Antimicrobial activity of synthetic cationic peptides & lipopeptides derived from human lactoferricin against Pseudomonas aeruginosa planktonic cultures and biofilms

dc.contributor.authorSánchez-Gómez, Susana
dc.contributor.authorFerrer-Espada, Raquel
dc.contributor.authorStewart, Philip S.
dc.contributor.authorPitts, Betsey
dc.contributor.authorLohner, Karl
dc.contributor.authorMartinez de Tejada, Guillermo
dc.date.accessioned2015-12-07T20:36:14Z
dc.date.available2015-12-07T20:36:14Z
dc.date.issued2015-07
dc.description.abstractBackground Infections by Pseudomonas aeruginosa constitute a serious health threat because this pathogen - particularly when it forms biofilms - can acquire resistance to the majority of conventional antibiotics. This study evaluated the antimicrobial activity of synthetic peptides based on LF11, an 11-mer peptide derived from human lactoferricin against P. aeruginosa planktonic and biofilm-forming cells. We included in this analysis selected N-acylated derivatives of the peptides to analyze the effect of acylation in antimicrobial activity. To assess the efficacy of compounds against planktonic bacteria, microdilution assays to determine the minimal inhibitory concentration (MIC), minimum bactericidal concentration (MBC) and time-kill studies were conducted. The anti-biofilm activity of the agents was assessed on biofilms grown under static (on microplates) and dynamic (in a CDC-reactor) flow regimes. Results The antimicrobial activity of lipopeptides differed from that of non-acylated peptides in their killing mechanisms on planktonic and biofilm-forming cells. Thus, acylation enhanced the bactericidal activity of the parental peptides and resulted in lipopeptides that were uniformly bactericidal at their MIC. In contrast, acylation of the most potent anti-biofilm peptides resulted in compounds with lower anti-biofilm activity. Both peptides and lipopeptides displayed very rapid killing kinetics and all of them required less than 21 min to reduce 1,000 times the viability of planktonic cells when tested at 2 times their MBC. The peptides, LF11-215 (FWRIRIRR) and LF11-227 (FWRRFWRR), displayed the most potent anti-biofilm activity causing a 10,000 fold reduction in cell viability after 1 h of treatment at 10 times their MIC. At that concentration, these two compounds exhibited low citotoxicity on human cells. In addition to its bactericidal activity, LF11-227 removed more that 50 % of the biofilm mass in independent assays. Peptide LF11-215 and two of the shortest and least hydrophobic lipopeptides, DI-MB-LF11-322 (2,2-dimethylbutanoyl-PFWRIRIRR) and DI-MB-LF11-215, penetrated deep into the biofilm structure and homogenously killed biofilm-forming bacteria. Conclusion We identified peptides derived from human lactoferricin with potent antimicrobial activity against P. aeruginosa growing either in planktonic or in biofilm mode. Although further structure-activity relationship analyses are necessary to optimize the anti-biofilm activity of these compounds, the results indicate that lactoferricin derived peptides are promising anti-biofilm agents."en_US
dc.identifier.citationSanchez-Gomez, Susana, Raquel Ferrer-Espada, Philip S. Stewart, Betsey Pitts, Karl Lohner, and Guillermo Martinez de Tejada. "Antimicrobial activity of synthetic cationic peptides & lipopeptides derived from human lactoferricin against Pseudomonas aeruginosa planktonic cultures and biofilms." BMC Microbiology 15 (July 2015): 137-148. DOI:https://dx.doi.org/10.1186/s12866-015-0473-x.en_US
dc.identifier.issn1471-2180
dc.identifier.urihttps://scholarworks.montana.edu/handle/1/9401
dc.rightsCC BY 4.0en_US
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/legalcodeen_US
dc.titleAntimicrobial activity of synthetic cationic peptides & lipopeptides derived from human lactoferricin against Pseudomonas aeruginosa planktonic cultures and biofilmsen_US
dc.typeArticleen_US
mus.citation.extentfirstpage137en_US
mus.citation.extentlastpage148en_US
mus.citation.journaltitleBMC Microbiologyen_US
mus.citation.volume15en_US
mus.contributor.orcidStewart, Philip S.|0000-0001-7773-8570en_US
mus.data.thumbpage5en_US
mus.identifier.categoryLife Sciences & Earth Sciencesen_US
mus.identifier.doi10.1186/s12866-015-0473-xen_US
mus.relation.collegeCollege of Engineeringen_US
mus.relation.departmentCenter for Biofilm Engineering.en_US
mus.relation.universityMontana State University - Bozemanen_US

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