Rao Karumanchi V, Na Min Kyun, Cook Jennifer C, Peng Jiangnan, Matsumoto Rae, Hamann Mark T
Department of Pharmacognosy and National Center for the Development of Natural Products, and Department of Pharmacology, School of Pharmacy, The University of Mississippi, University, MI 38677, USA.
J Nat Prod. 2008 May;71(5):772-8. doi: 10.1021/np070508g. Epub 2008 Apr 12.
Four new kahalalides, V (1), W (2), X (3), and Y (4), as well as six previously characterized kahalalides have been isolated from a two-year collection of the sacoglossan mollusk Elysia rufescens. Curiously, kahalalide B, previously isolated in high yield from E. rufescens, was found to be essentially absent from these collections despite identical collection sites and times with previous collections. In addition, kahalalide K, which to date has only been reported from Bryopsis sp., was found in this collection of E. rufescens, suggesting that the production of these metabolites could potentially be from a microbial association with the mollusk and algae, and this relationship is continuously evolving in response to changes in the environment and predation. The structures of new peptides have been established on the basis of extensive 1D and 2D NMR spectroscopic data analysis. Kahalalide V (1) was ascertained to be an acyclic derivative of kahalalide D (5), while kahalalide W (2) was determined to have a 4-hydroxy-L-proline residue instead of the proline in 5. The arginine residue of kahalalide X (3), an acyclic derivative of kahalalide C, was determined to have an L configuration. Kahalalide Y (4) was found to have an L-proline residue instead of the hydroxyproline in kahalalide K. It is clear from this collection of E. rufescens that the discovery of new kahalalide-related metabolites is still highly feasible.
从两年采集的裸鳃亚目软体动物红海天牛(Elysia rufescens)中分离出了四种新的kahalalide,即V(1)、W(2)、X(3)和Y(4),以及六种先前已鉴定的kahalalide。奇怪的是,之前从红海天牛中高产分离得到的kahalalide B,尽管此次采集地点和时间与之前的采集相同,但在这些样本中基本未发现。此外,迄今为止仅在羽藻属(Bryopsis sp.)中报道过的kahalalide K,在此次红海天牛的样本中被发现,这表明这些代谢产物的产生可能源自与该软体动物和藻类的微生物共生关系,并且这种关系会随着环境和捕食的变化而持续演变。新肽的结构已通过广泛的一维和二维核磁共振光谱数据分析得以确定。已确定kahalalide V(1)是kahalalide D(5)的无环衍生物,而kahalalide W(2)被确定含有一个4-羟基-L-脯氨酸残基,而非5中的脯氨酸。kahalalide X(3)是kahalalide C的无环衍生物,其精氨酸残基被确定具有L构型。kahalalide Y(4)被发现含有一个L-脯氨酸残基,而非kahalalide K中的羟脯氨酸。从此次红海天牛的样本中可以清楚地看出,发现与kahalalide相关的新代谢产物仍然具有很高的可行性。
