Toxicity, uptake, and subcellular distribution in rat hepatocytes of roxithromycin, a new semisynthetic macrolide, and erythromycin base

Villa, Pia; Sassella, D; Corada, Monica; Bartošek, I.

doi:10.1128/aac.32.10.1541

Cited by 27 publications

(15 citation statements)

References 25 publications

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“…The difference was even higher at later stages. In the collection period 60 -90 min., the bile concentration was about 800 mg/l while plasma concentration corresponded to 12.5 mg/l in accordance with the well-known ability of the liver cells to concentrate xenobiotics (metabolites) in the sinusoidal space [15].…”

Section: Excretion Of Aap/m Into Bile Intestinal Lumen and Urinesupporting

confidence: 79%

Enteral Exsorption of Acetaminophen after Intravenous Injection in Rats: Influence of Activated Charcoal on This Clearance Path

Eyer¹,

Jung²,

Neuberger³

et al. 2007

Basic Clin Pharma Tox

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Abstract:The fate of acetaminophen after intravenous injection in whole bowel-irrigated rats (n = 40) and the influence of activated charcoal on the kinetics were investigated. After randomization to four groups (n = 10, each group), plasma concentration and the quantities of acetaminophen and metabolites excreted into bile, urine and intestine were determined using an in vivo model with or without orally administered activated charcoal and with or without bile duct cannulation. The cumulative amount of acetaminiphen and metabolites exsorbed into the small intestine within 3.5 hr after intravenous injection was about 20% of dose in the animals with bile duct cannulation and about 7% of dose in the animals without. Correspondingly, about 13% of dose was detected in the externalized bile. Activated charcoal did not influence the amount exsorbed into the small intestine. Terminal half-life in plasma ranged from 35 to 51 min. within the four treatment groups without statistically significant difference (P = 0.152). Correspondingly, the area under the curve did not vary much and ranged between 2.6 and 3.3 g/min./l (P = 0.392). Deposition of acetaminophen and metabolites in liver and kidney after 3.5 hr was marginal and ranged between 0.02% and 0.6% of the dose within all groups. The excretion of acetaminophen and metabolites into urine varied strikingly between 31% and 56% of the dose within all groups and correlated with diuresis. The lack of effect of activated charcoal on the elimination of acetaminophen and metabolites may be due to the small amount of the drug being exsorbed into the intestine or the reduced adsorbent capacity of activated charcoal to acetaminophen and metabolites, which also could be influenced by inadequate luminal stirring.

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Section: Excretion Of Aap/m Into Bile Intestinal Lumen and Urinesupporting

confidence: 79%

Enteral Exsorption of Acetaminophen after Intravenous Injection in Rats: Influence of Activated Charcoal on This Clearance Path

Eyer¹,

Jung²,

Neuberger³

et al. 2007

Basic Clin Pharma Tox

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“…Macrolides and clindamycin like linezolid and chloramphenicol inhibit bacterial protein synthesis by binding the bacterial 50S ribosomal subunit and might inhibit mitochondrial protein synthesis as well, although this has not been shown directly so far (39). The impairment of mitochondrial energetics could also be caused by direct interaction with mitochondrial membranes, because at least macrolides are known to interact directly with phospholipids (35,47) and macrolides as well as clindamycin are accumulated intracellularly (22,48). The increase in lactate production caused by the fluoroquinolones was only marginal, because it was superposed with direct toxic effects in higher concentrations.…”

Section: Discussionmentioning

confidence: 99%

Influence on Mitochondria and Cytotoxicity of Different Antibiotics Administered in High Concentrations on Primary Human Osteoblasts and Cell Lines

Duewelhenke

Krut

Eysel

2007

Antimicrob Agents Chemother

177

138

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Osteomyelitis, osteitis, spondylodiscitis, septic arthritis, and prosthetic joint infections still represent the worst complications of orthopedic surgery and traumatology. Successful treatment requires, besides surgical débridement, long-term systemic and high-concentration local antibiotic therapy, with possible local antibiotic concentrations of 100 g/ml and more. In this study, we investigated the effect of 20 different antibiotics on primary human osteoblasts (PHO), the osteosarcoma cell line MG63, and the epithelial cell line HeLa. High concentrations of fluoroquinolones, macrolides, clindamycin, chloramphenicol, rifampin, tetracycline, and linezolid during 48 h of incubation inhibited proliferation and metabolic activity, whereas aminoglycosides and inhibitors of bacterial cell wall synthesis did not. Twenty percent inhibitory concentrations for proliferation of PHO were determined as 20 to 40 g/ml for macrolides, clindamycin, and rifampin, 60 to 80 g/ml for chloramphenicol, tetracylin, and fluoroquinolones, and 240 g/ml for linezolid. The proliferation of the cell lines was always less inhibited. We established the measurement of extracellular lactate concentration as an indicator of glycolysis using inhibitors of the respiratory chain (antimycin A, rotenone, and sodium azide) and glycolysis (iodoacetic acid) as reference compounds, whereas inhibition of the respiratory chain increased and inhibition of glycolysis decreased lactate production. The measurement of extracellular lactate concentration revealed that fluoroquinolones, macrolides, clindamycin, rifampin, tetracycline, and especially chloramphenicol and linezolid impaired mitochondrial energetics in high concentrations. This explains partly the observed inhibition of metabolic activity and proliferation in our experiments. Because of differences in the energy metabolism, PHO provided a more sensitive model for orthopedic antibiotic usage than stable cell lines.

