Rao K V, Hanuman J B, Alvarez C, Stoy M, Juchum J, Davies R M, Baxley R
Department of Medicinal Chemistry University of Florida, Gainesville 32610-0485, USA.
Pharm Res. 1995 Jul;12(7):1003-10. doi: 10.1023/a:1016206314225.
In view of the demonstrated antitumor activity of taxol, ready availability of the drug is important. The current isolation methods starting from the bark of Taxus brevifolia involve multiple manipulations, leading to only taxol and in a yield of 0.01%. A new process consisting of a single reverse phase column is introduced here, and the present purpose is to determine its large scale applicability.
The chloroform extractable fraction of the bark of T. brevifolia is applied directly on to a C-18 bonded silica column in 25% acetonitrile/water, with elution using a step gradient: 30-50% acetonitrile/water. On standing, eight different taxanes, including taxol, crystallize out directly from different fractions. The crystals are filtered and purified further by recrystallization. Taxol and four other taxanes are purified this way. The other three require a short silica column. Taxol is freed from cephalomannine by selective ozonolysis.
The large scale process gave taxol (0.04%), 10-deacetylbaccatin III (0.02%), 10-deacetyl taxol-7-xyloside (0.1%), 10-deacetyl taxol-C-7-xyloside (0.04%), 10-deacetyl cephalomannine-7-xyloside (0.006%), taxol-7-xyloside (0.008%), 10-deacetyl taxol (0.008%) and cephalomannine (0.004%). Processing of the needles of T. brevifolia gave brevifoliol (0.17%), and that of the wood, 10-deacetyl taxol-C-7-xyloside (0.01%) and 10-deacetyl taxol-C.
The reverse phase column process is simpler (one column, direct crystallization), more efficient (eight taxanes obtained simultaneously) and also gives higher yields.
鉴于紫杉醇已证实的抗肿瘤活性,该药物的可得性很重要。目前从短叶红豆杉树皮开始的分离方法涉及多种操作,仅能得到紫杉醇,产率为0.01%。本文介绍了一种由单一反相柱组成的新工艺,目的是确定其大规模应用的适用性。
短叶红豆杉树皮的氯仿可萃取部分直接应用于C-18键合硅胶柱,以25%乙腈/水为溶剂,采用梯度洗脱:30 - 50%乙腈/水。静置后,包括紫杉醇在内的八种不同紫杉烷直接从不同馏分中结晶出来。晶体经过过滤,并通过重结晶进一步纯化。紫杉醇和其他四种紫杉烷通过这种方法纯化。另外三种需要使用短硅胶柱。通过选择性臭氧分解使紫杉醇与三尖杉宁碱分离。
大规模工艺得到了紫杉醇(0.04%)、10 - 去乙酰巴卡亭III(0.02%)、10 - 去乙酰紫杉醇 - 7 - 木糖苷(0.1%)、10 - 去乙酰紫杉醇 - C - 7 - 木糖苷(0.04%)、10 - 去乙酰三尖杉宁碱 - 7 - 木糖苷(0.006%)、紫杉醇 - 7 - 木糖苷(0.008%)、10 - 去乙酰紫杉醇(0.008%)和三尖杉宁碱(0.004%)。短叶红豆杉针叶的加工得到了短叶醇(0.17%),木材的加工得到了10 - 去乙酰紫杉醇 - C - 7 - 木糖苷(0.01%)和10 - 去乙酰紫杉醇 - C。
反相柱工艺更简单(一根柱,直接结晶)、更高效(同时得到八种紫杉烷)且产率更高。
