Teicoplanin A2-4
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| Category | Antibiotics |
| Catalog number | BBF-04305 |
| CAS | 91032-37-0 |
| Molecular Weight | 1893.68 |
| Molecular Formula | C89H99Cl2N9O33 |
| Purity | >98% by HPLC |
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Description
An analogue of a family of lipoglycopeptides produced by actinoplanes teichomyceticus. It is a glycopeptide antibiotic that possess potent broad spectrum antibacterial activity against gram-positive bacteria, including MRSA and E. Faecalis.
Specification
| Synonyms | Teichomycin A2 factor 4; Teichomycin A2-4; 34-O-[2-(acetylamino)-2-deoxy-β-D-glucopyranosyl]-22,31-dichloro-7-demethyl-64-O-demethyl-19-deoxy-56-O-[2-deoxy-2-[(8-methyl-1-oxodecyl)amino]-β-D-glucopyranosyl]-42-O-α-D-mannopyranosyl-ristomycin A aglycone |
| Storage | Store at -20°C |
| IUPAC Name | (1S,2R,19R,22R,34S,37R,40R,52S)-2-[(2R,3R,4R,5S,6R)-3-acetamido-4,5-dihydroxy-6-(hydroxymethyl)oxan-2-yl]oxy-22-amino-5,15-dichloro-64-[(2S,3R,4R,5S,6R)-4,5-dihydroxy-6-(hydroxymethyl)-3-(8-methyldecanoylamino)oxan-2-yl]oxy-26,31,44,49-tetrahydroxy-21,35,38,54,56,59-hexaoxo-47-[(2R,3S,4S,5S,6R)-3,4,5-trihydroxy-6-(hydroxymethyl)oxan-2-yl]oxy-7,13,28-trioxa-20,36,39,53,55,58-hexazaundecacyclo[38.14.2.23,6.214,17.219,34.18,12.123,27.129,33.141,45.010,37.046,51]hexahexaconta-3,5,8,10,12(64),14,16,23(61),24,26,29(60),30,32,41(57),42,44,46(51),47,49,62,65-henicosaene-52-carboxylic acid |
| Canonical SMILES | CCC(C)CCCCCCC(=O)NC1C(C(C(OC1OC2=C3C=C4C=C2OC5=C(C=C(C=C5)C(C6C(=O)NC(C7=C(C(=CC(=C7)O)OC8C(C(C(C(O8)CO)O)O)O)C9=C(C=CC(=C9)C(C(=O)N6)NC(=O)C4NC(=O)C1C2=CC(=CC(=C2)OC2=C(C=CC(=C2)C(C(=O)NC(CC2=CC(=C(O3)C=C2)Cl)C(=O)N1)N)O)O)O)C(=O)O)OC1C(C(C(C(O1)CO)O)O)NC(=O)C)Cl)CO)O)O |
| InChI | InChI=1S/C89H99Cl2N9O33/c1-4-34(2)9-7-5-6-8-10-61(109)95-69-75(114)72(111)59(32-102)130-88(69)133-79-56-26-41-27-57(79)127-53-18-14-39(24-48(53)91)78(132-87-68(93-35(3)104)74(113)71(110)58(31-101)129-87)70-85(122)99-67(86(123)124)46-29-43(106)30-55(128-89-77(116)76(115)73(112)60(33-103)131-89)62(46)45-23-38(13-15-50(45)107)64(82(119)100-70)97-84(121)66(41)98-83(120)65-40-21-42(105)28-44(22-40)125-54-25-37(12-16-51(54)108)63(92)81(118)94-49(80(117)96-65)20-36-11-17-52(126-56)47(90)19-36/h11-19,21-30,34,49,58-60,63-78,87-89,101-103,105-108,110-116H,4-10,20,31-33,92H2,1-3H3,(H,93,104)(H,94,118)(H,95,109)(H,96,117)(H,97,121)(H,98,120)(H,99,122)(H,100,119)(H,123,124)/t34?,49-,58-,59-,60-,63-,64-,65+,66-,67+,68-,69-,70+,71-,72-,73-,74-,75-,76+,77+,78-,87+,88+,89+/m1/s1 |
| InChI Key | KSPOYQQCANXEDC-WNTLLCOUSA-N |
| Source | Actinoplanes sp. |
Properties
| Appearance | White Solid |
| Antibiotic Activity Spectrum | Gram-positive bacteria |
| Density | 1.67±0.1 g/cm3 (Predicted) |
| Solubility | Soluble in Ethanol, Methanol, DMF, DMSO; Poorly soluble in Water |
Reference Reading
1. Binding of teicoplanin to human serum albumin
A Assandri, A Bernareggi Eur J Clin Pharmacol . 1987;33(2):191-5. doi: 10.1007/BF00544566.