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“…A likely mechanism for their intracellular accumulation involves the weakly basic nature of macrolides and the possibility of trapping by protonation within acidic cellular compartments, lysosomes, and polymorphonuclear neutrophil (PMN) granules (9,36). This hypothesis has been verified in phagocytic and nonphagocytic human and animal cells (6,9,45,50,51). The possibility that the intragranular location alters the correct functioning of this cellular compartment (exocytosis, phagolysosomal fusion) has been little explored (1,8,30).…”

mentioning

confidence: 90%

“…We used regression analysis to determine the concentrations inhibiting 50% of macrolide uptake at 5 min (IC 50 ) of Ni 2ϩ , which were 2 mM dirithromycin (three to seven experiments; r ϭ 0.964; P Ͻ 0.001) and 1.6 mM roxithromycin (two to five experiments; r ϭ 0.917; P Ͻ 0.001). Approximation of the IC 50 , which is poorly active in this system (K i , 1.25 mM), was also assessed. Mg 2ϩ (up to 5 mM) did not inhibit macrolide uptake over a 60-min incubation period.…”

Section: Cellular Location Of Macrolidesmentioning

confidence: 99%

Role of extracellular calcium in in vitro uptake and intraphagocytic location of macrolides

Mtairag

Abdelghaffar

Douhet

et al. 1995

Antimicrob Agents Chemother

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We compared the uptakes and intracellular locations of four 14-membered-ring macrolides (roxithromycin, dirithromycin, erythromycin, and erythromycylamine) in human polymorphonuclear neutrophils (PMNs) in vitro. Intracellular location was assessed by cell fractionation and uptake kinetics in cytoplasts (granule-poor PMNs). Trapping of dirithromycin within PMN granules (up to 80% at 30 min) was significantly more marked than the intracellular trapping of the other drugs (erythromycylamine, 45% ؎ 5.1%; erythromycin, 42% ؎ 3.7%; roxithromycin, 35% ؎ 3.0%). A new finding was that, in the absence of extracellular calcium, the uptakes of all of the macrolides by PMNs and cytoplasts were significantly impaired, by about 50% (PMN) and 90% (cytoplasts). Furthermore, inorganic Ca 2؉ channel blockers inhibited macrolide uptake in a concentrationdependent manner, with 50% inhibitory concentrations of 1.6 to 2.0 mM and 29 to 35 M, respectively, for Ni The organic Ca 2؉ channel blocker nifedipine had no effect on macrolide uptake, whereas verapamil inhibited it in a time-and concentration-dependent manner. These data show the importance of extracellular Ca 2؉ in macrolide uptake by phagocytes and suggest a link with Ca 2؉ channels or a Ca 2؉ channel-operated mechanism.Infections caused by organisms which survive and multiply within host cells, such as Legionella spp., Chlamydia spp., and Mycobacteria spp., are difficult to cure, partly because of the intracellular locations of these pathogens, which are protected from the antimicrobial activities of non-cell-penetrating agents (20). However, the abilities of antibiotics to enter and concentrate within host cells, generally estimated from the intracellular concentration-to-extracellular concentration ratio, may not actually reflect their overall intracellular bactericidal activities (17). Another factor of importance is the respective intracellular locations of the drug and the pathogen. Possible interactions between the drug and host cell factors (inactivation, binding, synergy) may also result from the particular location of the drug. In addition, intracellular accumulation of antibacterial agents or the mechanism used for this cellular transport may in turn affect host cell metabolism and functions, ultimately modifying the overall course of infectious diseases. Among those cell-penetrating agents, macrolide antibiotics have been much studied (14,27). Many publications examine their intracellular (particularly intraphagocytic) accumulation (for a review, see reference 29) and their possible interference with phagocyte activities (for a review, see reference 28). Despite abundant data, the mechanism underlying macrolide uptake by host cells is poorly understood. Various hypotheses have been put forward. These hypotheses involve liposolubility and active transport systems, particularly those used by nucleosides (18, 21). A likely mechanism for their intracellular accumulation involves the weakly basic nature of macrolides and the possibility of trapping by protonation within ...

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Toxicity, uptake, and subcellular distribution in rat hepatocytes of roxithromycin, a new semisynthetic macrolide, and erythromycin base

Cited by 27 publications

References 25 publications

Enteral Exsorption of Acetaminophen after Intravenous Injection in Rats: Influence of Activated Charcoal on This Clearance Path

Enteral Exsorption of Acetaminophen after Intravenous Injection in Rats: Influence of Activated Charcoal on This Clearance Path

Influence on Mitochondria and Cytotoxicity of Different Antibiotics Administered in High Concentrations on Primary Human Osteoblasts and Cell Lines

Role of extracellular calcium in in vitro uptake and intraphagocytic location of macrolides

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