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ABSTRACT: The in vivo efficacy of the echinocandin antifungal caspofungin acetate (caspofungin; MK-0991) was evaluated in models of disseminated aspergillosis and candidiasis in mice with cyclophosphamide (CY)-induced immunosuppression. Caspofungin is a 1, 3-beta-D-glucan synthesis inhibitor efficacious against a number of clinically relevant fungi including Aspergillus and Candida species. Models of CY-induced transient or chronic leukopenia were used with once daily administration of therapy initiated 24 h after microbial challenge. Caspofungin was effective in treating disseminated aspergillosis in mice that were transiently leukopenic (significant prolongation of survival at doses of > or =0.125 mg/kg of body weight and a 50% protective dose [PD(50)] of 0.245 mg/kg/day at 28 days after challenge) or chronically leukopenic (50 to 100% survival at doses of > or =0.5 mg/kg and PD(50)s ranging from 0.173 to 0.400 mg/kg/day). Caspofungin was effective in the treatment and sterilization of Candida infections in mice with transient leukopenia with a 99% effective dose based on reduction in log(10) CFU of Candida albicans/gram of kidneys of 0.119 mg/kg and 80 to 100% of the caspofungin-treated mice having sterile kidneys at caspofungin doses from 0.25 to 2.0 mg/kg. In Candida-infected mice with chronic leukopenia, caspofungin was effective at all dose levels tested (0.25 to 1.0 mg/kg), with the log(10) CFU of C. albicans/gram of kidneys of caspofungin-treated mice being significantly lower (>99% reduction) than that of sham-treated mice from day 4 to day 28 after challenge. Also, 70 to 100% of the caspofungin-treated, chronic leukopenic mice had sterile kidneys at caspofungin doses of 0.5 to 1.0 mg/kg from day 8 to 28 after challenge. Sterilization of Candida infections by caspofungin in the absence of host leukocytes provides compelling in vivo evidence for fungicidal activity against C. albicans. Further human clinical trials with caspofungin against serious fungal infections are in progress.
Antimicrobial Agents and Chemotherapy 09/2000; 44(9):2310-8. · 4.84 Impact Factor
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ABSTRACT: An important mechanism of bacterial resistance to beta-lactam antibiotics is inactivation by beta-lactam-hydrolyzing enzymes (beta-lactamases). The evolution of the extended-spectrum beta-lactamases (ESBLs) is associated with extensive use of beta-lactam antibiotics, particularly cephalosporins, and is a serious threat to therapeutic efficacy. ESBLs and broad-spectrum beta-lactamases (BDSBLs) are plasmid-mediated class A enzymes produced by gram-negative pathogens, principally Escherichia coli and Klebsiella pneumoniae. MK-0826 was highly potent against all ESBL- and BDSBL-producing K. pneumoniae and E. coli clinical isolates tested (MIC range, 0.008 to 0.12 microgram/ml). In E. coli, this activity was associated with high-affinity binding to penicillin-binding proteins 2 and 3. When the inoculum level was increased 10-fold, increasing the amount of beta-lactamase present, the MK-0826 MIC range increased to 0.008 to 1 microgram/ml. By comparison, similar observations were made with meropenem while imipenem MICs were usually less affected. Not surprisingly, MIC increases with noncarbapenem beta-lactams were generally substantially greater, resulting in resistance in many cases. E. coli strains that produce chromosomal (Bush group 1) beta-lactamase served as controls. All three carbapenems were subject to an inoculum effect with the majority of the BDSBL- and ESBL-producers but not the Bush group 1 strains, implying some effect of the plasmid-borne enzymes on potency. Importantly, MK-0826 MICs remained at or below 1 microgram/ml under all test conditions.
Antimicrobial Agents and Chemotherapy 06/1999; 43(5):1170-6. · 4.84 Impact Factor
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H Rosen,
R Hajdu,
L Silver,
H Kropp,
K Dorso,
J Kohler,
J G Sundelof,
J Huber,
G G Hammond,
J J Jackson, [......],
J H Epstein-Toney,
G Lankas,
R R Wilkening,
K J Wildonger,
T A Blizzard,
F P DiNinno,
R W Ratcliffe,
J V Heck,
J W Kozarich,
M L Hammond
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ABSTRACT: A carbapenem antibiotic, L-786,392, was designed so that the side chain that provides high-affinity binding to the penicillin-binding proteins responsible for bacterial resistance was also the structural basis for ameliorating immunopathology. Expulsion of the side chain upon opening of the beta-lactam ring retained antibacterial activity while safely expelling the immunodominant epitope. L-786,392 was well tolerated in animal safety studies and had significant in vitro and in vivo activities against methicillin- and vancomycin-resistant Staphylococci and vancomycin-resistant Enterococci.
