Kinetics and Mechanisms of Action of Trimethoprim and Sulfonamides, Alone or in Combination, upon &lt;i&gt;Escherichia coli&lt;/i&gt; (Part 1 of 2)

Seydel, Joachim K.; Wempe, E; Miller, G.H.; Miller, Luisa

doi:10.1159/000220857

Cited by 40 publications

(11 citation statements)

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“…This is consistent with the proposed site of action [Seydel et al, 1972], At low concentrations the antibacterial effect is of bacteriostatic nature for the TMP derivatives as well as for SA and DDS. From dose-response curves the iso values are determined using an iteration programme [Schaper.…”

Section: Single Activities O F Brodimoprim Andsupporting

confidence: 90%

“…Bacterial growth kinetic techniques have been shown to be an especially suit able model for the quantification of drug action and to differentiate between antag onistic, additive or synergistic effects of drug combinations [Seydel et al, 1972[Seydel et al, , 1973Wempe, 1977, 1978). In previous papers we have reported on such studies to quantify the synergistic action of trimethoprim (TMP) in the presence of various sulfonamides (SA).…”

Section: Introductionmentioning

confidence: 99%

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Bacterial Growth Kinetics of <i>Escherichia coli</i> and Mycobacteria in the Presence of Brodimoprim and Metioprim Alone and in Combination with Sulfamerazine and Dapsone (VI)

Seydel¹,

Wempe²,

Rosenfeld³

1983

Chemotherapy

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Bacterial growth kinetics and checkerboard titration experiments have been performed to determine the inhibitory power of metioprim (I) and brodimoprim (II) alone and in combination with diaminodiphenylsulfone (DDS) using Escherichia coli and mycobacteria as test organisms. The evaluated potency of the new TMP derivatives alone and in combination is compared to TMP and other derivatives. A strongly synergistic activity of I and II in combination with DDS against E. coli and various mycobacteria is observed which is also operative in case of highly DDS-resistant mycobacterial strains. The implication of these findings for the development of a combined chemotherapy with these drugs against atypical mycobacterial infections – especially leprosy -is discussed.

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Section: Single Activities O F Brodimoprim Andsupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Bacterial Growth Kinetics of <i>Escherichia coli</i> and Mycobacteria in the Presence of Brodimoprim and Metioprim Alone and in Combination with Sulfamerazine and Dapsone (VI)

Seydel¹,

Wempe²,

Rosenfeld³

1983

Chemotherapy

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“…This has been clearly shown in the effect on the kinetics of microbial generation for combinations of trimethoprim and sulfonamides (6,15,28).…”

Section: Resultsmentioning

confidence: 97%

Microbial Kinetics and Dependencies of Individual and Combined Antibiotic Inhibitors of Protein Biosynthesis

Garrett

Heman-Ackah

1973

Antimicrob Agents Chemother

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The generation rate constants for the steady-state growth of antibiotic-inhibited Escherichia Although chloramphenicol and tetracycline may bind differently on the ribosomal complex (7,22,24,25,30), they have been shown (12,27) to be "kinetically equivalent" in their growthinhibitory action against Escherichia coli. Erythromycin and the lincosaminide antibiotics are also presumed to be different in the mechanistic details of their action at the ribosomal site (3, 31), yet they demonstrate "kinetic equivalence" except where allosteric effects at the binding sites may yield antagonistic reactions (13,20,21,27). This paper presents the results of studies to determine the effects of combinations chosen from tetracycline, chloramphenicol, erythromycin, and the lincosaminides on the generation rate of E. coli and rationalizes the microbial kinetic dependencies on the concentrations of the separate and combined antibiotics. The microbial kinetics of deoxylincomycin have been studied in detail.MATERIALS AND METHODS Growth medium. Antibiotic medium 3 (Difco Laboratories) was used as the growth medium. The medium was clarified by filtration through 22-jAm membrane filters (HA type; Millipore Corp.) followed by 0.45-Mm membrane filters, and then autoclaved. The pH was 7.05 ± 0.05.Bacteria and growth conditions. E. coli ATCC 12407, referred to as strain B/r in previous publications (12-15, 17, 18, 20, 21, 26), was used in all experiments. Slants were prepared from single-colony isolates and stored in a refrigerator at 4 C.Overnight cultures, grown aerobically at 37.5 C in a shaker, were diluted 1,000-fold into fresh medium and brought to exponential growth. Further dilutions were made to provide replicate exponential cultures of 50 ml with a cell density of about 106/ml at the time that antibiotics were added.Antibiotics. Assayed samples of lincomycin hydrochloride (895 gg base eq/mg), deoxylincomycin hydrochloride (893.4 gg base eq/mg), clindamycin hydrochloride (860 ug base eq/mg), U24729 A as the hydrochloride (906.1 gg base eq/mg), erythromycin lactobionate (670 yg base eq/mg), and tetracycline hydrochloride (USP) were used. The concentrations employed in all experiments refer to the salts of these antibiotics. Stock solutions were aseptically prepared by membrane filtration and stored at 4 C. Total-count method. Total counts of bacterial cultures were determined with a Coulter counter (14). Samples of 1 ml were withdrawn at 20-to 30-min intervals and diluted in Formol-saline to be within a range of 10,000 to 30,000 counts per 50 Mliters on a

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“…has been studied extensively [1,9,15]. The clinical usefulness of this chemo therapeutic combination is well established [6].…”

Section: Nh-2~\mentioning

confidence: 99%

Investigations on Plasma Levels of Sulfamethoxazole in Man after Single and Chronic Oral Administration Alone and in Combination with Trimethoprim

Nolte¹,

Büttner²

1974

Chemotherapy

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Sulfamethoxazole (SMZ) plasma peak levels between 40 and 60 μg/ml of the total sulfonamide concentration, representing the unchanged drug and all its metabolites, and between 30 and 50 μg/ml of the potentially bacteriostatic fraction are reached within 2–4 h after ingestion of 800 mg SMZ alone or in combination with 160 mg trimethoprim (TMP). Plasma disappearance of SMZ is characterized by first order processes. Elimination half-lives average about 10 h for the total sulfonamide and about 8 h for the active fraction which represents almost exclusively the unchanged drug. Assuming total absorption the apparent volume of distribution for SMZ is approximately 11 liter. Steady-state plasma levels of 50–80 μg/ml of the total SMZ and of 32–47 μg/ml of the active fraction are achieved after 2–3 days and maintained on a chronic oral dosing schedule of 800 mg SMZ every 12 h. The average plateau concentration of the unchanged and bacteriostatically active drug is approximately 65% of the total sulfonamide concentration. Simultaneous application of TMP does not alter the pharmacokinetics of SMZ neither in case of single nor of chronic oral administration. Both drugs are, therefore, well suitable for combined clinical chemotherapy.

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Kinetics and Mechanisms of Action of Trimethoprim and Sulfonamides, Alone or in Combination, upon <i>Escherichia coli</i> (Part 1 of 2)

Cited by 40 publications

References 0 publications

Bacterial Growth Kinetics of <i>Escherichia coli</i> and Mycobacteria in the Presence of Brodimoprim and Metioprim Alone and in Combination with Sulfamerazine and Dapsone (VI)

Bacterial Growth Kinetics of <i>Escherichia coli</i> and Mycobacteria in the Presence of Brodimoprim and Metioprim Alone and in Combination with Sulfamerazine and Dapsone (VI)

Microbial Kinetics and Dependencies of Individual and Combined Antibiotic Inhibitors of Protein Biosynthesis

Investigations on Plasma Levels of Sulfamethoxazole in Man after Single and Chronic Oral Administration Alone and in Combination with Trimethoprim

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