Your search keyword '"Shanks RMQ"' showing total 78 results

1. The in vitro Evaluation of the Activity of COVID-19 Antiviral Drugs Against Adenovirus

Author

Romanowski EG, Yates KA, Romanowski JE, Shanks RMQ, and Kowalski RP

Subjects

adenovirus, remdesivir, ivermectin, umifenovir, in vitro, antiviral, Ophthalmology, RE1-994

Abstract

Eric G Romanowski, Kathleen A Yates, John E Romanowski, Robert MQ Shanks, Regis P Kowalski The Charles T. Campbell Ophthalmic Microbiology Laboratory, UPMC Eye Center, Ophthalmology and Visual Sciences Research Center, Department of Ophthalmology, University of Pittsburgh School of Medicine, Pittsburgh, PA, USACorrespondence: Eric G RomanowskiThe Eye & Ear Institute, Room 1020, 203 Lothrop Street, Pittsburgh, PA, 15213, USATel +1 412-647-2245Fax +1 412-647-5880Email romanowskieg@upmc.eduPurpose: Presently, there is no approved antiviral therapy for adenovirus (HAdV) ocular infections. During the COVID-19 pandemic, increased attention has been focused on antiviral treatments. Remdesivir, hydroxychloroquine, ivermectin, and umifenovir (Arbidol) have been touted as potential antiviral treatments for COVID-19. The goal of the current study was to determine whether these potential COVID-19 antivirals produce in vitro antiviral activity against a panel of ocular adenovirus types.Methods: The 50% effective concentrations (EC50) of remdesivir (REM), hydroxychloroquine (HCQ), ivermectin (IVM), umifenovir (UMF) and cidofovir (CDV) (positive antiviral control) were determined for the human HAdV types HAdV3, HAdV4, HAdV5, HAdV7a, HAdV8, HAdV19/64 and HAdV37 using standard plaque-reduction assays in A549 cells.Results: The range of mean in vitro EC50 concentrations for each antiviral across the range of HAdV types is as follows: The positive antiviral control, CDV, ranged from 0.47 to 9.62 μM; REM ranged from 0.21 to 11.27 μM; UMF ranged from 3.72 to 64.8 μM; IVR ranged from 2.60 to 201.3 μM; and HCQ was > 10 μM for all Ad types because of toxicity to the A549 cells. REM produced lower EC50 concentrations than CDV for 6 of 7 HAdV types. Potency increases with lower EC50 concentrations.Conclusion: REM demonstrated anti-adenovirus activity in a range similar to that demonstrated by cidofovir. UMF and IVR demonstrated larger ranges of antiviral activity than CDV and REM across the panel of HAdV types. The anti-adenovirus activity of HCQ could not be determined due to cytotoxicity. Further investigation of REM, UMF, and IVR as antivirals for adenovirus is indicated.Keywords: adenovirus, remdesivir, ivermectin, umifenovir, in vitro, antiviral

Published

2021

2. Benzalkonium Chloride Demonstrates Concentration-Dependent Antiviral Activity Against Adenovirus In Vitro

Author

Eric G. Romanowski, Shanks Rmq, Kathleen A. Yates, and R.P. Kowalski

Subjects

0301 basic medicine, Preservative, Microbial Sensitivity Tests, Pharmacology, Antiviral Agents, Adenoviridae, 03 medical and health sciences, Benzalkonium chloride, 0302 clinical medicine, Humans, Medicine, Pharmacology (medical), Antiviral treatment, Dose-Response Relationship, Drug, integumentary system, business.industry, Original Articles, In vitro, Epidemic Keratoconjunctivitis, body regions, Ophthalmology, Concentration dependent, 030104 developmental biology, A549 Cells, 030221 ophthalmology & optometry, biological phenomena, cell phenomena, and immunity, Benzalkonium Compounds, business, medicine.drug

Abstract

Purpose: Adenoviral conjunctivitis is the most common cause of conjunctivitis worldwide with no approved antiviral treatment. Benzalkonium chloride (BAK) is a common preservative in ophthalmic medications and is the active ingredient in some skin disinfectants and hand sanitizers. BAK is known to be effective in killing bacteria and enveloped viruses; however, its activity against ocular types of nonenveloped adenoviruses (Ads) is unknown. The goal was to determine whether BAK is an effective antiviral agent against common human ocular types of adenovirus in vitro. Methods: The direct inactivating activity of BAK was determined by incubating several human adenovirus types with BAK concentrations of 0.001%, 0.003%, 0.005%, 0.01%, 0.1%, and 0% for 1 h at 33°C. Resulting adenovirus titers were determined after treatment. Decreases in titers of ≥3 Log(10) were considered virucidal, while decreases in titers of 1 Log(10), but 1 Log(10) were demonstrated for BAK 0.003%, 0.005%, and 0.01% for Ad5 only. Decreases in titers for the other adenovirus types for those concentrations were ≤0.53 Log(10). 0.001% BAK produced minimal decreases in titers for all types. Conclusions: BAK, at 0.01% or less was not consistently effective as an antiviral against adenovirus, but higher concentrations, such as 0.1%, should be further investigated as a possible topical treatment for adenoviral ocular infections, providing ocular toxicity is not an issue.