The interaction between the main components of the new glycopeptide antibiotic teicoplanin, A2-2, A2-3, A2-4, A2-5 and A3-1, and human serum albumin has been studied in vitro by equilibrium dialysis (pH 7.4, 37 degrees C). From Scatchard analysis of the data, the calculated association constants (Ka) were: A2-2, 2.47 X 10(4), A2-3, 2.86 X 10(4), A2-4, 2.95 X 10(4) and A2-5, 3.87 X 10(4) mol.l-1. The number of binding sites per albumin molecule ranged between 1.23 to 1.31. A3-1 had a lower affinity with a Ka of about 5 X 10(3) mol.l-1. Extrapolated to the in vivo situation, the data suggested that about 90-95% of A2 components will be bound to serum albumin, and about 68-72% of A3-1. The in vitro findings were confirmed by a pharmacokinetic study in volunteers given [14C] teicoplanin i.v., in whom the fraction of teicoplanin bound to serum protein ranged between 87.6 and 90.8%.
2. Actinoplanes teichomyceticus ATCC 31121 as a cell factory for producing teicoplanin
Giorgia Letizia Marcone, Carlo Taurino, Luca Frattini, Luciano Gastaldo, Flavia Marinelli Microb Cell Fact . 2011 Oct 18;10:82. doi: 10.1186/1475-2859-10-82.
Background:Teicoplanin is a glycopeptide antibiotic used clinically in Europe and in Japan for the treatment of multi-resistant Gram-positive infections. It is produced by fermenting Actinoplanes teichomyceticus. The pharmaceutically active principle is teicoplanin A2, a complex of compounds designated T-A2-1-A2-5 differing in the length and branching of the fatty acid moiety linked to the glucosamine residue on the heptapeptide scaffold. According to European and Japanese Pharmacopoeia, components of the drug must be reproduced in fixed amounts to be authorized for clinical use.Results:We report our studies on optimizing the fermentation process to produce teicoplanin A2 in A. teichomyceticus ATCC 31121. Robustness of the process was assessed on scales from a miniaturized deep-well microtiter system to flasks and 3-L bioreactor fermenters. The production of individual factors T-A2-1-A2-5 was modulated by adding suitable precursors to the cultivation medium. Specific production of T-A2-1, characterized by a linear C10:1 acyl moiety, is enhanced by adding methyl linoleate, trilinoleate, and crude oils such as corn and cottonseed oils. Accumulation of T-A2-3, characterized by a linear C10:0 acyl chain, is stimulated by adding methyl oleate, trioleate, and oils such as olive and lard oils. Percentages of T-A2-2, T-A2-4, and, T-A2-5 bearing the iso-C10:0, anteiso-C11:0, and iso-C11:0 acyl moieties, respectively, are significantly increased by adding precursor amino acids L-valine, L-isoleucine, and L-leucine. Along with the stimulatory effect on specific complex components, fatty acid esters, oils, and amino acids (with the exception of L-valine) inhibit total antibiotic productivity overall. By adding industrial oils to medium containing L-valine the total production is comparable, giving unusual complex compositions.Conclusions:Since the cost and the quality of teicoplanin production depend mainly on the fermentation process, we developed a robust and scalable fermentation process by using an industrial medium in which a complex composition can be modulated by the combined addition of suitable precursors. This work was performed in the wild-type strain ATCC 31121, which has a clear genetic background. This is important for starting a rational improvement program and also helps to better control teicoplanin production during process and strain development.
3. Quantification of teicoplanin in plasma by LC-MS with online sample clean-up and comparison with QMS assay
Daniel M Mueller, Arnold von Eckardstein, Lanja Saleh Clin Chem Lab Med . 2014 Jun;52(6):879-87. doi: 10.1515/cclm-2013-0974.
Background:Teicoplanin is a glycopeptide antibiotic used for the treatment of infections caused by Gram-positive bacteria. There is a good correlation between trough levels and clinical outcome, therefore therapeutic drug monitoring is recommended. Here we present a liquid chromatography-mass spectrometry (LC-MS) method with online extraction based on turbulent flow chromatography for the quantification of the five main components of teicoplanin, A2-1, A2-2, A2-3, A2-4, and A2-5.Methods:After online extraction, analytical chromatography was performed on a Hypersil Gold C8 column under acidic conditions. As mass spectrometer, a Q Exactive hybrid instrument was used. Samples were prepared by adding internal standard and subsequent centrifugation. Patient samples (n=125) that had previously been analyzed using a commercially available immunoassay (QMS teicoplanin) were re-analyzed by LC-MS.Results:The imprecision was <6.9%, inaccuracy between 99.6% and 109%, for both, within- and between-day analysis. The method was shown to be free of matrix effects in the relevant time ranges and was compared to a commercially available immunoassay, QMS® teicoplanin from Thermo Fisher Scientific. The LC-MS assay produced comparable results to the QMS assay, the correlation coefficient was 0.856 (95% confidence interval 0.800-0.896). LC-MS yielded lower concentrations than the immunoassay as could be demonstrated by the bias of -1.16 mg/L (95% confidence interval -1.90-0.43 mg/L) in the Bland-Altman analysis.Conclusions:This specific, automated, LC-MS assay for teicoplanin is suitable for therapeutic drug monitoring.
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Bio Calculators
* Our calculator is based on the following equation:
Concentration (start) x Volume (start) = Concentration (final) x Volume (final)
It is commonly abbreviated as: C1V1 = C2V2
* Total Molecular Weight:
g/mol
Tip: Chemical formula is case sensitive. C22H30N4O √ c22h30n40 ╳
