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Literature DB >> 24345876

Microbicidal effects of α- and θ-defensins against antibiotic-resistant Staphylococcus aureus and Pseudomonas aeruginosa.

Kenneth P Tai¹, Karishma Kamdar¹, Jason Yamaki², Valerie V Le¹, Dat Tran¹, Patti Tran¹, Michael E Selsted¹, André J Ouellette³, Annie Wong-Beringer².

Abstract

Antibiotic-resistant bacterial pathogens threaten public health. Because many antibiotics target specific bacterial enzymes or reactions, corresponding genes may mutate under selection and lead to antibiotic resistance. Accordingly, antimicrobials that selectively target overall microbial cell integrity may offer alternative approaches to therapeutic design. Naturally occurring mammalian α- and θ-defensins are potent, non-toxic microbicides that may be useful for treating infections by antibiotic-resistant pathogens because certain defensin peptides disrupt bacterial, but not mammalian, cell membranes. To test this concept, clinical isolates of methicillin-resistant Staphylococcus aureus (MRSA), including vancomycin heteroresistant strains, and ciprofloxacin-resistant Pseudomonas aeruginosa (Cip(R)-PA) were tested for sensitivity to α-defensins Crp-4, RMAD-4 and HNPs 1-3, and to RTD-1, macaque θ-defensin-1. In vitro, 3 μM Crp-4, RMAD-4 and RTD-1 reduced MRSA cell survival by 99%, regardless of vancomycin susceptibility. For PA clinical isolates that differ in fluoroquinolone resistance and virulence phenotype, peptide efficacy was independent of strain ciprofloxacin resistance, site of isolation or virulence factor expression. Thus, Crp-4, RMAD-4 and RTD-1 are effective in vitro antimicrobials against clinical isolates of MRSA and Cip(R)-PA, perhaps providing templates for development of α- and θ-defensin-based microbicides against antibiotic resistant or virulent infectious agents.

Entities: CellLine Chemical Disease Gene Mutation Species

Keywords: Antimicrobial peptides; ExoS; ExoU; bacteremia; clinical isolates; peptide therapeutics

Mesh：

Substances：

Year: 2013 PMID： 24345876 PMCID： PMC4062604 DOI： 10.1177/1753425913514784

Source DB: PubMed Journal: Innate Immun ISSN： 1753-4259 Impact factor: 2.680

81 in total

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6. Microbicidal properties and cytocidal selectivity of rhesus macaque theta defensins.

Authors: Dat Tran; Patti Tran; Kevin Roberts; George Osapay; Justin Schaal; Andre Ouellette; Michael E Selsted
Journal: Antimicrob Agents Chemother Date: 2007-12-26 Impact factor: 5.191

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Journal: Expert Rev Anti Infect Ther Date: 2008-10 Impact factor: 5.091

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Journal: Infect Control Hosp Epidemiol Date: 2008-11 Impact factor: 3.254

9. Comparison of type III secretion system virulence among fluoroquinolone-susceptible and -resistant clinical isolates of Pseudomonas aeruginosa.

Authors: A Wong-Beringer; J Wiener-Kronish; S Lynch; J Flanagan
Journal: Clin Microbiol Infect Date: 2008-01-11 Impact factor: 8.067

10. Risk factors and mortality in patients with nosocomial Staphylococcus aureus bacteremia.

Authors: Fu-Der Wang; Yin-Yin Chen; Te-Li Chen; Cheng-Yi Liu
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17 in total

1. Macrocyclic θ-defensins suppress tumor necrosis factor-α (TNF-α) shedding by inhibition of TNF-α-converting enzyme.

Authors: Justin B Schaal; Thorsten Maretzky; Dat Q Tran; Patti A Tran; Prasad Tongaonkar; Carl P Blobel; André J Ouellette; Michael E Selsted
Journal: J Biol Chem Date: 2018-01-09 Impact factor: 5.157

2. Rhesus θ-Defensin-1 Attenuates Endotoxin-induced Acute Lung Injury by Inhibiting Proinflammatory Cytokines and Neutrophil Recruitment.

Authors: Jordanna G Jayne; Timothy J Bensman; Justin B Schaal; A Young J Park; Elza Kimura; Dat Tran; Michael E Selsted; Paul M Beringer
Journal: Am J Respir Cell Mol Biol Date: 2018-03 Impact factor: 6.914

3. A hybrid cationic peptide composed of human β-defensin-1 and humanized θ-defensin sequences exhibits salt-resistant antimicrobial activity.

Authors: Sudar Olli; Ramakrishnan Nagaraj; Swapna R Motukupally
Journal: Antimicrob Agents Chemother Date: 2014-10-27 Impact factor: 5.191

4. Rhesus θ-defensin-1 (RTD-1) exhibits in vitro and in vivo activity against cystic fibrosis strains of Pseudomonas aeruginosa.

Authors: Paul M Beringer; Timothy J Bensman; Henry Ho; Melissa Agnello; Nicole Denovel; Albert Nguyen; Annie Wong-Beringer; Rosemary She; Dat Q Tran; Samuel M Moskowitz; Michael E Selsted
Journal: J Antimicrob Chemother Date: 2015-10-03 Impact factor: 5.790

5. Exposure of Pseudomonas aeruginosa to bactericidal hypochlorous acid during neutrophil phagocytosis is compromised in cystic fibrosis.

Authors: Nina Dickerhof; Vivienne Isles; Philip Pattemore; Mark B Hampton; Anthony J Kettle
Journal: J Biol Chem Date: 2019-07-24 Impact factor: 5.157

6. Efficacy of Rhesus Theta-Defensin-1 in Experimental Models of Pseudomonas aeruginosa Lung Infection and Inflammation.

Authors: Timothy J Bensman; Jordanna G Jayne; Meiling Sun; Elza Kimura; Joshua Meinert; Joshua C Wang; Justin B Schaal; Dat Tran; Adupa P Rao; Omid Akbari; Michael E Selsted; Paul M Beringer
Journal: Antimicrob Agents Chemother Date: 2017-07-25 Impact factor: 5.191

7. Antimicrobial activity against Staphylococcus aureus and genome features of Lactiplantibacillus plantarum LR-14 from Sichuan pickles.

Authors: Shuhui Yang; Lei Liu; Jingwen Wang; Shuyu Guo; Guorong Liu; Xing Chen; Xi Deng; Mingxia Tu; Yufei Tao; Yu Rao
Journal: Arch Microbiol Date: 2022-09-20 Impact factor: 2.667

8. Heterogeneous-Backbone Proteomimetic Analogues of Lasiocepsin, a Disulfide-Rich Antimicrobial Peptide with a Compact Tertiary Fold.

Authors: Chino C Cabalteja; Qiao Lin; Thomas W Harmon; Shilpa R Rao; Y Peter Di; W Seth Horne
Journal: ACS Chem Biol Date: 2022-03-15 Impact factor: 4.634

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Authors: María Eugenia Pachón-Ibáñez; Younes Smani; Jerónimo Pachón; Javier Sánchez-Céspedes
Journal: FEMS Microbiol Rev Date: 2017-05-01 Impact factor: 16.408

Review 10. Interactions between Neutrophils and Pseudomonas aeruginosa in Cystic Fibrosis.

Authors: Balázs Rada
Journal: Pathogens Date: 2017-03-09