Published

2019

3. An Eye to a Kill: Using Predatory Bacteria to Control Gram-Negative Pathogens Associated with Ocular Infections

Author

Shanks, RMQ, Davra, VR, Romanowski, EG, Brothers, KM, Stella, NA, Godboley, D, Kadouri, DE, Shanks, RMQ, Davra, VR, Romanowski, EG, Brothers, KM, Stella, NA, Godboley, D, and Kadouri, DE

Abstract

Ocular infections are a leading cause of vision loss. It has been previously suggested that predatory prokaryotes might be used as live antibiotics to control infections. In this study, Pseudomonas aeruginosa and Serratia marcescens ocular isolates were exposed to the predatory bacteria Micavibrio aeruginosavorus and Bdellovibrio bacteriovorus. All tested S. marcescens isolates were susceptible to predation by B. bacteriovorus strains 109J and HD100. Seven of the 10 P. aeruginosa isolates were susceptible to predation by B. bacteriovorus 109J with 80% being attacked by M. aeruginosavorus. All of the 19 tested isolates were found to be sensitive to at least one predator. To further investigate the effect of the predators on eukaryotic cells, human corneal-limbal epithelial (HCLE) cells were exposed to high concentrations of the predators. Cytotoxicity assays demonstrated that predatory bacteria do not damage ocular surface cells in vitro whereas the P. aeruginosa used as a positive control was highly toxic. Furthermore, no increase in the production of the proinflammatory cytokines IL-8 and TNF-alpha was measured in HCLE cells after exposure to the predators. Finally, injection of high concentration of predatory bacteria into the hemocoel of Galleria mellonella, an established model system used to study microbial pathogenesis, did not result in any measurable negative effect to the host. Our results suggest that predatory bacteria could be considered in the near future as a safe topical bio-control agent to treat ocular infections. © 2013 Shanks et al.

Published

2013

4. Predatory Bacteria: A Potential Ally against Multidrug-Resistant Gram-Negative Pathogens

Author

Kadouri, DE, To, K, Shanks, RMQ, Doi, Y, Kadouri, DE, To, K, Shanks, RMQ, and Doi, Y

Abstract

Multidrug-resistant (MDR) Gram-negative bacteria have emerged as a serious threat to human and animal health. Bdellovibrio spp. and Micavibrio spp. are Gram-negative bacteria that prey on other Gram-negative bacteria. In this study, the ability of Bdellovibrio bacteriovorus and Micavibrio aeruginosavorus to prey on MDR Gram-negative clinical strains was examined. Although the potential use of predatory bacteria to attack MDR pathogens has been suggested, the data supporting these claims is lacking. By conducting predation experiments we have established that predatory bacteria have the capacity to attack clinical strains of a variety of ß-lactamase-producing, MDR Gram-negative bacteria. Our observations indicate that predatory bacteria maintained their ability to prey on MDR bacteria regardless of their antimicrobial resistance, hence, might be used as therapeutic agents where other antimicrobial drugs fail. © 2013 Kadouri et al.

Published

2013

5. A Serratia marcescens PigP Homolog Controls Prodigiosin Biosynthesis, Swarming Motility and Hemolysis and Is Regulated by cAMP-CRP and HexS

Author

Shanks, RMQ, Lahr, RM, Stella, NA, Arena, KE, Brothers, KM, Kwak, DH, Liu, X, Kalivoda, EJ, Shanks, RMQ, Lahr, RM, Stella, NA, Arena, KE, Brothers, KM, Kwak, DH, Liu, X, and Kalivoda, EJ

Abstract

Swarming motility and hemolysis are virulence-associated determinants for a wide array of pathogenic bacteria. The broad host-range opportunistic pathogen Serratia marcescens produces serratamolide, a small cyclic amino-lipid, that promotes swarming motility and hemolysis. Serratamolide is negatively regulated by the transcription factors HexS and CRP. Positive regulators of serratamolide production are unknown. Similar to serratamolide, the antibiotic pigment, prodigiosin, is regulated by temperature, growth phase, HexS, and CRP. Because of this co-regulation, we tested the hypothesis that a homolog of the PigP transcription factor of the atypical Serratia species ATCC 39006, which positively regulates prodigiosin biosynthesis, is also a positive regulator of serratamolide production in S. marcescens. Mutation of pigP in clinical, environmental, and laboratory strains of S. marcescens conferred pleiotropic phenotypes including the loss of swarming motility, hemolysis, and severely reduced prodigiosin and serratamolide synthesis. Transcriptional analysis and electrophoretic mobility shift assays place PigP in a regulatory pathway with upstream regulators CRP and HexS. The data from this study identifies a positive regulator of serratamolide production, describes novel roles for the PigP transcription factor, shows for the first time that PigP directly regulates the pigment biosynthetic operon, and identifies upstream regulators of pigP. This study suggests that PigP is important for the ability of S. marcescens to compete in the environment. © 2013 Shanks et al.

Published

2013

6. Serratamolide is a hemolytic factor produced by Serratia marcescens

Author

Shanks, RMQ, Stella, NA, Lahr, RM, Wang, S, Veverka, TI, Kowalski, RP, Liu, X, Shanks, RMQ, Stella, NA, Lahr, RM, Wang, S, Veverka, TI, Kowalski, RP, and Liu, X

Abstract

Serratia marcescens is a common contaminant of contact lens cases and lenses. Hemolytic factors of S. marcescens contribute to the virulence of this opportunistic bacterial pathogen. We took advantage of an observed hyper-hemolytic phenotype of crp mutants to investigate mechanisms of hemolysis. A genetic screen revealed that swrW is necessary for the hyper-hemolysis phenotype of crp mutants. The swrW gene is required for biosynthesis of the biosurfactant serratamolide, previously shown to be a broad-spectrum antibiotic and to contribute to swarming motility. Multicopy expression of swrW or mutation of the hexS transcription factor gene, a known inhibitor of swrW expression, led to an increase in hemolysis. Surfactant zones and expression from an swrW-transcriptional reporter were elevated in a crp mutant compared to the wild type. Purified serratamolide was hemolytic to sheep and murine red blood cells and cytotoxic to human airway and corneal limbal epithelial cells in vitro. The swrW gene was found in the majority of contact lens isolates tested. Genetic and biochemical analysis implicate the biosurfactant serratamolide as a hemolysin. This novel hemolysin may contribute to irritation and infections associated with contact lens use. © 2012 Shanks et al.

Published

2012

7. Topical levofloxacin 1.5% Is effective in reducing levofloxacin-resistant MRSA and FQ-resistant pseudomonas aeruginosa in keratitis models

Author

KOWALSKI, RP, primary, ROMANOWSKI, EG, additional, MAH, FS, additional, SHANKS, RMQ, additional, and GORDON, YJ, additional

Published

2009

8. The Efficacy of Topical Cefiderocol Treatment of Experimental Extensively Drug-Resistant Pseudomonas aeruginosa Keratitis Is Dependent upon the State of the Corneal Epithelium.

