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In Vitro and In Vivo Characterization of NOSO-502, a Novel Inhibitor of Bacterial Translation
Antibacterial activity screening of a collection of strains led to the discovery of the odilorhabdins, a new antibiotic class with broad-spectrum activity against Gram-positive and Gram-negative pathogens. Odilorhabdins inhibit bacterial translation by a new mechanism of action on ribosomes. A lead...
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| Published in: | Antimicrobial agents and chemotherapy 2018-09, Vol.62 (9) |
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| Main Authors: | , , , , , , , , , |
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| cites | cdi_FETCH-LOGICAL-a418t-608a57bbc9bda4bc6a8ecec7f3a23111ab452d2c5e32cff3be764544d088b9fa3 |
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| container_issue | 9 |
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| container_title | Antimicrobial agents and chemotherapy |
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| creator | Racine, Emilie Nordmann, Patrice Pantel, Lucile Sarciaux, Matthieu Serri, Marine Houard, Jessica Villain-Guillot, Philippe Demords, Anthony Vingsbo Lundberg, Carina Gualtieri, Maxime |
| description | Antibacterial activity screening of a collection of
strains led to the discovery of the odilorhabdins, a new antibiotic class with broad-spectrum activity against Gram-positive and Gram-negative pathogens. Odilorhabdins inhibit bacterial translation by a new mechanism of action on ribosomes. A lead optimization program identified NOSO-502 as a promising candidate. NOSO-502 has MIC values ranging from 0.5 to 4 μg/ml against standard
strains and carbapenem-resistant
(CRE) isolates that produce KPC, AmpC, or OXA enzymes and metallo-β-lactamases. In addition, this compound overcomes multiple chromosome-encoded or plasmid-mediated resistance mechanisms of acquired resistance to colistin. It is effective in mouse systemic infection models against
EN122 (extended-spectrum β-lactamase [ESBL]) or
ATCC BAA-2469 (NDM-1), achieving a 50% effective dose (ED
) of 3.5 mg/kg of body weight and 1-, 2-, and 3-log reductions in blood burden at 2.6, 3.8, and 5.9 mg/kg, respectively, in the first model and 100% survival in the second, starting with a dose as low as 4 mg/kg. In a urinary tract infection (UTI) model with
UTI89, urine, bladder, and kidney burdens were reduced by 2.39, 1.96, and 1.36 log
CFU/ml, respectively, after injection of 24 mg/kg. There was no cytotoxicity against HepG2, HK-2, or human renal proximal tubular epithelial cells (HRPTEpiC), no inhibition of hERG-CHO or Nav 1.5-HEK current, and no increase of micronuclei at 512 μM. NOSO-502, a compound with a new mechanism of action, is active against
, including all classes of CRE, has a low potential for resistance development, shows efficacy in several mouse models, and has a favorable
safety profile. |
| doi_str_mv | 10.1128/AAC.01016-18 |
| format | article |
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strains led to the discovery of the odilorhabdins, a new antibiotic class with broad-spectrum activity against Gram-positive and Gram-negative pathogens. Odilorhabdins inhibit bacterial translation by a new mechanism of action on ribosomes. A lead optimization program identified NOSO-502 as a promising candidate. NOSO-502 has MIC values ranging from 0.5 to 4 μg/ml against standard
strains and carbapenem-resistant
(CRE) isolates that produce KPC, AmpC, or OXA enzymes and metallo-β-lactamases. In addition, this compound overcomes multiple chromosome-encoded or plasmid-mediated resistance mechanisms of acquired resistance to colistin. It is effective in mouse systemic infection models against
EN122 (extended-spectrum β-lactamase [ESBL]) or
ATCC BAA-2469 (NDM-1), achieving a 50% effective dose (ED
) of 3.5 mg/kg of body weight and 1-, 2-, and 3-log reductions in blood burden at 2.6, 3.8, and 5.9 mg/kg, respectively, in the first model and 100% survival in the second, starting with a dose as low as 4 mg/kg. In a urinary tract infection (UTI) model with
UTI89, urine, bladder, and kidney burdens were reduced by 2.39, 1.96, and 1.36 log
