Discovery of novel 5-(ethyl or hydroxymethyl) analogs of 2a2-aupa fluoro (or hydroxyl) pyrimidine nucleosides as a new class of Mycobacterium tuberculosis, Mycobacterium bovis and Mycobacterium avium inhibitors
Discovery of novel antimycobacterial compounds that work on distinctive targets and by diverse mechanisms of action is urgently required for the treatment of mycobacterial infections due to the emerging global health threat of tuberculosis. We have identified a new class of 5-ethyl or hydroxy (or me...
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| Veröffentlicht in: | Bioorganic & medicinal chemistry 2012-07, Vol.20 (13), p.4088-4097 |
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| creator | Shakya, Neeraj Srivastav, Naveen C Bhavanam, Sudha Tse, Chris Desroches, Nancy Agrawal, Babita Kunimoto, Dennis Y Kumar, Rakesh |
| description | Discovery of novel antimycobacterial compounds that work on distinctive targets and by diverse mechanisms of action is urgently required for the treatment of mycobacterial infections due to the emerging global health threat of tuberculosis. We have identified a new class of 5-ethyl or hydroxy (or methoxy) methyl-substituted pyrimidine nucleosides as potent inhibitors of Mycobacterium bovis, Mycobacterium tuberculosis (H37Ra, H37Rv) and Mycobacterium avium. A series of 2a2-aupa fluoro (or hydroxy) nucleosides (1, 2, 4a6, 9, 10, 13, 16, 18, 21, 24) was synthesized and evaluated for antimycobacterial activity. Among 2a2-fluorinated compounds, 1-(3-bromo-2,3-dideoxy-2-fluoro-I2-d-arabinofuranosyl)-5-ethylurac i l (13) exhibited promising activity against M. bovis and Mtb alone, and showed synergism when combined with isoniazid. The most active compound emerging from these studies, 1-(I2-d-arabinofuranosyl)-4-thio-5-hydroxymethyluracil (21) inhibited Mtb (H37Ra) (MIC50 = 0.5 I14g/mL) and M. bovis (MIC50 = 0.5 I14g/mL) at low concentrations, and was ten times more potent against Mtb (H37Ra) than cycloserine (MIC50 = 5.0 I14g/mL), a second line drug. It also showed an additive effect when combined with isoniazid. Compound 21 retained sensitivity against a rifampicin-resistant (H37Rv) strain of Mtb (MIC50 = 1 I14g/mL) at concentrations similar to that for a rifampicin-sensitive (H37Rv) strain, suggesting that it has no cross-resistance to a first-line anti-TB drug. In addition, the replication of M. avium was also inhibited by 21 (MIC50 = 10 I14g/mL). No cellular toxicity of 13 or 21 was observed up to the highest concentration tested (CC50 > 100 I14g/mL). These observations offer promise for a new drug treatment regimen to augment and complement the current chemotherapy of TB. |
| doi_str_mv | 10.1016/j.bmc.2012.05.004 |
| format | Article |
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We have identified a new class of 5-ethyl or hydroxy (or methoxy) methyl-substituted pyrimidine nucleosides as potent inhibitors of Mycobacterium bovis, Mycobacterium tuberculosis (H37Ra, H37Rv) and Mycobacterium avium. A series of 2a2-aupa fluoro (or hydroxy) nucleosides (1, 2, 4a6, 9, 10, 13, 16, 18, 21, 24) was synthesized and evaluated for antimycobacterial activity. Among 2a2-fluorinated compounds, 1-(3-bromo-2,3-dideoxy-2-fluoro-I2-d-arabinofuranosyl)-5-ethylurac i l (13) exhibited promising activity against M. bovis and Mtb alone, and showed synergism when combined with isoniazid. The most active compound emerging from these studies, 1-(I2-d-arabinofuranosyl)-4-thio-5-hydroxymethyluracil (21) inhibited Mtb (H37Ra) (MIC50 = 0.5 I14g/mL) and M. bovis (MIC50 = 0.5 I14g/mL) at low concentrations, and was ten times more potent against Mtb (H37Ra) than cycloserine (MIC50 = 5.0 I14g/mL), a second line drug. It also showed an additive effect when combined with isoniazid. Compound 21 retained sensitivity against a rifampicin-resistant (H37Rv) strain of Mtb (MIC50 = 1 I14g/mL) at concentrations similar to that for a rifampicin-sensitive (H37Rv) strain, suggesting that it has no cross-resistance to a first-line anti-TB drug. In addition, the replication of M. avium was also inhibited by 21 (MIC50 = 10 I14g/mL). No cellular toxicity of 13 or 21 was observed up to the highest concentration tested (CC50 > 100 I14g/mL). 