CN103980174B - 取代吡咯烷氨荒酸铋(ⅲ)配合物及其制备方法和在制备抗肿瘤药物中的应用 - Google Patents
取代吡咯烷氨荒酸铋(ⅲ)配合物及其制备方法和在制备抗肿瘤药物中的应用 Download PDFInfo
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- C—CHEMISTRY; METALLURGY
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- C07D207/02—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom
- C07D207/04—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members
- C07D207/06—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members with radicals, containing only hydrogen and carbon atoms, attached to ring carbon atoms
-
- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D207/00—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom
- C07D207/02—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom
- C07D207/04—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members
- C07D207/10—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to ring carbon atoms
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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07D—HETEROCYCLIC COMPOUNDS
- C07D207/00—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom
- C07D207/02—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom
- C07D207/04—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members
- C07D207/10—Heterocyclic compounds containing five-membered rings not condensed with other rings, with one nitrogen atom as the only ring hetero atom with only hydrogen or carbon atoms directly attached to the ring nitrogen atom having no double bonds between ring members or between ring members and non-ring members with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to ring carbon atoms
- C07D207/16—Carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals
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Abstract
本发明涉及一种取代吡咯烷氨荒酸铋(Ⅲ)配合物,结构简式如下,该取代吡咯烷氨荒酸铋(Ⅲ)配合物具有良好的抗肿瘤活性,对胃癌、肺癌、肝癌、大肠癌、宫颈癌、卵巢癌、乳腺癌、白血病、结肠癌等恶性肿瘤具有显著的抑瘤活性,将其开发为新型抗肿瘤新药具有广泛的应用前景。。
Description
技术领域
本发明涉及抗肿瘤药物技术领域,具体涉及取代吡咯烷氨荒酸铋(Ⅲ)配合物及其制备方法和在制备抗肿瘤药物中的应用。
背景技术