Author

Romanowski EG, Mandell JB, Jhanji V, and Shanks RMQ

Abstract

Background: An overlooked factor in the efficacy of topical antibiotics to treat bacterial keratitis is the state of the corneal epithelium. Recently, we evaluated topical cefiderocol for the treatment of extensively drug-resistant (XDR) Pseudomonas aeruginosa (PA) keratitis in eyes with the corneal epithelium abraded. The goal of this study was to use the same model with the corneal epithelium left intact to evaluate the efficacy of cefiderocol and other antibiotics and compare the results to those of the previous study. Methods: NZW rabbit corneas with intact epithelium were inoculated with XDRPA. After 16 h, the rabbits were topically treated with cefiderocol 50 mg/mL, ciprofloxacin 0.3%, tobramycin 14 mg/mL, or saline. Following 8 h of treatment, the corneas were harvested for CFU determinations and cefiderocol concentrations. Results: Only cefiderocol significantly decreased CFU of the XDRPA strain compared with saline. The CFU in the cefiderocol and tobramycin-treated corneas for the XDRPA strain with initially intact epithelium were 1.83-1.4 Log 10 greater than those produced in corneas with the abraded epithelium ( p < 0.05). Cefiderocol concentrations were 5.02× less in corneas with initially intact epithelium. Conclusions: The efficacy of cefiderocol and tobramycin to treat experimental XDRPA keratitis is dependent on the state of the corneal epithelium.

Published

2024

9. Identification of an N-terminal tag (580N) that improves the biosynthesis of fluorescent proteins in Francisella tularensis and other Gram-negative bacteria.

Author

Haggerty K, Cantlay S, Young E, Cashbaugh MK, Delatore Iii EF, Schreiber R, Hess H, Komlosi DR, Butler S, Bolon D, Evangelista T, Hager T, Kelly C, Phillips K, Voellinger J, Shanks RMQ, and Horzempa J

Subjects

Lysine metabolism, Peptides genetics, Codon genetics, Protein Sorting Signals genetics, Francisella tularensis genetics, Francisella tularensis chemistry, Francisella tularensis metabolism

Abstract

Utilization of fluorescent proteins is widespread for the study of microbial pathogenesis and host-pathogen interactions. Here, we discovered that linkage of the 36 N-terminal amino acids of FTL&#95;0580 (a hypothetical protein of Francisella tularensis) to fluorescent proteins increases the fluorescence emission of bacteria that express these recombinant fusions. This N-terminal peptide will be referred to as 580N. Western blotting revealed that the linkage of 580N to Emerald Green Fluorescent Protein (EmGFP) in F. tularensis markedly improved detection of this protein. We therefore hypothesized that transcripts containing 580N may be translated more efficiently than those lacking the coding sequence for this leader peptide. In support, expression of emGFP Ft that had been codon-optimized for F. tularensis, yielded significantly enhanced fluorescence than its non-optimized counterpart. Furthermore, fusing emGFP with coding sequence for a small N-terminal peptide (Serine-Lysine-Isoleucine-Lysine), which had previously been shown to inhibit ribosomal stalling, produced robust fluorescence when expressed in F. tularensis. These findings support the interpretation that 580N enhances the translation efficiency of fluorescent proteins in F. tularensis. Interestingly, expression of non-optimized 580N-emGFP produced greater fluorescence intensity than any other construct. Structural predictions suggested that RNA secondary structure also may be influencing translation efficiency. When expressed in Escherichia coli and Klebsiella pneumoniae bacteria, 580N-emGFP produced increased green fluorescence compared to untagged emGFP (neither allele was codon optimized for these bacteria). In conclusion, fusing the coding sequence for the 580N leader peptide to recombinant genes might serve as an economical alternative to codon optimization for enhancing protein expression in bacteria., (Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

10. Genome sequence generated by hybrid Nanopore-Illumina assembly of an extensively drug-resistant Pseudomonas aeruginosa strain from a keratitis outbreak.

Author

Calvario RC and Shanks RMQ

Abstract

Here, we report the genome sequence of an extensively drug-resistant Pseudomonas aeruginosa associated with a keratitis outbreak. This isolate was from the Center for Disease Control and Prevention and originates from a cornea. This sequence will facilitate studies of extensively drug resistant bacteria., Competing Interests: The authors declare no conflict of interest.

Published

2024

11. Predatory bacteria prevent the proliferation of intraocular Serratia marcescens and fluoroquinolone-resistant Pseudomonas aeruginosa .

Author

Romanowski EG, Brothers KM, Calvario RC, Stella NA, Kim T, Elsayed M, Kadouri DE, and Shanks RMQ

Subjects

Animals, Rabbits, Fluoroquinolones pharmacology, Pseudomonas aeruginosa, Serratia marcescens, Predatory Behavior, Staphylococcus aureus, Cell Proliferation, Endophthalmitis, Pseudomonas Infections

Abstract

Endogenous endophthalmitis caused by Gram-negative bacteria is an intra-ocular infection that can rapidly progress to irreversible loss of vision. While most endophthalmitis isolates are susceptible to antibiotic therapy, the emergence of resistant bacteria necessitates alternative approaches to combat intraocular bacterial proliferation. In this study the ability of predatory bacteria to limit intraocular growth of Pseudomonas aeruginosa , Serratia marcescens , and Staphylococcus aureus was evaluated in a New Zealand white rabbit endophthalmitis prevention model. Predatory bacteria Bdellovibrio bacteriovorus and Micavibrio aeruginosavorus were able to reduce proliferation of keratitis isolates of P. aeruginosa and to a lesser extent S. marcescens . However, it was not able to significantly reduce the number of intraocular S. aureus, which is not a productive prey for these predatory bacteria, suggesting that the inhibitory effect on P. aeruginosa and S. marcescens requires active predation rather than an antimicrobial immune response. Similarly, UV-inactivated B. bacteriovorus were unable to prevent proliferation of P. aeruginosa . Together, these data indicate in vivo inhibition of Gram-negative bacteria proliferation within the intra-ocular environment by predatory bacteria.

