In vitro studies with penicillin and [3lHlstreptomycin in four strains of streptococci (S. faecalis, S. sanguis, and S. mitis) were performed by simultaneously measuring the rates of bacterial killing and uptake of streptomycin. In S. faecalis, penicillin stimulated streptomycin uptake, as has been shown by Moellering and Weinberg (R. C. Moellering, Jr., and A. N. Weinberg, J. Clin. Invest. 50:2580-2584). Moreover, the antibiotic combination was associated with an enhanced bactericidal rate which temporally correlated with ,-lactam-induced aminoglycoside uptake. In contrast, in viridans group streptococci (S. sanguis and S. mitis) penicillin had no effect on streptomycin uptake and a minimal effect on bactericidal rate when compared with either drug alone. These data suggested that the stimulation of streptomycin uptake in streptococci by penicillin is strain or species specific and that important differences exist between enterococci and viridans group streptococci regarding the mechanisms of ,-lactam-aminoglycoside potentiation.Antibiotic synergy is perhaps best exemplified by the use of a P-lactam combined with an aminoglycoside in the therapy of enterococcal endocarditis. The enhanced antibacterial activity of the combination has been well established both in clinical trials (26) and in an experimental model of endocarditis (14). In studies on the mechanism of synergy in enterococci, Moellering and colleagues (35, 36) demonstrated that penicillin enhanced intracellular entry of otherwise sublethal concentrations of streptomycin, suggesting that the mechanism of sytergy in Streptococcusfaecalis was similar to that shown earlier in Escherichia coli by Plotz and Davis (36). However, from a mechanistic standpoint it is not clear how penicillin would enhance uptake of aminoglycosides in most gram-positive bacteria since no barrier to aminoglycoside penetration comparable to that of gramnegative bacilli has been described. Time kill studies (35,36) also demonstrated that enhancement of streptomycin entry was associated with an increase in the rate of killing during 24 h as determined by the inability of cells to form colonies on agar after overnight incubation. Twenty-four-hour time kill studies have since become a generally accepted in vitro method for examining bactericidal synergism in both grampositive and gram-negative bacteria.Numerous 24-h in vitro time kill studies have shown apparent synergy (i.e., a >2 logl0 enhanced bactericidal effect) between P-lactams and aminoglycosides in grampositive organisms (5,12,20,21,41,44). In vitro (22,24, 33) and in vivo (23, 25, 33) studies with Staphylococcus aureus and Staphylococcus epidermidis in our laboratory, however, indicated that a second mechanism by which cell wall-active antibiotics (,-lactams, vancomycin) enhance the bactericidal effect of aminoglycosides (or rifampin) is by preventing regrowth of relatively resistant subpopulations. Twentyfour-hour time kill studies often do not distinguish between the aforementioned mechanisms of drug potentiation, and ...