恶性肿瘤(癌症)严重威胁着人类的健康和生命,每年死于癌症的病人约占总死亡人数的四分之一,且发病率呈逐年增长态势,癌症的防治成为医学和生命科学工作者主要研究的课题之一。我国癌症发病率十分惊人,已成为世界第二大癌症高发国,统计数据(WHOGLOBOCAN2008)显示:中国所有的肿瘤新病例为280万,是美国新发肿瘤病例的2倍(美国为140万);同年中国肿瘤死亡病例为196万,而美国的死亡病例为57万,二者的差距为3.4倍。由此可见,未来中国和全球的抗癌药物市场增长的潜力巨大,研发新一代抗癌药物必有庞大的市场。然而,目前用于癌症治疗的抗癌药物有几十种,但对多数常见实体瘤仍缺乏有效药物,且不少抗肿瘤药在临床应用过程中产生了不同程度的耐药性。因此,开发筛选高效低毒的抗肿瘤药物成为抗肿瘤新药研发最为重要的任务。
铋具有悠久的药用历史。铋属于周期表中第六周期第VA族重金属元素,位于金属和非金属交界处,具有特殊的理化性质。由于铋的无毒性、不致癌性,被称为绿色金属。经过多年的研究与发展,铋化合物已广泛的用于医学、化工以及生物等方面,其中应用最为广泛的领域是医药,如用于外科处理创伤和止血,作为杀灭幽门杆菌治疗胃溃疡和胃肠道紊乱的药物成分,另有研究发现铋的配合物能够抑制癌细胞的生长且无副作用。
香港大学孙红哲教授对铋制剂在医疗上的作用进行了深入研究。铋化合物在癌症治疗领域的应用不仅表现在具有抗癌活性上,它们还可以减轻别的抗癌化疗药物所引起的毒副作用。动物实验表明,硝酸铋和柠檬酸联用可以有效地缓解顺铂类药物在抗癌治疗过程中所引起的肾脏损害。最近研究发现,铋剂可以抑制SARS冠状病毒的生长,其过程可能同Bi(Ⅲ)抑制SARS病毒中的解旋酶(helicase)有关。铋可以和生物体内的多种分子结合。研究发现谷胱甘肽(GSH)可以防止CBS沉淀。铋也可以通过和转铁蛋白(transferrin)结合来达到生物传输的目的。
2006年新加坡国立大学EdwardRTTiekink教授在美国申请了二烷基二硫代氨基甲酸铋化合物的专利(US2006/0142621A1),探讨了二烷基氨荒酸铋化合物的抗肿瘤活性。但存在结构单一,作用的抗肿瘤细胞株少,临床应用价值较低的问题,距临床应用还有较大距离。
发明内容
本发明的目的在于公开一种取代吡咯烷氨荒酸铋(Ⅲ)配合物及其制备方法和在制备抗肿瘤药物中的应用,取代吡咯烷氨荒酸铋(Ⅲ)配合物具有良好的抗肿瘤活性,对胃癌、肺癌、肝癌、大肠癌、宫颈癌、卵巢癌、乳腺癌、白血病、结肠癌等恶性肿瘤具有显著的抑瘤活性。
本发明为实现上述目的,所采用的技术方案是:取代吡咯烷氨荒酸铋(Ⅲ)配合物,结构简式如下:
,
R2和R3为H,R1为;或;
或者,R1和R3为H,R2为F;
或者,R1和R2为H,R3为F;
或者,R1为H,R2和R3为F。
取代吡咯烷氨荒酸铋(Ⅲ)配合物的制备方法:
取(2R)-2-甲基吡咯烷和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物重结晶,得到(2R)-2-甲基吡咯烷氨荒酸铋;
或者是:取L-脯氨酸和三乙胺加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后调pH值,洗出沉淀后进行抽滤、醇洗、干燥,固体物重结晶,得到(S)-2-羧基吡咯烷氨荒酸铋;
或者是:取L-脯氨酸乙酯盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物重结晶,(S)-2-乙氧羰基吡咯烷氨荒酸铋;
或者是:取R-3-氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到(3R)-3-氟吡咯烷氨荒酸铋;
或者是:取S-3-氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到(3S)-3-氟吡咯烷氨荒酸铋;
或者是:取3,3-二氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到3,3-二氟吡咯烷氨荒酸铋;
取代吡咯烷氨荒酸铋(Ⅲ)配合物对胃癌、肺癌、肝癌、大肠癌、宫颈癌、卵巢癌、乳腺癌、白血病、结肠癌等恶性肿瘤具有显著的抑瘤活性。
有益效果
本发明的取代吡咯烷氨荒酸铋(Ⅲ)配合物以及所述配合物的盐和水合物具有良好的抗肿瘤活性,制备方法简单易行,对胃癌、肺癌、肝癌、大肠癌、宫颈癌、卵巢癌、乳腺癌、白血病、结肠癌等恶性肿瘤具有显著的抑瘤活性,将其开发为新型抗肿瘤新药具有广泛的应用前景。
附图说明
图1-图4为实施例三的配合物(编号N048)对于肿瘤细胞体外生长抑制测试结果;
图5-图7为实施例四的配合物(编号N055)对于肿瘤细胞体外生长抑制测试结果;
图8-图10为实施例五的配合物(编号N060)对于肿瘤细胞体外生长抑制测试结果;
图11-图13为实施例六的配合物(编号N061)对于肿瘤细胞体外生长抑制测试结果;
