A Proposed Mechanism of Monensin Action in Inhibiting Ruminant Bacterial Growth: Effects on Ion Flux and Protonmotive Force

Abstract

Streptococcus bovis, a Gram-positive ruminal bacterium, was unable to grow in the presence of monensin. When monensin (5 mg/liter) was added to actively growing cultures, there was an immediate decrease in growth rate, and within 3 h no further growth was observed. Glucose utilization and lactate production continued for another 8 h even though growth had ceased. Monensin caused a decrease (P<.05) in intracellular K⁺, a decrease (P<.05) in intracellular pH and an increase (P<.05) in intracellular Na⁺. The net exchange of K⁺ for Na⁺ and H⁺ via monensin was driven by the difference in concentration of K⁺ and Na⁺ across the cell membrane. Non-treated cells maintained a 70-fold gradient (inside higher) for K⁺, while the Na⁺ gradient was only 2.7-fold (inside higher). Previous models were based on a reverse mechanism whereby monensin would drive an efflux of Na⁺ from ruminal bacteria, and were not supported by experimental measurements of intracellular Na⁺ and K⁺. Copyright © 1987. American Society of Animal Science . Copyright 1987 by American Society of Animal Science