Origins of cell selectivity of cationic steroid antibiotics
B Ding, N Yin, Y Liu, J Cardenas-Garcia… - Journal of the …, 2004 - ACS Publications
B Ding, N Yin, Y Liu, J Cardenas-Garcia, R Evanson, T Orsak, M Fan, G Turin, PB Savage
Journal of the American Chemical Society, 2004•ACS PublicationsA key factor in the potential clinical utility of membrane-active antibiotics is their cell
selectivity (ie, prokaryote over eukaryote). Cationic steroid antibiotics were developed to
mimic the lipid A binding character of polymyxin B and are shown to bind lipid A derivatives
with affinity greater than that of polymyxin B. The outer membranes of Gram-negative
bacteria are comprised primarily of lipid A, and a fluorophore-appended cationic steroid
antibiotic displays very high selectivity for Gram-negative bacterial membranes over Gram …
selectivity (ie, prokaryote over eukaryote). Cationic steroid antibiotics were developed to
mimic the lipid A binding character of polymyxin B and are shown to bind lipid A derivatives
with affinity greater than that of polymyxin B. The outer membranes of Gram-negative
bacteria are comprised primarily of lipid A, and a fluorophore-appended cationic steroid
antibiotic displays very high selectivity for Gram-negative bacterial membranes over Gram …
A key factor in the potential clinical utility of membrane-active antibiotics is their cell selectivity (i.e., prokaryote over eukaryote). Cationic steroid antibiotics were developed to mimic the lipid A binding character of polymyxin B and are shown to bind lipid A derivatives with affinity greater than that of polymyxin B. The outer membranes of Gram-negative bacteria are comprised primarily of lipid A, and a fluorophore-appended cationic steroid antibiotic displays very high selectivity for Gram-negative bacterial membranes over Gram-positive bacteria and eukaryotic cell membranes. This cell selectivity of cationic steroid antibiotics may be due, in part, to the affinity of these compounds for lipid A.
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