图14-图16为实施例一的配合物(编号N062)对于肿瘤细胞体外生长抑制测试结果;
图17为实施例三的配合物(编号N048)对实体肿瘤模型的生长抑制试验结果;
图18为实施例五的配合物(编号N060)对实体肿瘤模型的生长抑制试验结果。
具体实施方式
以下通过具体实施例对本发明作出进一步说明,但不作为限制。
实施例一:(2R)-2-甲基吡咯烷氨荒酸铋及其制备
在圆底烧瓶中加入0.426g(5mmol)(2R)-2-甲基吡咯烷,0.25g(6mmol)氢氧化钠,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应5h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌3h,抽滤,无水甲醇洗,真空干燥。固体物用二氯甲烷和乙醇重结晶,得到0.82g黄色粉末固体,收率71.3%。熔点:224-226℃,比旋光度=-205°(HCl3),编号为N062。
1HNMR(400MHz,CDCl3),δ:1.362~1.378(9H,d,-CH3,J=6.4Hz),1.692~1.731(3H,m,Cy-CH,J=5.2Hz),2.035~2.071(3H,m,Cy-CH,J=4.0-4.8Hz),2.088~2.161(6H,m,Cy-CH2-,J=4.0-6.8Hz),3.890~3.952(6H,q,N-CH2,J=7.6-9.2Hz),4.725~4.782(3H,m,N-CH,J=6.4-6.8Hz)。
分子式:C18H30N3S6Bi,元素分析结果(括号内为计算值%):C31.29(31.34),H4.30(4.39),N6.06(6.09)。
实施例二:(S)-2-羧基吡咯烷氨荒酸铋及其制备
在50mL圆底烧瓶中加入0.576g(5mmol)L-脯氨酸,0.759g(7.5mmol)三乙胺,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应1h,室温搅拌反应3h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌4h。用冰乙酸调pH值为5-6,析出黄色沉淀,抽滤,无水甲醇洗,干燥。固体物用甲醇重结晶,得1.05g黄色固体。收率80.8%。熔点:186-188℃,比旋光度=-103°(DMSO)。
1HNMR(400MHz,DMSO-d 6),δ:1.971~2.014(6H,m,Cy-CH2,J=6.4~7.2Hz),2.272~2.318(6H,m,Cy-CH2,J=6.4-7.6Hz),3.818~3.848(6H,t,N-CH2,J=7.6Hz),4.761~4.805(3H,t,N-CH,J=8.8Hz)。
分子式:C18H24N3O6S6Bi,元素分析结果(括号内为计算值%):C27.69(27.72),H3.01(3.11),N5.32(5.39)。
实施例三:(S)-2-乙氧羰基吡咯烷氨荒酸铋及其制备
在50mL圆底烧瓶中加入0.898g(5mmol)L-脯氨酸乙酯盐酸盐,0.44g(11mmol)氢氧化钠,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应2h,室温搅拌反应4h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌3h,抽滤,无水甲醇洗,真空干燥。固体物用乙腈重结晶,得1.15g鲜黄色晶体。收率79.9%。熔点:89-91℃,比旋光度=-393°(CHCl3),编号为N048。
1HNMR(400MHz,CDCl3),δ:1.261~1.297(9H,t,-CH3,J=7.2Hz),2.069~2.091(3H,m,Cy-CH,J=4.4-6.8Hz),2.092~2.155(6H,m,Cy-CH2,J=5.6-8.2Hz),2.314~2.400(3H,m,Cy-CH,J=6.4-8.0Hz),3.929~3.998(3H,m,N-CH,J=4.4-7.6Hz),4.061~4.108(3H,m,N-CH,J=3.2-5.2Hz),4.185~4.238(2H,q,O-CH2,J=7.2Hz),4.997~5.031(3H,dd,N-CH,J=3.2-7.6Hz)。
分子式:C24H36N3O6S6Bi,元素分析结果(括号内为计算值%):C33.28(33.36),H4.16(4.21),N4.69(4.86)。
实施例四:(3R)-3-氟吡咯烷氨荒酸铋及其制备