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We have identified a new class of 5-ethyl or hydroxy (or methoxy) methyl-substituted pyrimidine nucleosides as potent inhibitors of Mycobacterium bovis, Mycobacterium tuberculosis (H37Ra, H37Rv) and Mycobacterium avium. A series of 2a2-aupa fluoro (or hydroxy) nucleosides (1, 2, 4a6, 9, 10, 13, 16, 18, 21, 24) was synthesized and evaluated for antimycobacterial activity. Among 2a2-fluorinated compounds, 1-(3-bromo-2,3-dideoxy-2-fluoro-I2-d-arabinofuranosyl)-5-ethylurac i l (13) exhibited promising activity against M. bovis and Mtb alone, and showed synergism when combined with isoniazid. The most active compound emerging from these studies, 1-(I2-d-arabinofuranosyl)-4-thio-5-hydroxymethyluracil (21) inhibited Mtb (H37Ra) (MIC50 = 0.5 I14g/mL) and M. bovis (MIC50 = 0.5 I14g/mL) at low concentrations, and was ten times more potent against Mtb (H37Ra) than cycloserine (MIC50 = 5.0 I14g/mL), a second line drug. It also showed an additive effect when combined with isoniazid. Compound 21 retained sensitivity against a rifampicin-resistant (H37Rv) strain of Mtb (MIC50 = 1 I14g/mL) at concentrations similar to that for a rifampicin-sensitive (H37Rv) strain, suggesting that it has no cross-resistance to a first-line anti-TB drug. In addition, the replication of M. avium was also inhibited by 21 (MIC50 = 10 I14g/mL). No cellular toxicity of 13 or 21 was observed up to the highest concentration tested (CC50 > 100 I14g/mL). 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We have identified a new class of 5-ethyl or hydroxy (or methoxy) methyl-substituted pyrimidine nucleosides as potent inhibitors of Mycobacterium bovis, Mycobacterium tuberculosis (H37Ra, H37Rv) and Mycobacterium avium. A series of 2a2-aupa fluoro (or hydroxy) nucleosides (1, 2, 4a6, 9, 10, 13, 16, 18, 21, 24) was synthesized and evaluated for antimycobacterial activity. Among 2a2-fluorinated compounds, 1-(3-bromo-2,3-dideoxy-2-fluoro-I2-d-arabinofuranosyl)-5-ethylurac i l (13) exhibited promising activity against M. bovis and Mtb alone, and showed synergism when combined with isoniazid. The most active compound emerging from these studies, 1-(I2-d-arabinofuranosyl)-4-thio-5-hydroxymethyluracil (21) inhibited Mtb (H37Ra) (MIC50 = 0.5 I14g/mL) and M. bovis (MIC50 = 0.5 I14g/mL) at low concentrations, and was ten times more potent against Mtb (H37Ra) than cycloserine (MIC50 = 5.0 I14g/mL), a second line drug. It also showed an additive effect when combined with isoniazid. Compound 21 retained sensitivity against a rifampicin-resistant (H37Rv) strain of Mtb (MIC50 = 1 I14g/mL) at concentrations similar to that for a rifampicin-sensitive (H37Rv) strain, suggesting that it has no cross-resistance to a first-line anti-TB drug. In addition, the replication of M. avium was also inhibited by 21 (MIC50 = 10 I14g/mL). No cellular toxicity of 13 or 21 was observed up to the highest concentration tested (CC50 > 100 I14g/mL). These observations offer promise for a new drug treatment regimen to augment and complement the current chemotherapy of TB.</abstract><doi>10.1016/j.bmc.2012.05.004</doi></addata></record> |
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| subjects | Chemotherapy Cross-resistance Cycloserine Drugs Infection Isoniazid Mycobacterium avium Mycobacterium bovis Mycobacterium tuberculosis nucleosides pyrimidines Replication Toxicity Tuberculosis |
| title | Discovery of novel 5-(ethyl or hydroxymethyl) analogs of 2a2-aupa fluoro (or hydroxyl) pyrimidine nucleosides as a new class of Mycobacterium tuberculosis, Mycobacterium bovis and Mycobacterium avium inhibitors |
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