高等学校化学学报
高等學校化學學報
고등학교화학학보
CHEMICAL JOURNAL OF CHINESE UNIVERSITIES
2014年
12期
2574-2583
,共10页
范世丽%张博%高丽叶%王兰芝%边艳青%李媛
範世麗%張博%高麗葉%王蘭芝%邊豔青%李媛
범세려%장박%고려협%왕란지%변염청%리원
1 ,5-苯并硫氮杂%抑菌活性%构效关系
1 ,5-苯併硫氮雜%抑菌活性%構效關繫
1 ,5-분병류담잡%억균활성%구효관계
1,5-Benzothiazepine%Antifungal activity%Structure-activity relationship
以高活性的2-甲氧/乙氧羰基-4-(4-氟苯基)-1,5-苯并硫氮杂 A和B为模型化合物,设计合成了11个含氟杂衍生物3a~3k,考察了它们对白色念珠菌和新生隐球菌的抑菌活性。研究结果表明,2-甲氧/乙氧羰基-4-(2-氟苯基)/(3-氟苯基)/(2,4-二氟苯基)-1,5-苯并硫氮杂3a,3b,3d~3f对新生隐球菌有很强的抑菌活性,3c的活性中等,而7位氯代杂3g~3k基本无活性;上述杂对白色念珠菌均无活性。在此基础上,进一步测试了高活性杂3a,3b,3d~3f对新生隐球菌的抑菌浓度梯度、最小抑菌浓度( MIC)和最小杀菌浓度(MFC),发现其MIC和MFC均远低于对照药氟康唑。为了考察杂3a~3f的药效基团,又设计合成了4类杂衍生物4a~4f,5a~5f,6a~6f和7a~7c,通过对其抑菌活性的评价,发现分子中2-甲氧/乙氧羰基和亚胺官能团对杂3a~3f的抑真菌(新生隐球菌)活性起关键作用,硫原子被氧原子或氮原子代替后原杂的活性降低。
以高活性的2-甲氧/乙氧羰基-4-(4-氟苯基)-1,5-苯併硫氮雜 A和B為模型化閤物,設計閤成瞭11箇含氟雜衍生物3a~3k,攷察瞭它們對白色唸珠菌和新生隱毬菌的抑菌活性。研究結果錶明,2-甲氧/乙氧羰基-4-(2-氟苯基)/(3-氟苯基)/(2,4-二氟苯基)-1,5-苯併硫氮雜3a,3b,3d~3f對新生隱毬菌有很彊的抑菌活性,3c的活性中等,而7位氯代雜3g~3k基本無活性;上述雜對白色唸珠菌均無活性。在此基礎上,進一步測試瞭高活性雜3a,3b,3d~3f對新生隱毬菌的抑菌濃度梯度、最小抑菌濃度( MIC)和最小殺菌濃度(MFC),髮現其MIC和MFC均遠低于對照藥氟康唑。為瞭攷察雜3a~3f的藥效基糰,又設計閤成瞭4類雜衍生物4a~4f,5a~5f,6a~6f和7a~7c,通過對其抑菌活性的評價,髮現分子中2-甲氧/乙氧羰基和亞胺官能糰對雜3a~3f的抑真菌(新生隱毬菌)活性起關鍵作用,硫原子被氧原子或氮原子代替後原雜的活性降低。
이고활성적2-갑양/을양탄기-4-(4-불분기)-1,5-분병류담잡 A화B위모형화합물,설계합성료11개함불잡연생물3a~3k,고찰료타문대백색념주균화신생은구균적억균활성。연구결과표명,2-갑양/을양탄기-4-(2-불분기)/(3-불분기)/(2,4-이불분기)-1,5-분병류담잡3a,3b,3d~3f대신생은구균유흔강적억균활성,3c적활성중등,이7위록대잡3g~3k기본무활성;상술잡대백색념주균균무활성。재차기출상,진일보측시료고활성잡3a,3b,3d~3f대신생은구균적억균농도제도、최소억균농도( MIC)화최소살균농도(MFC),발현기MIC화MFC균원저우대조약불강서。위료고찰잡3a~3f적약효기단,우설계합성료4류잡연생물4a~4f,5a~5f,6a~6f화7a~7c,통과대기억균활성적평개,발현분자중2-갑양/을양탄기화아알관능단대잡3a~3f적억진균(신생은구균)활성기관건작용,류원자피양원자혹담원자대체후원잡적활성강저。
Using A and B as the prototypical structure, eleven 1,5-benzothiazepine derivatives 3a—3k were synthesized and evaluated for their antifungal activity against C. albicans and C. neoformans via the disk diffu-sion method. The results showed that benzothiazepines 3a, 3b and 3d—3f had good antifungal activity against C. neoformans, compound 3c had moderate activity, and 7-chloro-substituted analogues 3g—3k were weakly active or inactive. In addition, all of the benzothiazepines 3a—3k were almost inactive against C. albicans. Furthermore, compounds 3a, 3b and 3d—3f, which had good antifungal activities, were subjected to further pharmacological evaluation, including determining the dose dependence of the antifungal activity, minimum inhibitory concentration ( MIC ) and minimum fungicidal concentration ( MFC ) against C. neoformans. The results showed that the MIC and MFC values for above compounds were much lower than those of fluconazole. In order to examine the structural features responsible for the antifungal activity of compounds 3a—3f, four series of 1,5-benzothiazepine derivatives 4a—4f, 5a—5f, 6a—6f and 7a—7c were synthesized and screened for their antifungal activity. The results demonstrated that the methoxycarbonyl/ethoxycarbonyl group at the 2 position and imine moiety on the seven-membered ring of benzothiazepines 3 a—3 f was critical to their biologi-cal activity. The results also indicated that replacement of sulfur atom in the molecules with nitrogen or oxygen atom led to decrease in activity of this series of compounds.