Published

2024

12. Cefiderocol Is an Effective Topical Monotherapy for Experimental Extensively Drug-Resistant Pseudomonas aeruginosa Keratitis.

Author

Romanowski EG, Mumper SM, Shanks HQ, Yates KA, Mandell JB, Zegans ME, and Shanks RMQ

Abstract

Purpose: To test cefiderocol, a siderophore-cephalosporin antibiotic for topical monotherapy treatment of experimental extensively drug-resistant (XDR) Pseudomonas aeruginosa keratitis., Design: Preclinical study., Subjects and Controls: Deidentified P. aeruginosa keratitis isolates, XDR P. aeruginosa from eye drop outbreak, rabbits, saline, cefiderocol 50 mg/ml, ciprofloxacin 0.3%, and tobramycin 14 mg/ml., Methods Intervention or Testing: Cefiderocol antibacterial activity against P. aeruginosa keratitis isolates (n = 135) was evaluated by minimum inhibitory concentration (MIC) testing. Ocular toxicity/tolerability and antibacterial efficacy were tested in vivo with experimental rabbit models. Corneal concentrations and stability were assessed using a bioassay., Main Outcome Measures: Minimum inhibitory concentration analysis for susceptibility, graded tests for ocular toxicity/tolerability, colony-forming unit (CFU) analysis for bacterial burden, corneal cefiderocol concentrations., Results: One hundred percent of P. aeruginosa keratitis isolates were susceptible to cefiderocol (n = 135), the MIC 90 was 0.125 μg/ml including the XDR isolate (MIC = 0.125 μg/ml). Topical cefiderocol 50 mg/ml was minimally toxic to the ocular surface and was well tolerated. For the XDR P. aeruginosa isolate, topical cefiderocol 50 mg/ml, significantly decreased corneal CFU compared with ciprofloxacin 0.3%, tobramycin 14 mg/ml, and saline. In addition, tobramycin 14 mg/ml was more effective than the saline control. Mean cefiderocol corneal concentrations were 191× greater than the MIC 90 of the P. aeruginosa keratitis isolates. Refrigerated cefiderocol maintained antimicrobial activity over a 1-month period., Conclusions: These results demonstrate that cefiderocol is well tolerated on rabbit corneas and is effective against P. aeruginosa keratitis isolates in vitro and was effective in vivo against an XDR isolate in a rabbit keratitis model. Given the recent outbreak of keratitis caused by this XDR P. aeruginosa , cefiderocol is a promising additional antibiotic that should be further evaluated for topical treatment of keratitis caused by antibiotic resistant P. aeruginosa ., Financial Disclosures: Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article., (© 2023 by the American Academy of Ophthalmology.)

Published

2023

13. Association of Artificial Tears with Ocular and Systemic Infection: Carbapenem-resistant Pseudomonas aeruginosa (VIM-GES-CRPA) Outbreak.

Author

Velcani F, Kuo IC, Shanks RMQ, Chodosh J, Garg P, Amescua G, and Zegans ME

Subjects

Humans, Male, Female, Ophthalmic Solutions, Middle Aged, Anti-Bacterial Agents therapeutic use, Aged, Adult, beta-Lactam Resistance, Pseudomonas aeruginosa isolation & purification, Pseudomonas aeruginosa drug effects, Pseudomonas Infections microbiology, Pseudomonas Infections drug therapy, Pseudomonas Infections epidemiology, Carbapenems pharmacology, Carbapenems therapeutic use, Eye Infections, Bacterial microbiology, Eye Infections, Bacterial epidemiology, Eye Infections, Bacterial drug therapy, Disease Outbreaks

Published

2023

14. A rise in the frequency of lasR mutant Pseudomonas aeruginosa among keratitis isolates between 1993 and 2021.

Author

Shanks RMQ, Atta S, Stella NA, Sundar-Raj CV, Romanowski JE, Grewal AS, Shanks HQ, Mumper SM, Dhaliwal DK, Mammen A, Callaghan JD, Calvario RC, Romanowski EG, Kowalski RP, Zegans ME, and Jhanji V

Subjects

Humans, Retrospective Studies, Transcription Factors genetics, Endopeptidases, Bacterial Proteins genetics, Quorum Sensing genetics, Pseudomonas aeruginosa, Keratitis

Abstract

Introduction: Pseudomonas aeruginosa causes vision threatening keratitis. The LasR transcription factor regulates virulence factors in response to the quorum sensing molecule N-3-oxo-dodecanoyl-L-homoserine lactone. P. aeruginosa isolates with lasR mutations are characterized by an iridescent high sheen phenotype caused by a build-up of 2-heptyl-4-quinolone. A previous study demonstrated 22% (n=101) of P. aeruginosa keratitis isolates from India between 2010 and 2016 were sheen positive lasR mutants, and the sheen phenotype correlated with worse clinical outcomes for patients. In this study, a longitudinal collection of P. aeruginosa keratitis isolates from Eastern North America were screened for lasR mutations by the sheen phenotype and sequencing of the lasR gene., Methods: Keratitis isolates (n=399) were classified by sheen phenotype. The lasR gene was cloned from a subset of isolates, sequenced, and tested for loss of function or dominant-negative status based on an azocasein protease assay. A retrospective chart review compared outcomes of keratitis patients infected by sheen positive and negative isolates., Results: A significant increase in sheen positive isolates was observed between 1993 and 2021. Extracellular protease activity was reduced among the sheen positive isolates and a defined lasR mutant. Cloned lasR alleles from the sheen positive isolates were loss of function or dominant negative and differed in sequence from previously reported ocular lasR mutant alleles. Retrospective analysis of patient information suggested significantly better visual outcomes for patients infected by sheen positive isolates., Discussion: These results indicate an increase in lasR mutations among keratitis isolates in the United States and suggest that endemic lasR mutants can cause keratitis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Shanks, Atta, Stella, Sundar-Raj, Romanowski, Grewal, Shanks, Mumper, Dhaliwal, Mammen, Callaghan, Calvario, Romanowski, Kowalski, Zegans and Jhanji.)

