Polymyxin M

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Polymyxin M
Category Antibiotics
Catalog number BBF-03522
CAS 6683-17-6
Molecular Weight 1157.40
Molecular Formula C51H96N16O14
Purity 95%

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Description

Polymyxin M is a cyclic peptide antibiotic produced by Bacillus polymyxa var. Ross.

Specification

Synonyms mattacin
IUPAC Name N-[(2S)-4-amino-1-[[(2S,3R)-1-[[(2S)-4-amino-1-oxo-1-[[(3S,6S,9S,12S,15R,18S,21S)-6,9,18-tris(2-aminoethyl)-3,12-bis[(1R)-1-hydroxyethyl]-15-(2-methylpropyl)-2,5,8,11,14,17,20-heptaoxo-1,4,7,10,13,16,19-heptazacyclotricos-21-yl]amino]butan-2-yl]amino]-3-hydroxy-1-oxobutan-2-yl]amino]-1-oxobutan-2-yl]-6-methyloctanamide
Canonical SMILES CCC(C)CCCCC(=O)NC(CCN)C(=O)NC(C(C)O)C(=O)NC(CCN)C(=O)NC1CCNC(=O)C(NC(=O)C(NC(=O)C(NC(=O)C(NC(=O)C(NC(=O)C(NC1=O)CCN)CC(C)C)C(C)O)CCN)CCN)C(C)O
InChI InChI=1S/C51H96N16O14/c1-8-27(4)11-9-10-12-38(71)58-31(13-19-52)46(76)66-40(29(6)69)50(80)63-34(16-22-55)43(73)61-36-18-24-57-49(79)39(28(5)68)65-47(77)35(17-23-56)60-42(72)33(15-21-54)62-51(81)41(30(7)70)67-48(78)37(25-26(2)3)64-44(74)32(14-20-53)59-45(36)75/h26-37,39-41,68-70H,8-25,52-56H2,1-7H3,(H,57,79)(H,58,71)(H,59,75)(H,60,72)(H,61,73)(H,62,81)(H,63,80)(H,64,74)(H,65,77)(H,66,76)(H,67,78)/t27?,28-,29-,30-,31+,32+,33+,34+,35+,36+,37-,39+,40+,41+/m1/s1
InChI Key XRBFWBMDMQIAQF-ZHFMXAAZSA-N

Properties

Appearance White Crystal
Antibiotic Activity Spectrum fungi
Boiling Point 1569.2±65.0°C at 760 mmHg
Melting Point 256-258°C(dec.)
Density 1.3±0.1 g/cm3

Reference Reading

1. Overview of polymyxin resistance in Enterobacteriaceae
Kesia Esther da Silva, Luana Rossato, Andressa Ferraz Leite, Simone Simionatto Rev Soc Bras Med Trop. 2022 Feb 25;55:e0349. doi: 10.1590/0037-8682-0349-2021. eCollection 2022.
Polymyxin antibiotics are disfavored owing to their potential clinical toxicity, especially nephrotoxicity. However, the dry antibiotic development pipeline, together with the increasing global prevalence of infections caused by multidrug-resistant (MDR) gram-negative bacteria, have renewed clinical interest in these polypeptide antibiotics. This review highlights the current information regarding the mechanisms of resistance to polymyxins and their molecular epidemiology. Knowledge of the resistance mechanisms and epidemiology of these pathogens is critical for the development of novel antibacterial agents and rapid treatment choices.
2. Causes of polymyxin treatment failure and new derivatives to fill the gap
Selena Chiu, Anna M Hancock, Bob W Schofner, Katherine J Sniezek, Nashaly Soto-Echevarria, Gabrielle Leon, Darshan M Sivaloganathan, Xuanqing Wan, Mark P Brynildsen J Antibiot (Tokyo). 2022 Nov;75(11):593-609. doi: 10.1038/s41429-022-00561-3. Epub 2022 Sep 20.
Polymyxins are a class of antibiotics that were discovered in 1947 from programs searching for compounds effective in the treatment of Gram-negative infections. Produced by the Gram-positive bacterium Paenibacillus polymyxa and composed of a cyclic peptide chain with a peptide-fatty acyl tail, polymyxins exert bactericidal effects through membrane disruption. Currently, polymyxin B and colistin (polymyxin E) have been developed for clinical use, where they are reserved as "last-line" therapies for multidrug-resistant (MDR) infections. Unfortunately, the incidences of strains resistant to polymyxins have been increasing globally, and polymyxin heteroresistance has been gaining appreciation as an important clinical challenge. These phenomena, along with bacterial tolerance to this antibiotic class, constitute important contributors to polymyxin treatment failure. Here, we review polymyxins and their mechanism of action, summarize the current understanding of how polymyxin treatment fails, and discuss how the next generation of polymyxins holds promise to invigorate this antibiotic class.
3. Rescuing the Last-Line Polymyxins: Achievements and Challenges
Sue C Nang, Mohammad A K Azad, Tony Velkov, Qi Tony Zhou, Jian Li Pharmacol Rev. 2021 Apr;73(2):679-728. doi: 10.1124/pharmrev.120.000020.
Antibiotic resistance is a major global health challenge and, worryingly, several key Gram negative pathogens can become resistant to most currently available antibiotics. Polymyxins have been revived as a last-line therapeutic option for the treatment of infections caused by multidrug-resistant Gram negative bacteria, in particular Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacterales. Polymyxins were first discovered in the late 1940s but were abandoned soon after their approval in the late 1950s as a result of toxicities (e.g., nephrotoxicity) and the availability of "safer" antibiotics approved at that time. Therefore, knowledge on polymyxins had been scarce until recently, when enormous efforts have been made by several research teams around the world to elucidate the chemical, microbiological, pharmacokinetic/pharmacodynamic, and toxicological properties of polymyxins. One of the major achievements is the development of the first scientifically based dosage regimens for colistin that are crucial to ensure its safe and effective use in patients. Although the guideline has not been developed for polymyxin B, a large clinical trial is currently being conducted to optimize its clinical use. Importantly, several novel, safer polymyxin-like lipopeptides are developed to overcome the nephrotoxicity, poor efficacy against pulmonary infections, and narrow therapeutic windows of the currently used polymyxin B and colistin. This review discusses the latest achievements on polymyxins and highlights the major challenges ahead in optimizing their clinical use and discovering new-generation polymyxins. To save lives from the deadly infections caused by Gram negative "superbugs," every effort must be made to improve the clinical utility of the last-line polymyxins. SIGNIFICANCE STATEMENT: Antimicrobial resistance poses a significant threat to global health. The increasing prevalence of multidrug-resistant (MDR) bacterial infections has been highlighted by leading global health organizations and authorities. Polymyxins are a last-line defense against difficult-to-treat MDR Gram negative pathogens. Unfortunately, the pharmacological information on polymyxins was very limited until recently. This review provides a comprehensive overview on the major achievements and challenges in polymyxin pharmacology and clinical use and how the recent findings have been employed to improve clinical practice worldwide.

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