Science 02/1999; 283(5402):703-6. · 31.20 Impact Factor
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ABSTRACT: MK-826 (formerly L-749,345), is a potent 1-beta-methyl carbapenem with a long half-life and broad spectrum of activity. This compound is presently in phase-II clinical trials. Its activity against a number of gram-positive and gram-negative organisms was compared to those of imipenem (IPM) and eight other beta-lactam agents in two in vivo murine infection models. The distribution in tissue and pharmacokinetic properties of MK-826 and ceftriaxone (CTRX) were also evaluated in CD-1 mice following a single intraperitoneal dose (10 mg/kg of body weight). In addition, concentrations in plasma as well as biliary and urinary recovery of MK-826 were compared to that of CTRX in a cannulated rat model. In a localized murine thigh infection model, MK-826 and IPM were superior to a variety of beta-lactam antibiotics in reduction of Staphylococcus aureus CFU compared with results from nontreated controls (eliminating >/=4 log10 CFU). Similar activities of IPM and MK-826 were observed in a gram-positive bacterial murine systemic infection model. While IPM demonstrated greater efficacy than MK-826 against Enterobacter cloacae (50% effective doses [ED50s] of 0.062 and 0.227 mg/kg, respectively) and Pseudomonas aeruginosa (ED50s of 0.142 and 3.0 mg/kg, respectively) systemic infections, MK-826 was 8- to 350-fold more efficacious than IPM against all other gram-negative organisms in this infection model. In mice, MK-826 demonstrated a higher peak concentration in serum (62.8 versus 42.6 microg/ml) and a larger area under the curve (AUC) (150.8 versus 90.0 microg . hr/ml) than CTRX. The concentrations of MK-826 and CTRX in serum declined slowly, with levels of 3.6 and 2.0 microg/ml remaining, respectively, at 6 h posttreatment. The rat pharmacokinetic model showed the average AUC of MK-826 to be greater than that of CTRX (284 versus 142 microg . hr/ml) following a single 10-mg/kg dose. Also, a half-life of MK-826 longer than that of CTRX (3.2 versus 2.3 h) was observed in this species. The total amount of drug excreted in the bile in 8 h was greater for CTRX (55 to 64% of the dose) than for MK-826 (6 to 12.5% of the dose). Urinary recovery was similar for both antibiotics, with 16 to 18% of the dose recovered over an 8-h period. This excellent broad-spectrum in vivo efficacy of MK-826, together with advantageous pharmacokinetics, supports the argument for its further clinical development.
Antimicrobial Agents and Chemotherapy 08/1998; 42(8):1996-2001. · 4.84 Impact Factor
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G K Abruzzo,
A M Flattery,
C J Gill,
L Kong,
J G Smith,
V B Pikounis,
J M Balkovec,
A F Bouffard,
J F Dropinski, H Rosen,
H Kropp,
K Bartizal
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ABSTRACT: The in vivo activity of the Merck antifungal echinocandin drug candidate MK-0991 (L-743,872) was evaluated in mouse models of disseminated candidiasis, aspergillosis, and cryptococcosis. The echinocandins are potent inhibitors of 1,3-beta-D-glucan synthase. Two models of disseminated candidiasis were used. In a Candida albicans mouse survival model with both DBA/2N and CD-1 mice, estimates of the 50% effective doses (ED50s) of MK-0991 were 0.04 and 0.10 mg/kg of body weight/dose at 21 days after challenge, respectively. In a C. albicans target organ assay (TOA) with DBA/2N mice, MK-0991 at levels of > or =0.09 mg/kg/dose significantly reduced the numbers of C. albicans CFU/g of kidneys compared to the numbers in the kidneys of control mice from 1 to 28 days after challenge. Even when given as a single intraperitoneal dose either 30 min or 24 h after challenge, MK-0991 was effective and significantly reduced the numbers of C. albicans CFU/g of kidney compared to those in the controls. MK-0991 was >300-fold less active when it was administered orally than when it was administered parenterally. MK-0991 was efficacious in mouse TOAs against other C. albicans strains and Candida species including Candida tropicalis, Candida (Torulopsis) glabrata, Candida lusitaniae, Candida parapsilosis, and Candida krusei. MK-0991 was ineffective against disseminated Cryptococcus neoformans infections. In the model of disseminated aspergillosis in mice, MK-0991 at doses of > or =0.02 mg/kg/dose significantly prolonged the survival of DBA/2N mice, with estimates of the ED50 and ED90 of MK-0991 being 0.03 and 0.12 mg/kg/dose, respectively, at 28 days after challenge. MK-0991 is a potent, parenterally administered therapeutic agent against disseminated candidiasis and aspergillosis that warrants further investigation in human clinical trials.
Antimicrobial Agents and Chemotherapy 11/1997; 41(11):2333-8. · 4.84 Impact Factor
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ABSTRACT: L-749,345 is a carbapenem antibiotic, currently in phase II clinical trials, which possesses a broad antibacterial spectrum and extended half-life. The time courses of levels of the drugs in plasma and urinary recovery were evaluated for L-749,345, imipenem-cilastatin (IPM), and ceftriaxone (CTX) in male rhesus monkeys (Macaca mulatta) and a chimpanzee (Pan troglodytes). The chimpanzee pharmacokinetics was predictive of human results and indicated a compound that was superior to IPM and approached CTX in its ability to persist in the circulation. Levels of binding to protein, in the range of clinically relevant concentrations in serum, are virtually equivalent for L-749,345 and CTX in humans. Results of a crossover bioassay versus those of a high-pressure liquid chromatography assay of 1-g human samples showed that there were no bioactive metabolites of L-749,345. The extended half-life at elimination phase of L-749,345 allows consideration of single daily dosing. In contrast to results with IPM, the improved stability of L-749,345 with respect to hydrolysis by the renal dehydropeptidase I (0.25 times the rate of IPM) results in urinary recovery sufficient for the drug's use as a single agent.
Antimicrobial Agents and Chemotherapy 09/1997; 41(8):1743-8. · 4.84 Impact Factor