Published

2023

15. Intra-ocular Predation of Fluoroquinolone-Resistant Pseudomonas aeruginosa and Serratia marcescens by Predatory Bacteria.

Author

Romanowski EG, Brothers KM, Calvario RC, Stella NA, Kim T, Elsayed M, Kadouri DE, and Shanks RMQ

Abstract

Endogenous endophthalmitis caused by Gram-negative bacteria is an intra-ocular infection that can rapidly progress to irreversible loss of vision. While most endophthalmitis isolates are susceptible to antibiotic therapy, the emergence of resistant bacteria necessitates alternative approaches to combat intraocular bacterial proliferation. In this study the ability of predatory bacteria to limit intraocular growth of Pseudomonas aeruginosa , Serratia marcescens , and Staphylococcus aureus was evaluated in a New Zealand White rabbit endophthalmitis prevention model. Predatory bacteria Bdellovibrio bacteriovorus and Micavibrio aeruginosavorus were able to reduce proliferation of keratitis isolates of P. aeruginosa and S. marcescens . However, it was not able to significantly reduce S. aureus, which is not a productive prey for these predatory bacteria, suggesting that the inhibitory effect on P. aeruginosa requires active predation rather than an antimicrobial immune response. Similarly, UV-inactivated B. bacteriovorus were unable to prevent proliferation of P. aeruginosa . Together, these data suggest in vivo predation of Gram-negative bacteria within the intra-ocular environment.

Published

2023

16. Rise in frequency of lasR mutant Pseudomonas aeruginosa among keratitis isolates between 1993 and 2021.

Author

Shanks RMQ, Atta S, Stella NA, Sundar-Raj CV, Romanowski JE, Grewel AS, Shanks HQ, Mumper SM, Dhaliwal DK, Mammen A, Callaghan JD, Calvario RC, Romanowski EG, Kowalski RP, Zegans ME, and Jhanji V

Abstract

Pseudomonas aeruginosa causes severe vision threatening keratitis. LasR is a transcription factor that regulates virulence associated genes in response to the quorum sensing molecule N-3-oxo-dodecanoyl-L-homoserine lactone. P. aeruginosa isolates with lasR mutations are characterized by an iridescent high sheen phenotype caused by a build-up of 2-heptyl-4-quinolone. A previous study indicated a high proportion (22 out of 101) of P. aeruginosa keratitis isolates from India between 2010 and 2016 were sheen positive and had mutations in the lasR gene, and the sheen phenotype correlated with worse clinical outcomes for patients. In this study, a longitudinal collection of P. aeruginosa keratitis isolates from Eastern North America were screened for lasR mutations by the sheen phenotype and sequencing of the lasR gene. A significant increase in the frequency of isolates with the sheen positive phenotype was observed in isolates between 1993 and 2021. Extracellular protease activity was lower among the sheen positive isolates and a defined lasR mutant. Cloned lasR alleles from the sheen positive isolates were loss of function or dominant negative and differed in sequence from previously reported ocular lasR mutant alleles. Insertion elements were present in a subset of independent isolates and may represent an endemic source from some of the isolates. Retrospective analysis of patient information suggested significantly better visual outcomes for patients with infected by sheen positive isolates. Together, these results indicate an increasing trend towards lasR mutations among keratitis isolates at a tertiary eye care hospital in the United States., Competing Interests: Conflict of Interest The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2023

17. Extending the use of biologics to mucous membranes by attachment of a binding domain.

Author

Shanks RMQ, Romanowski EG, Romanowski JE, Davoli K, McNamara NA, and Klarlund JK

Subjects

Humans, Mice, Animals, Eye, Tears metabolism, Mucous Membrane metabolism, Biological Products pharmacology, Biological Products metabolism, Dry Eye Syndromes drug therapy, Dry Eye Syndromes metabolism

Abstract

Biologics are almost exclusively administered systemically, but localized delivery is preferable as it minimizes off-target exposure and allows more aggressive treatments. Topical application of biologics to epithelia is generally ineffective because most are covered with fluids and biologics are washed out too quickly to have significant therapeutic effects. Here we explore the idea that attaching a binding domain can serve as an "anchor" to extend the residency time of biologics on wet epithelia, allowing their effective use even with infrequent applications. We use topical application to the ocular surface as a challenging test since foreign substances are washed out especially efficiently by tear flow and blinking. Our results demonstrate that conjugation of antibodies to wheat germ agglutinin, which binds GlcNAc and sialic acid that are ubiquitously present in tissues, increases their half-life 350-fold upon application to the ocular surface in a mouse model of dry eye, a common and onerous disease in humans. Importantly, antibodies to IL-17A, IL-23, and IL-1β conjugated to the agglutinin reduces manifestations of dry eye, even when applied just once daily. In contrast, unconjugated antibodies are ineffective. Attaching an anchor to biologics is a simple means to overcome washout and to extend their therapeutic use., (© 2023. The Author(s).)

Published

2023

18. Predatory bacteria can reduce Pseudomonas aeruginosa induced corneal perforation and proliferation in a rabbit keratitis model.

