Biosensor-guided detection of outer membrane-specific antimicrobial activity against Pseudomonas aeruginosa from fungal cultures and medicinal plant extracts

Author:

Shideler Steve1,Bookout Tyson1,Qasim Azka1,Bowron Lauren1,Wu Qiaolian2,Duan Kangmin3ORCID,Treu Roland4,Reckseidler-Zenteno Shauna14,Lewenza Shawn14ORCID

Affiliation:

1. Department of Microbiology, Immunology, and Infectious Diseases, University of Calgary , Calgary, Alberta, Canada

2. College of Life Sciences, Northwest University , Xian, China

3. Department of Oral Biology, University of Manitoba , Winnipeg, Manitoba, Canada

4. Faculty of Science and Technology, Athabasca University , Athabasca, Alberta, Canada

Abstract

ABSTRACT Pseudomonas aeruginosa responds to sub-lethal antimicrobial exposure by inducing the expression of lipopolysaccharide (LPS) surface modifications that mask antibiotic binding sites and contribute to repair and resistance of the outer membrane (OM). We exploit these membrane damage-responsive operons in a biosensor approach used to discover new antimicrobials that specifically target the OM. Chromosomal transcriptional luxCDABE reporters from the pmr (polymyxin resistance; aminoarabinose LPS modification) and speD2E2 (spermidine synthesis) operons are induced by validated outer membrane-acting agents including cationic antimicrobial peptides, cation chelators, ascorbic acid, detergents, and cell wall synthesis inhibitors cycloserine and bacitracin. To identify novel sources of OM-disrupting antimicrobials, we used these OM damage-responsive biosensors to screen a panel of fungal culture supernatants for novel antimicrobial and biosensor activity. Biosensor activity was used to determine the optimal time point of antimicrobial production from fungal supernatants and to guide the purification of active fractions after size-exclusion chromatography. Water and ethanol extracts of Chinese medicinal plants also proved to be a source of biosensor activity. The pathogen box is a 400-member drug library of potential antimicrobials, but none of these compounds induced our OM damage biosensors. This novel, sensitive, cell-based screening assay has potential for future discovery of lead compounds that specifically target the outer membrane, which is a significant barrier to antibiotic entry into Gram-negative bacteria. IMPORTANCE New approaches are needed to discover novel antimicrobials, particularly antibiotics that target the Gram-negative outer membrane. By exploiting bacterial sensing and responses to outer membrane (OM) damage, we used a biosensor approach consisting of polymyxin resistance gene transcriptional reporters to screen natural products and a small drug library for biosensor activity that indicates damage to the OM. The diverse antimicrobial compounds that cause induction of the polymyxin resistance genes, which correlates with outer membrane damage, suggest that these LPS and surface modifications also function in short-term repair to sublethal exposure and are required against broad membrane stress conditions.

Funder

Cystic Fibrosis Canada

Gouvernement du Canada | Natural Sciences and Engineering Research Council of Canada

Publisher

American Society for Microbiology

Subject

Infectious Diseases,Cell Biology,Microbiology (medical),Genetics,General Immunology and Microbiology,Ecology,Physiology

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