在圆底烧瓶中加入0.628g(5mmol)R-3-氟吡咯烷盐酸盐,0.44g(11mmol)氢氧化钠,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应2h,室温搅拌反应4h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌3h,抽滤,无水甲醇洗,干燥。固体物在柱上纯化,洗脱剂:乙酸乙酯-石油醚=1:2,分离得到1.02g黄色粉末固体。收率87.2%,熔点:156-158℃,比旋光度=+10.5°(CHCl3),编号为N048。
1HNMR(400MHz,CDCl3),δ:2.349~2.442(6H,m,Cy-CH2,J=6.0-8.0Hz),3.883~3.960(6H,m,N-CH2,J=7.4Hz),4.285~4.315(3H,m,F-CH,J=8.0Hz),5.255~5.286(3H,q,N-CH,J=5.6~7.6Hz),5.388~5.416(3H,q,N-CH,J=4.8~6.8Hz)。
分子式:C15H21N3F3S6Bi,元素分析结果(括号内为计算值%):C25.68(25.67),H3.01(3.02),N5.89(5.99)。
实施例五:(3S)-3-氟吡咯烷氨荒酸铋及其制备
在圆底烧瓶中加入0.628g(5mmol)S-3-氟吡咯烷盐酸盐,0.44g(11mmol)氢氧化钠,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应2h,室温搅拌反应4h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌3h,抽滤,无水甲醇洗,干燥。固体物在柱上纯化,洗脱剂:乙酸乙酯-石油醚=1:2,分离得到0.97g黄色粉末固体。收率82.9%,熔点:156-158℃,比旋光度=-10.5°(CHCl3),编号为N060。
1HNMR(400MHz,CDCl3),δ:2.349~2.442(6H,m,Cy-CH2,J=6.0-8.0Hz),3.883~3.960(6H,m,N-CH2,J=7.4Hz),4.285~4.315(3H,m,F-CH,J=8.0Hz),5.255~5.286(3H,q,N-CH,J=5.6~7.6Hz),5.388~5.416(3H,q,N-CH,J=4.8~6.8Hz)。
分子式:C15H21N3F3S6Bi,元素分析结果(括号内为计算值%):C25.63(25.67),H2.98(3.02),N5.88(5.99)。
实施例六:3,3-二氟吡咯烷氨荒酸铋及其制备
在圆底烧瓶中加入0.718g(5mmol)3,3-二氟吡咯烷盐酸盐,0.44g(11mmol)氢氧化钠,15mL无水甲醇,磁力搅拌溶解后,0-5℃冷水浴,滴加0.76g(10mmol)CS2,磁力搅拌反应2h,室温搅拌反应4h。
将0.53g(1.7mmol)BiCl3溶于15mL无水甲醇中,滴入上述反应液中,室温搅拌5h,抽滤,无水甲醇洗,干燥。固体物在柱上纯化,洗脱剂:乙酸乙酯-石油醚=1:3,分离得到1.11g黄色粉末固体。收率88.1%,熔点:228-230℃,编号为N061。
1HNMR(CDCl3,400MHz),δ:2.521~2.557(6H,t,Cy-CH2,J=7.2Hz),4.220~4.262(6H,t,N-CH2,J=8.4Hz),5.405(6H,s,N-CH2)。
分子式:C15H18N3F6S6Bi,元素分析结果(括号内为计算值%):C23.73(23.84),H2.38(2.41),N5.48(5.56)。
抗肿瘤活性测定
一、体外抗肿瘤活性研究
1.细胞株和培养
将癌症细胞白血病细胞株(HL-60)、肺癌细胞株(A-549)、肝癌细胞株(BEL-7402)、大肠癌细胞株(SW-1116)、宫颈癌细胞株(HELA)、卵巢癌细胞株(3AO)、乳腺癌细胞株(MCF-7)、胃癌细胞株(MKN-28)等癌症细胞培养于10%灭活胎牛血清,100U/mL青霉素,100μg/mL链霉素的RPMI1640或DMEM培养基中,于37℃的10%CO2培养箱及饱和湿度条件下培养。对于正常培养,贴壁细胞均用1倍浓度的胰蛋白酶-EDTA中进行胰蛋白酶消化脱壁后,按1:5~1:20的比率将细胞每3~4天传代一次(当细胞在培养皿中所覆盖面积为80-90%时)。
2.药物抗肿瘤活性测定
实验前一天,所述细胞在1倍浓度胰蛋白酶-EDTA溶液中进行胰蛋白酶消化约5分钟(在37℃培养箱中),悬浮于10mL的DMEM或RPMI培养液中,然后接种到96孔板。细胞按密度为1~2×104/孔接种到标准DMEM或RPMI培养基中,体积为50μL。