Author

Romanowski EG, Stella NA, Brazile BL, Lathrop KL, Franks JM, Sigal IA, Kim T, Elsayed M, Kadouri DE, and Shanks RMQ

Subjects

Animals, Rabbits, Pseudomonas aeruginosa, Cornea pathology, Bacteria, Cell Proliferation, Corneal Perforation, Pseudomonas Infections microbiology, Keratitis drug therapy, Eye Infections, Bacterial microbiology

Abstract

Purpose: Pseudomonas aeruginosa keratitis is a severe ocular infection that can lead to perforation of the cornea. In this study we evaluated the role of bacterial quorum sensing in generating corneal perforation and bacterial proliferation and tested whether co-injection of the predatory bacteria Bdellovibrio bacteriovorus could alter the clinical outcome. P. aeruginosa with lasR mutations were observed among keratitis isolates from a study collecting samples from India, so an isogenic lasR mutant strain of P. aeruginosa was included., Methods: Rabbit corneas were intracorneally infected with P. aeruginosa strain PA14 or an isogenic ΔlasR mutant and co-injected with PBS or B. bacteriovorus. After 24 h, eyes were evaluated for clinical signs of infection. Samples were analyzed by scanning electron microscopy, optical coherence tomography, sectioned for histology, and corneas were homogenized for CFU enumeration and for inflammatory cytokines., Results: We observed that 54% of corneas infected by wild-type PA14 presented with a corneal perforation (n = 24), whereas only 4% of PA14 infected corneas that were co-infected with B. bacteriovorus perforate (n = 25). Wild-type P. aeruginosa proliferation was reduced 7-fold in the predatory bacteria treated eyes. The ΔlasR mutant was less able to proliferate compared to the wild-type, but was largely unaffected by B. bacteriovorus., Conclusion: These studies indicate a role for bacterial quorum sensing in the ability of P. aeruginosa to proliferate and cause perforation of the rabbit cornea. Additionally, this study suggests that predatory bacteria can reduce the virulence of P. aeruginosa in an ocular prophylaxis model., Competing Interests: Declaration of competing interest The authors have no commercial interests regarding this study., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

19. The Short-chain Fatty Acid Propionic Acid Activates the Rcs Stress Response System Partially through Inhibition of d-Alanine Racemase.

Author

Harshaw NS, Meyer MD, Stella NA, Lehner KM, Kowalski RP, and Shanks RMQ

Subjects

Alanine metabolism, Anti-Bacterial Agents metabolism, Escherichia coli genetics, Escherichia coli metabolism, Gene Expression Regulation, Bacterial, Propionates pharmacology, Propionates metabolism, Alanine Racemase genetics, Alanine Racemase metabolism, Escherichia coli Proteins genetics

Abstract

The Enterobacterial Rcs stress response system reacts to envelope stresses through a complex two-component phosphorelay system to regulate a variety of environmental response genes, such as capsular polysaccharide and flagella biosynthesis genes. However, beyond Escherichia coli, the stresses that activate Rcs are not well-understood. In this study, we used a Rcs system-dependent luminescent transcriptional reporter to screen a library of over 240 antimicrobial compounds for those that activated the Rcs system in Serratia marcescens, a Yersiniaceae family bacterium. Using an isogenic rcsB mutant to establish specificity, both new and expected activators were identified, including the short-chain fatty acid propionic acid, which is found at millimolar levels in the human gut. Propionic acid did not reduce the bacterial intracellular pH, as was hypothesized for its antibacterial mechanism. Instead, data suggest that the Rcs-activation by propionic acid is due, in part, to an inactivation of alanine racemase. This enzyme is responsible for the biosynthesis of d-alanine, which is an amino-acid that is required for the generation of bacterial cell walls. Consistent with what was observed in S. marcescens, in E. coli, alanine racemase mutants demonstrated elevated expression of the Rcs-reporter in a d-alanine-dependent and RcsB-dependent manner. These results suggest that host gut short-chain fatty acids can influence bacterial behavior via the activation of the Rcs stress response system. IMPORTANCE The Rcs bacterial stress response system responds to envelope stresses by globally altering gene expression to profoundly impact host-pathogen interactions, virulence, and antibiotic tolerance. In this study, a luminescent Rcs-reporter plasmid was used to screen a library of compounds for activators of Rcs. Among the strongest inducers was the short-chain fatty acid propionic acid, which is found at high concentrations in the human gut. This study suggests that gut short-chain fatty acids can affect both bacterial virulence and antibiotic tolerance via the induction of the Rcs system.

Published

2023

20. Genetic Manipulation of Corynebacterium mastitidis to Better Understand the Ocular Microbiome.

Author

Rigas Y, Treat BR, Shane J, Shanks RMQ, and St Leger AJ

Subjects

Animals, Mice, Corynebacterium genetics, Vision, Ocular, Eye microbiology, Microbiota

Abstract

Purpose: Corynebacterium spp. are Gram-positive bacteria commonly associated with the ocular surface. Corynebacterium mastitidis was isolated from mouse eyes and was demonstrated to induce a beneficial immune response that can protect the eye from pathogenic infection. Because eye-relevant Corynebacterium spp. are not well described, we generated a C. mast transposon (Tn) mutant library to gain a better understanding of the nature of eye-colonizing bacteria., Methods: Tn mutagenesis was performed with a custom Tn5-based transposon that incorporated a promoterless gene for the fluorescent protein mCherry. We screened our library using flow cytometry and enzymatic assays to identify useful mutants that demonstrate the utility of our approach., Results: Fluorescence-activated cell sorting (FACS) of mCherry+ bacteria allowed us to identify a highly fluorescent mutant that was detectable on the murine ocular surface using microscopy. We also identified a functional knockout that was unable to hydrolyze urea, UreaseKO. Although uric acid is an antimicrobial factor produced in tears, UreaseKO bacterium maintained an ability to colonize the eye, suggesting that urea hydrolysis is not required for colonization. In vitro and in vivo, both mutants maintained the potential to stimulate protective immunity as compared to wild-type C. mast., Conclusions: In sum, we describe a method to genetically modify an eye-colonizing microbe, C. mast. Furthermore, the procedures outlined here will allow for the continued development of genetic tools for modifying ocular Corynebacterium spp., which will lead to a more complete understanding of the interactions between the microbiome and host immunity at the ocular surface.

