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Quantitative Purity–Activity Relationships of Natural Products: The Case of Anti-Tuberculosis Active Triterpenes from Oplopanax horridus

Title: Quantitative Purity–Activity Relationships of Natural Products: The Case of Anti-Tuberculosis Active Triterpenes from Oplopanax horridus
Authors: Feng Qiu, Geping Cai, Birgit U. Jaki, David C. Lankin, Scott G. Franzblau, and Guido F. Pauli
Date: 2013/0128
Reference: J. Nat. Prod., 2013, 76 (3), pp 413–419
DOI: http://dx.doi.org/10.1021/np3007809
Download link:  http://pubs.acs.org/doi/abs/10.1021/np800329j

 

The present study provides an extension of the previously developed concept of purity–activity relationships (PARs) and enables the quantitative evaluation of the effects of multiple minor components on the bioactivity of residually complex natural products. The anti-tuberculosis active triterpenes from the Alaskan ethnobotanical Oplopanax horridus were selected as a case for the development of the quantitative PAR (QPAR) concept. The residual complexity of the purified triterpenes was initially evaluated by 1D- and 2D-NMR and identified as a combination of structurally related and unrelated impurities. Using a biochemometric approach, the qHNMR purity and anti-TB activity of successive chromatographic fractions of O. horridus triterpenes were correlated by linear regression analysis to generate a mathematical QPAR model. The results demonstrate that impurities, such as widely occurring monoglycerides, can have a profound impact on the observed antimycobacterial activity of triterpene-enriched fractions. The QPAR concept is shown to be capable of providing a quantitative assessment in situations where residually complex constitution contributes toward the biological activity of natural products.

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