第二天,用标准DMEM培养液制备受试金属配合物的一系列2x浓度稀释贮液(0.003μM~60μM)。将50μL稀释贮液加入到相对应平板孔中,测试平板中的细胞所接受的受试配合物最终浓度为(0.0015μM~30μM)一系列9个不同的剂量组,每组3个平行孔。因此2种化合物(例如X和Y)可以在一个板中同时进行试验(表1)。除了试验化合物之外,每个板还包括阳性对照(0.5μM阿霉素)和阴性对照(DMSO)。
表1:试验中96孔板与受测化合物终浓度的测试方案
96孔板培养板置37℃培养箱中培养48小时后,弃去上清液,加入200μL/孔新鲜配置的含有20μL的0.5mg/mLMTT溶液(0.5%MTT)的无血清培养液,37℃继续培养5小时。弃去上清液,加入150μLDMSO,震荡混匀后,在酶联免疫检测仪OD490nm处测量各孔的吸光值,计算细胞生长抑制率,公式为:细胞生长抑制率=[(阴性对照组OD值—实验组OD值)/阴性对照组OD值]×100%。并由细胞生长抑制率与对应浓度,通过软件计算出IC50值(半数抑制率IC50,细胞生长抑制率为50%的药物浓度)。对于每一种化合物,这种测定都另外重复两次,一旦完成三次测定,就用原始数据计算出IC50值。
3.实验结果
经MTT法测定不同浓度的编号N048、N055、N060、N061、N062等对于肿瘤细胞生长活性影响,结果如图1-图16所示。编号N048、N055、N060、N061、N062等对各种肿瘤细胞体外生长抑制活性IC50值如下表所示(表2)。
表2.配合物对肿瘤细胞体外生长抑制活性
二、体内抗肿瘤活性研究
1.实验材料
1.1.实验动物与瘤株
8-12周龄健康Balb/c小鼠,雌雄各半(体重22-25g),每个笼子装5只小鼠,置于清洁动物饲养间,自由摄食饮水。
使用小鼠结肠癌细胞C26在Balb/c小鼠两侧皮下造异源实体肿瘤模型。
1.2.测试药物
所有配合物都配制在20%DMSO载体溶液中,对编号N048,浓度为4mg/mL;对编号N060,浓度为4mg/mL。
2.实验步骤
2.1.动物造模与分组
在小鼠两侧前掖下通过皮下注射5×106个培养细胞建立了C26实体瘤模型,待80%肿瘤体积大于80mm3时,将所有小鼠随机分成实施例处理组和载体对照组。
2.2.给药方法
所有所述配合物都以腹腔注射给药,30mg/kg/天,对照组接受无药载体注射,一周5天持续3周,休息一周,或直到小鼠不得不由于大肿瘤而处死。
2.3.肿瘤测量
游标卡尺测量肿瘤的两个轴(mm)(L,最长轴;W,最短轴)。用公式:肿瘤体积V=0.5×L×W2来估算肿瘤体积V(立方毫米,mm3)。在药物治疗的同时每天进行肿瘤测量,在治疗结束后一周3-4次。
2.4.抗肿瘤效果的评价
抗肿瘤活性通过绘制肿瘤生长曲线以及计算最大肿瘤生长抑制率(最大抑瘤率,MTGI)进行评价:最大肿瘤生长抑制(MTGI)=[(载体对照组平均肿瘤体积—给药组平均肿瘤体积)/载体对照组平均肿瘤体积]×100%。
2.5.实验结果
结果经统计分析,编号N048的最大抑瘤率为16%,p<0.05;编号N060的最大抑瘤率为10%,p<0.05。经one-wayANOVA分析后所绘出的肿瘤生长曲线如图17和图18。
3.结论
实验数据显示,金属配合物对胃癌、肺癌、肝癌、大肠癌、宫颈癌、卵巢癌、乳腺癌、白血病、结肠癌等恶性肿瘤具有显著的抑瘤活性,将其开发为新型抗肿瘤新药具有广泛的应用前景。
Claims (2)
1.取代吡咯烷氨荒酸铋(Ⅲ)配合物,其特征在于:所述取代吡咯烷氨荒酸铋(Ⅲ)配合物的结构简式如下:
,
R2和R3为H,R1为或;
或者,R1和R3为H,R2为F;
或者,R1和R2为H,R3为F;
或者,R1为H,R2和R3为F。
2.如权利要求1所述的取代吡咯烷氨荒酸铋(Ⅲ)配合物的制备方法,其特征在于:
取(2R)-2-甲基吡咯烷和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物重结晶,得到(2R)-2-甲基吡咯烷氨荒酸铋;
或者是:取L-脯氨酸乙酯盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物重结晶,(S)-2-乙氧羰基吡咯烷氨荒酸铋;
或者是:取R-3-氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到(3R)-3-氟吡咯烷氨荒酸铋;
或者是:取S-3-氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到(3S)-3-氟吡咯烷氨荒酸铋;
或者是:取3,3-二氟吡咯烷盐酸盐和NaOH加入无水甲醇,搅拌溶解后滴加CS2,得到反应液,取BiCl3和无水甲醇的混合溶液滴入上述反应液中,反应结束后进行抽滤、醇洗、干燥,固体物在硅胶柱上纯化分离得到3,3-二氟吡咯烷氨荒酸铋。
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