Published

2023

21. IgaA Protein, GumB, Has a Global Impact on the Transcriptome and Surface Proteome of Serratia marcescens.

Author

Stella NA, Romanowski EG, Brothers KM, Calvario RC, and Shanks RMQ

Subjects

Transcriptome, Proteomics, Bacterial Proteins genetics, Bacterial Proteins metabolism, Serratia marcescens genetics, Proteome metabolism

Abstract

Bacterial stress response signaling systems, like the Rcs system are triggered by membrane and cell wall damaging compounds, including antibiotics and immune system factors. These regulatory systems help bacteria survive envelope stress by altering the transcriptome resulting in protective phenotypic changes that may also influence the virulence of the bacterium. This study investigated the role of the Rcs stress response system using a clinical keratitis isolate of Serratia marcescens with a mutation in the gumB gene. GumB, an IgaA ortholog, inhibits activation of the Rcs system, such that mutants have overactive Rcs signaling. Transcriptomic analysis indicated that approximately 15% of all S. marcescens genes were significantly altered with 2-fold or greater changes in expression in the Δ gumB mutant compared to the wild type, indicating a global transcriptional regulatory role for GumB. We further investigated the phenotypic consequences of two classes of genes with altered expression in the Δ gumB mutant expected to contribute to infections: serralysin metalloproteases PrtS, SlpB, and SlpE, and type I pili coded by fimABCD . Secreted fractions from the Δ gumB mutant had reduced cytotoxicity to a corneal cell line, and could be complemented by induced expression of prtS , but not cytolysin shlBA , phospholipase phlAB , or flagellar master regulator flhDC operons. Proteomic analysis, qRT-PCR, and type I pili-dependent yeast agglutination indicated an inhibitory role for the Rcs system in adhesin production. Together these data demonstrate GumB has a global impact on S. marcescens gene expression that had measurable effects on bacterial cytotoxicity and surface adhesin production.

Published

2022

22. Reactive silver inks for antiviral, repellent medical textiles with ultrasonic bleach washing durability compared to silver nanoparticles.

Author

Galante AJ, Pilsbury BC, Yates KA, LeMieux M, Bain DJ, Shanks RMQ, Romanowski EG, and Leu PW

Subjects

Antiviral Agents, Hypochlorous Acid, Ink, Silver pharmacology, Sodium Compounds, Textiles, Ultrasonics, Anti-Infective Agents, Metal Nanoparticles

Abstract

Medical textiles are subject to particularly harsh disinfection procedures in healthcare settings where exposure risks are high. This work demonstrates a fabric treatment consisting of a reactive silver ink and low surface energy PDMS polymer that provides for superhydrophobicity and antiviral properties against enveloped herpes simplex virus stocks even after extended ultrasonic bleach washing. The antiviral properties of reactive silver ink has not been previously reported or compared with silver nanoparticles. The fabric treatment exhibits high static contact angles and low contact angle hysteresis with water, even after 300 minutes of ultrasonic bleach washing. Similarly, after this bleach washing treatment, the fabric treatment shows reductions of infectious virus quantities by about 2 logs compared to controls for enveloped viruses. The use of silver ink provides for better antiviral efficacy and durability compared to silver nanoparticles due to the use of reactive ionic silver, which demonstrates more conformal coverage of fabric microfibers and better adhesion. This study provides insights for improving the wash durability of antiviral silver fabric treatments and demonstrates a bleach wash durable, repellent antiviral treatment for reusable, functional personal protective equipment applications., Competing Interests: The authors have declared that no competing interests exist.

Published

2022

23. Bacterial Keratitis: S imilar Bacterial and Clinical Outcomes in Female versus Male New Zealand White Rabbits Infected with Serratia marcescens .

Author

Romanowski EG, Yadav S, Stella NA, Yates KA, Romanowski JE, Dhaliwal DK, and Shanks RMQ

Subjects

Animals, Cornea pathology, Female, Male, Rabbits, Serratia marcescens, Eye Infections, Bacterial microbiology, Keratitis microbiology

Abstract

Purpose: Females and males respond differently to a number of systemic viral infections. Differences between females and males with respect to the severity of keratitis caused by Gram-negative bacteria such as Serratia marcescens are less well established., Methods: In this study, we injected female and male New Zealand White rabbit corneas with a keratitis isolate of S. marcescens and evaluated the eyes after 48 hours for a number of clinical and microbiological parameters., Results: No statistical differences in bacterial burden and corneal scores were recorded between female and male rabbits although there was a non-significant trend toward a higher frequency of female rabbits demonstrating hypopyons., Conclusions: This data suggests that for experimental bacterial keratitis studies involving Gram-negative rods, a single sex or mixed group of rabbit is sufficient for evaluating pathology and bacterial burdens. This will reduce the number of animals used for subsequent studies.

Published

2022

24. Antibiotics Used in Empiric Treatment of Ocular Infections Trigger the Bacterial Rcs Stress Response System Independent of Antibiotic Susceptibility.

Author

Harshaw NS, Stella NA, Lehner KM, Romanowski EG, Kowalski RP, and Shanks RMQ

Abstract

The Rcs phosphorelay is a bacterial stress response system that responds to envelope stresses and in turn controls several virulence-associated pathways, including capsule, flagella, and toxin biosynthesis, of numerous bacterial species. The Rcs system also affects antibiotic tolerance, biofilm formation, and horizontal gene transfer. The Rcs system of the ocular bacterial pathogen Serratia marcescens was recently demonstrated to influence ocular pathogenesis in a rabbit model of keratitis, with Rcs-defective mutants causing greater pathology and Rcs-activated strains demonstrating reduced inflammation. The Rcs system is activated by a variety of insults, including β-lactam antibiotics and polymyxin B. In this study, we developed three luminescence-based transcriptional reporters for Rcs system activity and used them to test whether antibiotics used for empiric treatment of ocular infections influence Rcs system activity in a keratitis isolate of S. marcescens . These included antibiotics to which the bacteria were susceptible and resistant. Results indicate that cefazolin, ceftazidime, polymyxin B, and vancomycin activate the Rcs system to varying degrees in an RcsB-dependent manner, whereas ciprofloxacin and tobramycin activated the promoter fusions, but in an Rcs-independent manner. Although minimum inhibitory concentration (MIC) analysis demonstrated resistance of the test bacteria to polymyxin B and vancomycin, the Rcs system was activated by sub-inhibitory concentrations of these antibiotics. Together, these data indicate that a bacterial stress system that influences numerous pathogenic phenotypes and drug-tolerance is influenced by different classes of antibiotics despite the susceptibility status of the bacterium.

