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Efficient measurement and factorization of high-order drug interactions in Mycobacterium tuberculosis

October 11, 2017

Murat Cokol, Nurdan Kuru, Ece Bicak, Jonah Larkins-Ford and Bree B. Aldridge
Science Advances 11 Oct 2017: Vol. 3, no. 10, e1701881. DOI: 10.1126/sciadv.1701881

Abstract

Combinations of three or more drugs are used to treat many diseases, including tuberculosis. Thus, it is important to understand how synergistic or antagonistic drug interactions affect the efficacy of combination therapies. However, our understanding of high-order drug interactions is limited because of the lack of both efficient measurement methods and theoretical framework for analysis and interpretation. We developed an efficient experimental sampling and scoring method [diagonal measurement of n-way drug interactions (DiaMOND)] to measure drug interactions for combinations of any number of drugs. DiaMOND provides an efficient alternative to checkerboard assays, which are commonly used to measure drug interactions. We established a geometric framework to factorize high-order drug interactions into lower-order components, thereby establishing a road map of how to use lower-order measurements to predict high-order interactions. Our framework is a generalized Loewe additivity model for high-order drug interactions. Using DiaMOND, we identified and analyzed synergistic and antagonistic antibiotic combinations against Mycobacteriumtuberculosis. Efficient measurement and factorization of high-order drug interactions by DiaMOND are broadly applicable to other cell types and disease models.

 

Source: http://advances.sciencemag.org/content/3/10/e1701881