CN103319399B - 阿格列汀中间体r-3-氨基哌啶双盐酸盐的制备方法 - Google Patents
阿格列汀中间体r-3-氨基哌啶双盐酸盐的制备方法 Download PDFInfo
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Abstract
本发明的主要目的是提供一种路线简短、绿色环保、低成本制备苯甲酸阿格列汀中间体R‑3‑氨基哌啶双盐酸盐的方法。反应采用价廉易得的消旋体化合物3‑哌啶甲酰胺作为原料,在1‑氟萘、双氧水与氟硼酸的作用下,发生类似酰胺的霍夫曼重排反应,得到比底物碳原子数少1的3‑氨基哌啶。该反应条件简单,室温下即可进行;过程中操作简单,易于监控;所用溶剂为乙醇‑水混合物,价格低廉,绿色环保。缩碳产物3‑氨基哌啶经浓盐酸酸化成盐,所得盐酸盐经D‑酒石酸拆分、成盐后,得到目标产物R‑3‑氨基哌啶双盐酸,手性纯度高,ee值大于99.5%。反应总产率可达89%‑93%,成本较低,非常适合工业化大生产。
Description
技术领域:
本发明涉及一种阿格列汀中间体R-3-氨基哌啶双盐酸的制备方法,属于医药领域。
发明背景:
苯甲酸阿格列汀(Alogliptin benzoate)是日本Takeda公司研发的丝氨酸蛋白酶二肽基肽酶IV(DPP-IV)抑制剂,能维持体内胰高血糖素样肽1(GLP-1)和葡萄糖依赖性促胰岛素多肽(GIP)的水平,促进胰岛素的分泌,从而发挥降糖疗效。2010年4月获得日本厚生劳动省的上市批准。
阿格列汀是继西他列汀、维格列汀之后问世的又一种口服有效的特异性DPP-IV抑制剂。DPP-IV抑制剂口服生物利用度高,与注射剂相比大大提高了病人的依从性,另外DPP-IV抑制剂可使内源性GLP-1和其他促胰岛素激素保持在生理水平,促进胰岛素分泌,降低血糖并且能避免低血糖、肥胖等并发症,因此这类药物非常适合2型糖尿病的早期治疗。研究表明,阿格列汀适合口服和肌肉注射,无论单用还是与其它抗糖尿病药物合用均能明显降低糖尿病病人HbAlc(血液中糖化血红蛋白)水平,具有临床意义并具有良好的耐受性,而且不会引起病人体重的增加,也不会带来低血糖的风险,应用前景乐观。
R-3-氨基哌啶双盐酸盐是阿格列汀合成过程中的关键中间体,现有合成方法主要有以下几种:
WO2007112368中报道,以链状手性氨基酸为原料,经过酯化、环合、还原和成盐,最终得到目标产物。此方法用到比较昂贵、危险性较高的四氢铝锂,且步骤长、操作繁琐,不适合大工业生产:
WO2011160037中报道,以3-氨基吡啶为原料,依次经过氨基酰化、氢化还原、D-(+)-二苯甲酰酒石酸(D-DBTA)拆分后,再成盐酸盐。此方法需要加压反应,反应设备要求较高且所需催化剂价格高,步骤繁琐,总收率58.5%,成本较高,不利于放大生产:
发明内容:
本发明的主要目的是提供一种路线简短、绿色环保、低成本制备苯甲酸阿格列汀中间体R-3-氨基哌啶双盐酸盐的方法。
本发明的技术方案是一种R-3-氨基哌啶双盐酸盐的制备方法,其特征在于,
第一步以外消旋体化合物3-哌啶甲酰胺为原料,在1-氟萘、氧化剂、氟硼酸作用下,得到类似酰胺的霍夫曼重排反应产物,浓盐酸酸化,得3-氨基哌啶双盐酸盐:
所述的氧化剂为双氧水;3-哌啶甲酰胺与1-氟萘、氧化剂、氟硼酸的反应在室温下进行,所用溶剂为乙醇-水混合物,乙醇与水的体积比为10~19∶1,优选12∶1;
第二步3-氨基哌啶双盐酸盐与碱反应,游离出的3-氨基哌啶用D-酒石酸拆分,产物经浓盐酸酸化,得到R-3-氨基哌啶双盐酸盐:
本发明的有益效果是反应采用价廉易得的消旋体化合物3-哌啶甲酰胺作为原料,在1-氟萘、双氧水与氟硼酸的作用下,发生类似酰胺的霍夫曼重排反应,得到比底物碳原子数少1的3-氨基哌啶。该反应条件简单,室温下即可进行;过程中操作简单,易于监控;所用溶剂为乙醇-水混合物,价格低廉,绿色环保。缩碳产物3-氨基哌啶经浓盐酸酸化成盐,所得盐酸盐经D-酒石酸拆分、成盐后,得到手性纯度较高的R-3-氨基哌啶双盐酸,ee值大于99.5%。反应总产率可达89%~93%,成本较低,非常适合工业化大生产。
具体实施方式:
实施例1:
