反应,合成了3个新型的铂配合物:顺式-二氯-异丙胺-环戊胺合铂(Ⅱ)(1a,收率36.6%),顺式-1,1-环丁基二羧酸-异丙胺-环戊胺合铂(Ⅱ)(1b,收率43.6%)和顺式-草酸-异丙胺-环戊胺合铂(Ⅱ)(1c,收率28.1%),其结构经1H NMR,IR,ESI-MS和元素分析表征。采用MTT法测定了1a~1c对肝癌(SMMC-7721),肺癌(A-549),乳腺癌(MCF-7)和结肠癌(SW480)的体外抑制活性。结果表明,1a~1c对部分癌细胞的IC50值小于40μm,具有一定的体外肿瘤生长抑制活性。 相似文献
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For Histone Deacetylase (HDAC) Inhibitor, four 3D-QSAR models for four types of different activities, were constructed.The cross-valldated q^2 value of CoMFA Model 1 is 0.624 and the noncross-validated r2 value is 0.939. The cross-validated q^2 value of Model 2 for training set is 0.652 and the noncross-validated r^2 value is 0.963. The cross-validated q^2 value for Model 3 is 0.713, with noncross-validated r^2 value 0.947. The crossvalidated q2 value for Model 4 is 0.566 with noncross-validated r^2 value 0.959. Their predicted abilities were validated by different test sets which did not include in training set. Then the relationship between substituents and activities was analyzed by using these models and the main influence elements in different positions (positions 8 and 14) were found. The polar donor electron group of position 8 could increase the activity of inhibition of HDAC, because it could form chelation with the catalytic Zn. Suitable bulk and positive groups at position 14 are favorable to anti-HDAC activity. These models could web interpret the relationship between inhibition activity and apicidin structure affording us important information for structurebased drug design. 相似文献
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以2-氰基乙酰胺为起始原料,与三乙氧基取代化合物经加成反应制得取代烯酰胺类化合物(3a~3c);3a~3c与芳肼经环合反应得取代吡唑-4-甲酰胺类化合物(5a~5d);5a~5d与酰氯经酰化反应合成了6个新型的1-芳基-3-取代-5-取代氨基-4-吡唑甲酰胺类化合物(7a~7f),其结构经1H NMR,MS和元素分析表征。抗肿瘤活性测试结果表明,7a~7f对人乳腺癌细胞(A)、人宫颈癌细胞(B)和人肝癌细胞(C)有一定抑制作用,其中3-甲基-5-[4-(甲磺酰胺基)苯甲酰胺]-1-苯基-1H-吡唑-4-甲酰胺(7f)的抑制活性最好,对A,B和C的IC50分别为3.25μM,8.74μM和10.47μM。 相似文献
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以间苯二酚和3-甲氧基-4-羟基苯乙酸为原料,经"一锅法"制备了毛蕊异黄酮(3);3与溴代烷经取代反应合成了9个7-烷氧基毛蕊异黄酮衍生物(5a~5i),其中5a~5g和5i为新化合物,其结构经1H NMR,13C NMR和ESI-MS表征。采用MTT法考察了3和5a~5i对乳腺癌细胞(MCF-7),结肠癌细胞(SW480)和胰腺癌细胞(Hep G2)的抑制活性。结果表明,3'-羟基-4'-甲氧基-7-环戊氧基异黄酮(5e)抗肿瘤活性最好。在用药量为3.1μg·m L-1时,对MCF-7,SW480和Hep G2的抑制率分别为89.20%,77.33%和44.32%。 相似文献
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Hue Thi Buu Bui Phuong Hong Nguyen Quan Minh Pham Hoa Phuong Tran De Quang Tran Hosun Jung Quang Vinh Hong Quoc Cuong Nguyen Quy Phu Nguyen Hieu Trong Le Su-Geun Yang 《Molecules (Basel, Switzerland)》2022,27(7)
Epigenetic alterations found in all human cancers are promising targets for anticancer therapy. In this sense, histone deacetylase inhibitors (HDACIs) are interesting anticancer agents that play an important role in the epigenetic regulation of cancer cells. Here, we report 15 novel hydroxamic acid-based histone deacetylase inhibitors with quinazolinone core structures. Five compounds exhibited antiproliferative activity with IC50 values of 3.4–37.8 µM. Compound 8 with a 2-mercaptoquinazolinone cap moiety displayed the highest antiproliferative efficacy against MCF-7 cells. For the HDAC6 target selectivity study, compound 8 displayed an IC50 value of 2.3 µM, which is 29.3 times higher than those of HDAC3, HDAC4, HDAC8, and HDAC11. Western blot assay proved that compound 8 strongly inhibited tubulin acetylation, a substrate of HDAC6. Compound 8 also displayed stronger inhibition activity against HDAC11 than the control drug Belinostat. The inhibitory mechanism of action of compound 8 on HDAC enzymes was then explored using molecular docking study. The data revealed a high binding affinity (−7.92 kcal/mol) of compound 8 toward HDAC6. In addition, dock pose analysis also proved that compound 8 might serve as a potent inhibitor of HDAC11. 相似文献