CFU/ml, respectively, after injection of 24 mg/kg. There was no cytotoxicity against HepG2, HK-2, or human renal proximal tubular epithelial cells (HRPTEpiC), no inhibition of hERG-CHO or Nav 1.5-HEK current, and no increase of micronuclei at 512 μM. NOSO-502, a compound with a new mechanism of action, is active against
, including all classes of CRE, has a low potential for resistance development, shows efficacy in several mouse models, and has a favorable
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strains led to the discovery of the odilorhabdins, a new antibiotic class with broad-spectrum activity against Gram-positive and Gram-negative pathogens. Odilorhabdins inhibit bacterial translation by a new mechanism of action on ribosomes. A lead optimization program identified NOSO-502 as a promising candidate. NOSO-502 has MIC values ranging from 0.5 to 4 μg/ml against standard
strains and carbapenem-resistant
(CRE) isolates that produce KPC, AmpC, or OXA enzymes and metallo-β-lactamases. In addition, this compound overcomes multiple chromosome-encoded or plasmid-mediated resistance mechanisms of acquired resistance to colistin. It is effective in mouse systemic infection models against
EN122 (extended-spectrum β-lactamase [ESBL]) or
ATCC BAA-2469 (NDM-1), achieving a 50% effective dose (ED
) of 3.5 mg/kg of body weight and 1-, 2-, and 3-log reductions in blood burden at 2.6, 3.8, and 5.9 mg/kg, respectively, in the first model and 100% survival in the second, starting with a dose as low as 4 mg/kg. In a urinary tract infection (UTI) model with
UTI89, urine, bladder, and kidney burdens were reduced by 2.39, 1.96, and 1.36 log
CFU/ml, respectively, after injection of 24 mg/kg. There was no cytotoxicity against HepG2, HK-2, or human renal proximal tubular epithelial cells (HRPTEpiC), no inhibition of hERG-CHO or Nav 1.5-HEK current, and no increase of micronuclei at 512 μM. NOSO-502, a compound with a new mechanism of action, is active against
, including all classes of CRE, has a low potential for resistance development, shows efficacy in several mouse models, and has a favorable
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strains led to the discovery of the odilorhabdins, a new antibiotic class with broad-spectrum activity against Gram-positive and Gram-negative pathogens. Odilorhabdins inhibit bacterial translation by a new mechanism of action on ribosomes. A lead optimization program identified NOSO-502 as a promising candidate. NOSO-502 has MIC values ranging from 0.5 to 4 μg/ml against standard
strains and carbapenem-resistant
(CRE) isolates that produce KPC, AmpC, or OXA enzymes and metallo-β-lactamases. In addition, this compound overcomes multiple chromosome-encoded or plasmid-mediated resistance mechanisms of acquired resistance to colistin. It is effective in mouse systemic infection models against
EN122 (extended-spectrum β-lactamase [ESBL]) or
ATCC BAA-2469 (NDM-1), achieving a 50% effective dose (ED
) of 3.5 mg/kg of body weight and 1-, 2-, and 3-log reductions in blood burden at 2.6, 3.8, and 5.9 mg/kg, respectively, in the first model and 100% survival in the second, starting with a dose as low as 4 mg/kg. In a urinary tract infection (UTI) model with
UTI89, urine, bladder, and kidney burdens were reduced by 2.39, 1.96, and 1.36 log
CFU/ml, respectively, after injection of 24 mg/kg. There was no cytotoxicity against HepG2, HK-2, or human renal proximal tubular epithelial cells (HRPTEpiC), no inhibition of hERG-CHO or Nav 1.5-HEK current, and no increase of micronuclei at 512 μM. NOSO-502, a compound with a new mechanism of action, is active against
, including all classes of CRE, has a low potential for resistance development, shows efficacy in several mouse models, and has a favorable
safety profile.</abstract><cop>United States</cop><pub>American Society for Microbiology</pub><pmid>29987155</pmid><doi>10.1128/AAC.01016-18</doi><tpages>16</tpages><oa>free_for_read</oa></addata></record> |
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| language | eng |
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| source | American Society for Microbiology Journals; PubMed Central |
| subjects | Anti-Bacterial Agents Carbapenem-Resistant Enterobacteriaceae Comment On Escherichia coli Experimental Therapeutics |
| title | In Vitro and In Vivo Characterization of NOSO-502, a Novel Inhibitor of Bacterial Translation |
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