Purification, toxicity, and antiendotoxin activity of polymyxin B nonapeptide

Danner, Robert L.; Joiner, Keith A.; Rubin, Marc; Patterson, W. H.; Johnson, Nakpangi; Ayers, K. M.; Parrillo, Joseph E.

doi:10.1128/aac.33.9.1428

Cited by 147 publications

(111 citation statements)

References 52 publications

(54 reference statements)

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“…Polymyxin B, that binds to lipopolysaccharide and neutralizes its activity (Weinberg et al, 1978;Danner et al, 1989), has been reported to prevent spontaneous reduction of phenylephrine-induced tone possibly due to induction by lipopolysaccharide of an NO synthase (Rees et al, 1990a). Similarly, in the present experiments, polymyxin B also prevented development of L-arginine-induced relaxation, suggesting the possible induction of an NO synthase by lipopolysaccharide contamination of the Krebs solution which has been noted (Rees et al, 1990a).…”

Section: Discussionsupporting

confidence: 67%

Nitric oxide synthase responsible for l‐arginine‐induced relaxation of rat aortic rings in vitro may be an inducible type

Moritoki¹,

Takeuchi²,

Hisayama³

et al. 1992

British J Pharmacology

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1 Characteristics of L-arginine-induced non-endothelial nitric oxide (NO) formation in rat isolated thoracic aorta were investigated. 2 Relaxation to L-arginine in arterial rings devoid of endothelium developed about 2 h after the first challenge with L-arginine and reached a maximum after a further 4 h of incubation. 3 After the arteries had relaxed in response to L-arginine, guanosine 3':5'-cyclic monophosphate (cyclic GMP) production was stimulated. In fresh arteries that had not yet relaxed in response to L-arginine, L-arginine failed to elevate cyclic GMP levels. 4 Glucocorticoids, actinomycin D and polymyxin B prevented the development of L-arginine-induced relaxation and L-arginine-stimulated increase in cyclic GMP formation. 5 Once L-arginine-induced relaxation developed, these agents no longer suppressed the relaxation and increase in cyclic GMP formation to L-arginine. 6 From these results, it is suggested that in the isolated thoracic aorta of the rat, endotoxin in the medium triggers induction of a non-endothelial NO synthase during prolonged incubation, which accelerates production of NO from added L-arginine to cause relaxation of the arteries via cyclic GMP. Glucocorticoids and protein synthesis inhibitors may prevent induction of NO synthase. It is suggested that the NO synthase mediating the production of muscle-derived NO from L-arginine is an inducible type.

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Section: Discussionsupporting

confidence: 67%

Nitric oxide synthase responsible for l‐arginine‐induced relaxation of rat aortic rings in vitro may be an inducible type

Moritoki¹,

Takeuchi²,

Hisayama³

et al. 1992

British J Pharmacology

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“…In particular, removal of the fatty acid chain by proteolytic cleavage with ficin or related enzymes resulted in deacylated nonapeptides [65], with less acute toxicity than their parent polymyxins along with a reduced antibacterial activity [66][67][68]. Despite lacking bactericidal activity themselves, these polymyxin nonapeptides (PMBN) can damage the outermost cell wall structure of Gram-negative bacteria, greatly increasing its permeability to hydrophobic antibiotics, which may facilitate combinatorial use with other antibiotics to treat specific infections [69][70][71][72][73][74][75].…”

Section: Polymyxins and Derivativesmentioning

confidence: 99%

Lipopeptides as anti-infectives: a practical perspective

et al. 2009

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Abstract:Lipopeptide antibiotics represent an old class of antibiotics that were discovered over 50 years ago, which includes the old polymyxins but also new entries, such as the recently approved daptomycin. They generally consist of a hydrophilic cyclic peptide portion attached to a fatty acid chain which facilitates insertion into the lipid bilayer of bacterial membranes. This review presents an overview of this class of antibiotics, focusing on their therapeutic applications and putting particular emphasis on chemical modifications introduced to improve their activity.

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“…The supernatants obtained after cell removal by centrifugation were assayed for PMB content by HPLC using a reversephase C 18 column (4.7 by 250 mm; YMC-Pack ODS-AM, YMC Inc.). Elution was carried out by increasing the content of acetonitrile from 0 to 100% in a mobile phase of 0.15% trifluoroacetic acid in H 2 O over 30 minutes at a flow rate of 1.0 ml/minute, and PMB was detected at an absorbance at 215 nm [23].…”

Section: Hplc Analysis Of Pmbmentioning

confidence: 99%

Amplification of Vacuole-targeting Fungicidal Activity of Antibacterial Antibiotic Polymyxin B by Allicin, an Allyl Sulfur Compound from Garlic

et al. 2007

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A cationic antibacterial peptide, polymyxin B (PMB), was evaluated as an antifungal antibiotic against various yeasts and filamentous fungi when used in combination with allicin, an allyl sulfur compound from garlic. Allicin was not lethal but could markedly amplify the fungicidal activity of PMB, which was weakly detected with the increase in the plasma membrane permeability in Saccharomyces cerevisiae. Their combined actions caused a dynamic structural damage to the yeast vacuole as judged by the disappearance of its swollen spherical architecture. The vacuole-targeting activity of PMB was similarly amplified in medium with t-butyl hydroperoxide as a substitute for the action of allicin. These findings suggest that the allicin-mediated lipoperoxide production in fungal plasma membrane is the cause of the enhancement in the cellular uptake of PMB as well as its action against the vacuole.Keywords polymyxin B, allicin, Saccharomyces cerevisiae, vacuole, plasma membrane IntroductionPolymyxin B (PMB, Fig. 1) is a decapeptide antibiotic characterized by a heptapeptide ring containing four 2,4-diaminobutyric acids. An additional peptide chain covalently bound to the cyclic peptide carries an aliphatic chain attached to the peptide through an amide bond. PMB is bactericidal to almost all Gram-negative bacteria at relatively low concentrations [1]. The antibiotic is known to disrupt a permeability barrier of the bacterial outer membrane by forming a complex with lipopolysaccharide [2,3]. Therefore, PMB is expected to increase the

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Purification, toxicity, and antiendotoxin activity of polymyxin B nonapeptide

Cited by 147 publications

References 52 publications

Nitric oxide synthase responsible for l‐arginine‐induced relaxation of rat aortic rings in vitro may be an inducible type

Nitric oxide synthase responsible for l‐arginine‐induced relaxation of rat aortic rings in vitro may be an inducible type

Lipopeptides as anti-infectives: a practical perspective

Amplification of Vacuole-targeting Fungicidal Activity of Antibacterial Antibiotic Polymyxin B by Allicin, an Allyl Sulfur Compound from Garlic

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