| Identification | Back Directory | [Name]
TROLEANDOMYCIN | [CAS]
2751-09-9 | [Synonyms]
tao
Taocin
Aovine
AI3-50166
NSC-108166
cyclamycin
evramicina
Matromycin T
Mathromycin T
TROLEANDOMYCIN
TROLEANDOMYCIN 98%
TRIACETYLOLEANDOMYCIN
Troleandomycin (250 mg)
OLEANDOMYCIN TRIACETATE
TROLEANDOMYCIN USP/EP/BP
oleandomycintriacetylester
OLEANDOMYCIN TRIACETATE ESTER
Oleandomycin, 2'',4',11-triacetate
Oleandomycin triacetate,Troleandomycin | [EINECS(EC#)]
220-392-9 | [Molecular Formula]
C41H67NO15 | [MDL Number]
MFCD00871198 | [MOL File]
2751-09-9.mol | [Molecular Weight]
813.97 |
| Chemical Properties | Back Directory | [Melting point ]
170 °C | [alpha ]
D25 -23° (methanol) | [Boiling point ]
757°C (rough estimate) | [density ]
1.1651 (rough estimate) | [refractive index ]
1.6220 (estimate) | [storage temp. ]
0-6°C | [solubility ]
Soluble in DMSO (up to 50 mg/ml) or in Ethanol (up to 25 mg/ml). | [form ]
White solid. | [pka]
6.6(at 25℃) | [color ]
White | [Water Solubility ]
0.25g/L(28 ºC) | [Merck ]
13,9839 | [Stability:]
Stable for 2 years as supplied. Solutions in DMSO or ethanol may be stored at -20° for up to 3 months. |
| Hazard Information | Back Directory | [Description]
Troleandomycin (2751-09-9) is a macrolide antibiotic. Inhibits cytochrome P450 (IC50 = 0-5 μM), thus blocking CYP450-dependent drug oxidation. | [Uses]
Antibacterial. | [Uses]
Troleandomycin, is a macrolide antibiotic, sold in Italy and Turkey. It is a derivative of Oleandomycin (O517500), and acts as a CYP3A4 inhibitor, which may cause drug interactions . | [Definition]
ChEBI: A semi-synthetic macrolide antibiotic obtained by acetylation of the three free hydroxy groups of oleandomycin. Troleandomycin is only found in individuals that have taken the drug. | [Brand name]
Tao (Pfizer). | [Clinical Use]
Oleandomycin contains three hydroxyl groups that aresubject to acylation, one in each of the sugars and one in theoleandolide. The triacetyl derivative retains the in vivo antibacterialactivity of the parent antibiotic but possesses superiorpharmacokinetic properties. It is hydrolyzed in vivo tooleandomycin. Troleandomycin achieves more rapid andhigher plasma concentrations following oral administrationthan oleandomycin phosphate, and it has the additionaladvantage of being practically tasteless. Troleandomycinoccurs as a white, crystalline solid that is nearly insoluble inwater. It is relatively stable in the solid state but undergoeschemical degradation in either aqueous acidic or alkalineconditions.
Because the antibacterial spectrum of activity of oleandomycinis considered inferior to that of erythromycin, thepharmacokinetics of troleandomycin have not been studiedextensively. Oral absorption is apparently good, and detectableblood levels of oleandomycin persist up to 12 hoursafter a 500-mg dose of troleandomycin. Approximately 20%is recovered in the urine, with most excreted in the feces, primarilyas a result of biliary excretion. There is some epigastricdistress following oral administration, with an incidencesimilar to that caused by erythromycin. Troleandomycin isthe most potent inhibitor of cytochrome P450 enzymes of thecommercially available macrolides. It may potentiate the hepatictoxicity of certain anti-inflammatory steroids and oralcontraceptive drugs as well as the toxic effects of theophylline,carbamazepine, and triazolam. Several allergic reactions,including cholestatic hepatitis, have also been reportedwith the use of troleandomycin.
Approved medical indications for troleandomycin arecurrently limited to the treatment of upper respiratory infectionscaused by such organisms as S. pyogenes and S. pneumoniae.It may be considered an alternative to oral forms oferythromycin. It is available in capsules and as a suspension. | [References]
References/Citations
1) Patki et al. (2004), Mechanism-based inhibition of CYP3A4 and CYP3A5 by seven inhibitors; Clin. Pharmacol. Therap., 75 P83
2) Kozlov et al. (2003), Various intracellular compartments cooperate in the release of nitric oxide from glycerol trinitrate in liver; Br. J. Pharmacol., 139 989
3) Ludden et al. (1985), Pharmacokinetic interactions of the macrolide antibiotics; Clin. Pharmacokinet., 10 63 |
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cjbscvictory
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13348960310 13348960310 |
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http://www.weikeqi-biotech.com/ |
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