Tetracycline uptake by susceptible Escherichia coli cells

Abstract

Experiments measuring the initial uptake of commercial (³H) tetracycline exhibit two distinct kinetic phases: a rapid phase followed by a slow phase. (³H) tetracycline purified by chromatography on a Dowex 50WX2 column exhibited only monophasic rapid uptake when tested with susceptible Escherichia coli cells. Cyanide inhibited the uptake of purified (³H) tetracycline only partially while transport of proline and maltose was entirely abolished. Energy independent accumulation of tetracycline may be accounted for by binding to cellular constituents. Uptake of tetracycline-as measured by inhibition of β-galactosidase synthesis-was strongly affected by a shift in temperature from 37°C to 21°C while carrier-mediated transport systems revealed only minor reductions. Taken together with the non-saturability of tetracycline uptake and the evidence for diffusion of tetracycline through phospholipid bilayers [Argast and Beck (1984) Antimicrob Agents Chemother 26:263–265] these data support the hypothesis that tetracycline enters the cytoplasm by diffusion.