Synthesis and Study of Amphotericin B Derivatives
University Of Illinois At Urbana-Champaign, Urbana IL
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Abstract
DESCRIPTION (provided by applicant): This overall goal of this research program is to develop new synthesis strategies and methods and use them to characterize the channel-based mechanism of action of amphotericin B (AmB) in atomistic detail, thereby enabling the rational optimization of the therapeutic index of this clinically-vital but also highly toxic antimycotic agent. Computer modeling studies predict that certain protic functional groups appended to the natural product are critical for self-assembly of the AmB/cholesterol channel (which leads to toxicity) but are not critical for the AmB/ergosterol channel (which leads to antifungal activity), thus leading to the following hypothesis: improvements in the therapeutic index of AmB can be achieved via the selective deletion of one or more of these protic functional groups. This research program aims to test this hypothesis systematically. New synthetic strategies and methods will be developed to enable the twelve protic functional groups appended to amphotericin B to be "deleted", one at a time. Analogous to the process of alanine scanning in protein science, the consequences of each protic functional group deletion will be determined in a battery of biophysical and biological assays. Statement in lay language: The antibiotic called "amphotericin" is the most effective medicine currently available for the treatment of life- threatening fungal infections. Unfortunately, however, this drug has many toxic side-effects that often limit its efficacy. This research program aims to understand more clearly how amphotericin works and minimize these toxic side-effects using a combination of organic synthesis and biological assays.
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