Literature DB >> 22279153

Therapeutic antimicrobial peptides may compromise natural immunity.

Michelle G J L Habets1, Michael A Brockhurst.   

Abstract

Antimicrobial peptides (AMPs) have been proposed as a promising new class of antimicrobials despite warnings that therapeutic use could drive the evolution of pathogens resistant to our own immunity peptides. Using experimental evolution, we demonstrate that Staphylococcus aureus rapidly evolved resistance to pexiganan, a drug-candidate for diabetic leg ulcer infections. Evolved resistance was costly in terms of impaired growth rate, but costs-of-resistance were completely ameliorated by compensatory adaptation. Crucially, we show that, in some populations, experimentally evolved resistance to pexiganan provided S. aureus with cross-resistance to human-neutrophil-defensin-1, a key component of the innate immune response to infection. This unintended consequence of therapeutic use could drastically undermine our innate immune system's ability to control and clear microbial infections. Our results therefore highlight grave potential risks of AMP therapies, with implications for their development.

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Year:  2012        PMID: 22279153      PMCID: PMC3367763          DOI: 10.1098/rsbl.2011.1203

Source DB:  PubMed          Journal:  Biol Lett        ISSN: 1744-9561            Impact factor:   3.703


  11 in total

1.  In vitro susceptibility to pexiganan of bacteria isolated from infected diabetic foot ulcers.

Authors:  Y Ge; D MacDonald; M M Henry; H I Hait; K A Nelson; B A Lipsky; M A Zasloff; K J Holroyd
Journal:  Diagn Microbiol Infect Dis       Date:  1999-09       Impact factor: 2.803

Review 2.  Arming the enemy: the evolution of resistance to self-proteins.

Authors:  Graham Bell; Pierre-Henri Gouyon
Journal:  Microbiology       Date:  2003-06       Impact factor: 2.777

Review 3.  Antimicrobial and host-defense peptides as new anti-infective therapeutic strategies.

Authors:  Robert E W Hancock; Hans-Georg Sahl
Journal:  Nat Biotechnol       Date:  2006-12       Impact factor: 54.908

4.  Microbiological profile of infected diabetic foot ulcers.

Authors:  Y Ge; D MacDonald; H Hait; B Lipsky; M Zasloff; K Holroyd
Journal:  Diabet Med       Date:  2002-12       Impact factor: 4.359

Review 5.  Neutrophils and immunity: challenges and opportunities.

Authors:  Carl Nathan
Journal:  Nat Rev Immunol       Date:  2006-03       Impact factor: 53.106

6.  Experimental evolution of resistance to an antimicrobial peptide.

Authors:  Gabriel G Perron; Michael Zasloff; Graham Bell
Journal:  Proc Biol Sci       Date:  2006-01-22       Impact factor: 5.349

Review 7.  Road to clinical efficacy: challenges and novel strategies for antimicrobial peptide development.

Authors:  Randal Eckert
Journal:  Future Microbiol       Date:  2011-06       Impact factor: 3.165

8.  The pathogenesis of Staphylococcus aureus infection in the diabetic NOD mouse.

Authors:  Jeremy Rich; Jean C Lee
Journal:  Diabetes       Date:  2005-10       Impact factor: 9.461

9.  In vitro antibacterial properties of pexiganan, an analog of magainin.

Authors:  Y Ge; D L MacDonald; K J Holroyd; C Thornsberry; H Wexler; M Zasloff
Journal:  Antimicrob Agents Chemother       Date:  1999-04       Impact factor: 5.191

10.  Staphylococcus aureus susceptibility to innate antimicrobial peptides, beta-defensins and CAP18, expressed by human keratinocytes.

Authors:  Kazushige Midorikawa; Kazuhisa Ouhara; Hitoshi Komatsuzawa; Toshihisa Kawai; Sakuo Yamada; Tamaki Fujiwara; Kenshi Yamazaki; Koji Sayama; Martin A Taubman; Hidemi Kurihara; Koji Hashimoto; Motoyuki Sugai
Journal:  Infect Immun       Date:  2003-07       Impact factor: 3.441
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  41 in total

Review 1.  Perspectives on the evolutionary ecology of arthropod antimicrobial peptides.

Authors:  Jens Rolff; Paul Schmid-Hempel
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2016-05-26       Impact factor: 6.237

2.  [Design, screening and antimicrobial activity of novel peptides against Streptococcus mutans].

Authors:  Dongsheng Liang; Huanying Li; Xiaohu Xu; Jingheng Liang; Xingzhu Dai; Wanghong Zhao
Journal:  Nan Fang Yi Ke Da Xue Xue Bao       Date:  2019-07-30

3.  Therapeutic potential of the antimicrobial peptide OH-CATH30 for antibiotic-resistant Pseudomonas aeruginosa keratitis.

Authors:  Sheng-An Li; Jie Liu; Yang Xiang; Yan-Jie Wang; Wen-Hui Lee; Yun Zhang
Journal:  Antimicrob Agents Chemother       Date:  2014-03-17       Impact factor: 5.191

Review 4.  Targeting virulence: can we make evolution-proof drugs?

Authors:  Richard C Allen; Roman Popat; Stephen P Diggle; Sam P Brown
Journal:  Nat Rev Microbiol       Date:  2014-04       Impact factor: 60.633

Review 5.  The development of antimicrobial γ-AApeptides.

Authors:  Fengyu She; Olapeju Oyesiku; Peiguang Zhou; Shiming Zhuang; David W Koenig; Jianfeng Cai
Journal:  Future Med Chem       Date:  2016-06-10       Impact factor: 3.808

6.  Experimental Induction of Bacterial Resistance to the Antimicrobial Peptide Tachyplesin I and Investigation of the Resistance Mechanisms.

Authors:  Jun Hong; Jianye Hu; Fei Ke
Journal:  Antimicrob Agents Chemother       Date:  2016-09-23       Impact factor: 5.191

Review 7.  Advances in Development of Antimicrobial Peptidomimetics as Potential Drugs.

Authors:  Natalia Molchanova; Paul R Hansen; Henrik Franzyk
Journal:  Molecules       Date:  2017-08-29       Impact factor: 4.411

Review 8.  Antimicrobial peptides and wound healing: biological and therapeutic considerations.

Authors:  Maria Luisa Mangoni; Alison M McDermott; Michael Zasloff
Journal:  Exp Dermatol       Date:  2016-02-10       Impact factor: 3.960

Review 9.  Bacterial Evasion of Host Antimicrobial Peptide Defenses.

Authors:  Jason N Cole; Victor Nizet
Journal:  Microbiol Spectr       Date:  2016-02

Review 10.  Little peptide, big effects: the role of LL-37 in inflammation and autoimmune disease.

Authors:  J Michelle Kahlenberg; Mariana J Kaplan
Journal:  J Immunol       Date:  2013-11-15       Impact factor: 5.422
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