Institute of Biological Chemistry, Washington State University, Pullman, Washington 99164-6340, USA.
J Biol Chem. 2013 Jan 4;288(1):466-79. doi: 10.1074/jbc.M112.400689. Epub 2012 Nov 16.
Podophyllum species are sources of (-)-podophyllotoxin, an aryltetralin lignan used for semi-synthesis of various powerful and extensively employed cancer-treating drugs. Its biosynthetic pathway, however, remains largely unknown, with the last unequivocally demonstrated intermediate being (-)-matairesinol. Herein, massively parallel sequencing of Podophyllum hexandrum and Podophyllum peltatum transcriptomes and subsequent bioinformatics analyses of the corresponding assemblies were carried out. Validation of the assembly process was first achieved through confirmation of assembled sequences with those of various genes previously established as involved in podophyllotoxin biosynthesis as well as other candidate biosynthetic pathway genes. This contribution describes characterization of two of the latter, namely the cytochrome P450s, CYP719A23 from P. hexandrum and CYP719A24 from P. peltatum. Both enzymes were capable of converting (-)-matairesinol into (-)-pluviatolide by catalyzing methylenedioxy bridge formation and did not act on other possible substrates tested. Interestingly, the enzymes described herein were highly similar to methylenedioxy bridge-forming enzymes from alkaloid biosynthesis, whereas candidates more similar to lignan biosynthetic enzymes were catalytically inactive with the substrates employed. This overall strategy has thus enabled facile further identification of enzymes putatively involved in (-)-podophyllotoxin biosynthesis and underscores the deductive power of next generation sequencing and bioinformatics to probe and deduce medicinal plant biosynthetic pathways.
鬼臼属植物是 (-)-鬼臼毒素的来源, (-)-鬼臼毒素是一种芳基四氢萘木脂素,用于半合成各种强效且广泛应用于癌症治疗的药物。然而,其生物合成途径在很大程度上仍然未知,最后一个明确证明的中间体是 (-)-马替瑞林。在此,对 Podophyllum hexandrum 和 Podophyllum peltatum 的转录组进行了大规模平行测序,并对相应的组装体进行了后续的生物信息学分析。通过确认组装序列与先前确定的参与鬼臼毒素生物合成的各种基因以及其他候选生物合成途径基因的序列一致,首先验证了组装过程。这一贡献描述了对后者中的两种基因的特征,即来自 Podophyllum hexandrum 的细胞色素 P450s CYP719A23 和来自 Podophyllum peltatum 的 CYP719A24。这两种酶都能够通过催化亚甲二氧基桥形成将 (-)-马替瑞林转化为 (-)-普维托利德,并且不作用于其他测试的可能底物。有趣的是,本文描述的酶与生物碱生物合成中亚甲二氧基桥形成酶高度相似,而与木质素生物合成酶更相似的候选酶在使用的底物上没有催化活性。因此,这种整体策略使得易于进一步鉴定可能参与 (-)-鬼臼毒素生物合成的酶,并强调了下一代测序和生物信息学在探测和推断药用植物生物合成途径方面的推断能力。