在2L反应瓶中,将146g1-氟萘(1mol)加入到925mL乙醇与75mL水的混合溶液中,搅拌下加入氟硼酸105.4g(1.2mol)和30%双氧水136g(1.2mol),室温搅拌0.5小时,再加入3-甲酰胺基哌啶128.2g(1mol),室温反应8小时。溶剂蒸干,残余物用500mL乙酸乙酯分散后,加浓盐酸150mL,搅拌0.5小时,过滤,干燥,得167.0g消旋3-氨基哌啶双盐酸盐,产率96.5%。
将165g(0.95mol)消旋3-氨基哌啶双盐酸盐与500mL无水乙醇混合于1L反应瓶中,搅拌下加入氢氧化钠调pH值至中性后,加入D-酒石酸143g(0.95mol),回流反应2小时,搅拌下自然降至室温,过滤,得到白色固体。所得固体加入500mL无水乙醇,回流溶解,缓慢滴加200mL浓盐酸,自然降至室温搅拌1小时后,过滤,干燥,得79.2g产品,ee值为99.8%,产率96.0%。
mp170-172℃;IR(KBr)3700-2300,1662,1610,1441,1396,1200-900,899cm-1;1HNMR(400MHz,D2O)δ3.40(dd,J=12.9,3.7Hz,1H),3.33-3.23(m,1H),3.18(dd,J=12.9,9.6Hz,1H),3.12-3.02(m,1H),2.90-2.80(m,1H),2.14-1.87(m,2H),1.87-1.71(m,2H);EIMS m/z100(M+).
实施例2:
在2L反应瓶中,将146g1-氟萘(1mol)加入到900mL乙醇与100mL水的混合溶液中,搅拌下加入氟硼酸105.4g(1.2mol)和30%双氧水136g(1.2mol),室温搅拌0.5小时,再加入3-甲酰胺基哌啶128.2g(1mol),室温反应8小时。溶剂蒸干,残余物用500mL乙酸乙酯分散后,加浓盐酸150mL,搅拌0.5小时,过滤,干燥,得163.2g消旋3-氨基哌啶双盐酸盐,产率94.3%。
将147g(0.85mol)消旋3-氨基哌啶双盐酸盐与450mL无水乙醇混合于1L反应瓶中,搅拌下加入氢氧化钠调pH值至中性后,加入D-酒石酸127.5g(0.85mol),回流反应2小时,搅拌下自然降至室温,过滤,得到白色固体。所得固体加入500mL无水乙醇,回流溶解,缓慢滴加180mL浓盐酸,自然降至室温搅拌1小时,过滤,干燥,得69.4g产品,ee值为99.6%,产率94.4%。
实施例3:
在2L反应瓶中,将146g1-氟萘(1mol)加入到950mL乙醇与50mL水的混合溶液中,搅拌下加入氟硼酸105.4g(1.2mol)和30%双氧水136g(1.2mol),室温搅拌0.5小时,再加入3-甲酰胺基哌啶128.2g(1mol),室温反应8小时。溶剂蒸干,残余物用500mL乙酸乙酯分散后,加浓盐酸150mL,搅拌0.5小时,过滤,干燥,得164.1g消旋3-氨基哌啶双盐酸盐,产率94.8%。
将164g(0.95mol)消旋3-氨基哌啶双盐酸盐与500mL无水乙醇混合于1L反应瓶中,搅拌下加入氢氧化钠调pH值至中性后,加入D-酒石酸142g(0.95mol),回流反应2小时,搅拌下自然降至室温,过滤,得到白色固体。所得固体加入500mL无水乙醇,回流溶解,缓慢滴加200mL浓盐酸,自然降至室温搅拌1小时,过滤,干燥,得77.1g产品,ee值为99.7%,产率94.0%。
Claims (4)
1.阿格列汀中间体R-3-氨基哌啶双盐酸盐的制备方法,其特征在于,
第一步 以外消旋体化合物3-哌啶甲酰胺为原料,在1-氟萘、氧化剂、氟硼酸作用下,得到类似酰胺的霍夫曼重排反应产物3-氨基哌啶,浓盐酸酸化,得3-氨基哌啶双盐酸盐:
所述的氧化剂为双氧水;
第二步 3-氨基哌啶双盐酸盐与碱反应,游离出的3-氨基哌啶用D-酒石酸拆分,产物经浓盐酸酸化,得到R-3-氨基哌啶双盐酸盐:
。
2.根据权利要求1所述的制备方法,第一步反应3-哌啶甲酰胺与1-氟萘、氧化剂、氟硼酸在乙醇-水中进行,乙醇与水的体积比为10~19:1。
3.根据权利要求1所述的制备方法,第一步3-哌啶甲酰胺与1-氟萘、氧化剂、氟硼酸的反应在室温下进行。
4.根据权利要求1所述的制备方法,第一步反应3-哌啶甲酰胺与1-氟萘、氧化剂、氟硼酸在乙醇-水中进行,乙醇与水的体积比为12:1。
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