Published

2021

25. The Rcs Stress Response System Regulator GumB Modulates Serratia marcescens-Induced Inflammation and Bacterial Proliferation in a Rabbit Keratitis Model and Cytotoxicity In Vitro .

Author

Romanowski EG, Stella NA, Romanowski JE, Yates KA, Dhaliwal DK, St Leger AJ, and Shanks RMQ

Subjects

Animals, Bacterial Proteins metabolism, Gene Expression Regulation, Bacterial, Host-Pathogen Interactions, Mutation, Rabbits, Virulence, Virulence Factors genetics, Bacterial Proteins genetics, Keratitis microbiology, Serratia Infections microbiology, Serratia marcescens physiology, Stress, Physiological genetics

Abstract

In this study, we tested the hypothesis that the conserved bacterial IgaA-family protein, GumB, mediates microbial pathogenesis associated with Serratia marcescens ocular infections through regulation of the Rcs stress response system. The role of the Rcs system and bacterial stress response systems for microbial keratitis is not known, and the role of IgaA proteins in mammalian pathogenesis models has only been tested with partial-function allele variants of Salmonella. Here, we observed that an Rcs-activated gumB mutant had a >50-fold reduction in proliferation compared to the wild type within rabbit corneas at 48 h and demonstrated a notable reduction in inflammation based on inflammatory signs, including the absence of hypopyons, and proinflammatory markers measured at the RNA and protein levels. The gumB mutant phenotypes could be complemented by wild-type gumB on a plasmid. We observed that bacteria with an inactivated Rcs stress response system induced high levels of ocular inflammation and restored corneal virulence to the gumB mutant. The high virulence of the Δ rcsB mutant was dependent upon the ShlA cytolysin transporter ShlB. Similar results were found for testing the cytotoxic effects of wild-type and mutant bacteria on a human corneal epithelial cell line in vitro . Together, these data indicate that GumB regulates virulence factor production through the Rcs system, and this overall stress response system is a key mediator of a bacterium's ability to induce vision-threatening keratitis.

Published

2021

26. Clearance of Gram-Negative Bacterial Pathogens from the Ocular Surface by Predatory Bacteria.

Author

Romanowski EG, Gupta S, Pericleous A, Kadouri DE, and Shanks RMQ

Abstract

It was previously demonstrated that predatory bacteria are able to efficiently eliminate Gram-negative pathogens including antibiotic-resistant and biofilm-associated bacteria. In this proof-of-concept study we evaluated whether two species of predatory bacteria, Bdellovibrio bacteriovorus and Micavibrio aeruginosavorus , were able to alter the survival of Gram-negative pathogens on the ocular surface. Clinical keratitis isolates of Pseudomonas aeruginosa (strain PAC) and Serratia marcescens (strain K904) were applied to the ocular surface of NZW rabbits followed by application of predatory bacteria. At time intervals, surviving pathogenic bacteria were enumerated. In addition, B. bacteriovorus and S. marcescens were applied to porcine organ culture corneas under contact lenses, and the ocular surface was examined by scanning electron microscopy. The ocular surface epithelial layer of porcine corneas exposed to S. marcescens , but not B. bacteriovorus was damaged. Using this model, neither pathogen could survive on the rabbit ocular surface for longer than 24 h. M. aeruginosavorus correlated with a more rapid clearance of P. aeruginosa but not S. marcescens from rabbit eyes. This study supports previous evidence that predatory bacteria are well tolerated by the cornea, but suggest that predatory bacteria do not considerably change the ability of the ocular surface to clear the tested Gram-negative bacterial pathogens from the ocular surface.

Published

2021

27. Transcription Factor EepR Is Required for Serratia marcescens Host Proinflammatory Response by Corneal Epithelial Cells.

Author

Brothers KM, Harvey SAK, and Shanks RMQ

Abstract

Relatively little is known about how the corneal epithelium responds to vision-threatening bacteria from the Enterobacterales order. This study investigates the impact of Serratia marcescens on corneal epithelial cell host responses. We also investigate the role of a bacterial transcription factor EepR, which is a positive regulator of S. marcescens secretion of cytotoxic proteases and a hemolytic surfactant. We treated transcriptomic and metabolomic analysis of human corneal limbal epithelial cells with wild-type bacterial secretomes. Our results show increased expression of proinflammatory and lipid signaling molecules, while this is greatly altered in eepR mutant-treated corneal cells. Together, these data support the model that the S. marcescens transcription factor EepR is a key regulator of host-pathogen interactions, and is necessary to induce proinflammatory chemokines, cytokines, and lipids.

Published

2021

28. Speciation and Antibiotic Susceptibilities of Coagulase Negative Staphylococci Isolated from Ocular Infections.

Author

Romanowski JE, Nayyar SV, Romanowski EG, Jhanji V, Shanks RMQ, and Kowalski RP

Abstract

Coagulase-negative staphylococci (CoNS) are frequently occurring ocular opportunistic pathogens that are not easily identifiable to the species level. The goal of this study was to speciate CoNS and document antibiotic susceptibilities from cases of endophthalmitis ( n = 50), keratitis ( n = 50), and conjunctivitis/blepharitis ( n = 50) for empiric therapy. All 150 isolates of CoNS were speciated using (1) API Staph (biochemical system), (2) Biolog GEN III Microplates (phenotypic substrate system), and (3) DNA sequencing of the sodA gene. Disk diffusion antibiotic susceptibilities for topical and intravitreal treatment were determined based on serum standards. CoNS identification to the species level by all three methods indicated that S. epidermidis was the predominant species of CoNS isolated from cases of endophthalmitis (84-90%), keratitis (80-86%), and conjunctivitis/blepharitis (62-68%). Identifications indicated different distributions of CoNS species among endophthalmitis (6), keratitis (10), and conjunctivitis/blepharitis (13). Antibiotic susceptibility profiles support empiric treatment of endophthalmitis with vancomycin, and keratitis treatment with cefazolin or vancomycin. There was no clear antibiotic choice for conjunctivitis/blepharitis. S. epidermidis was the most frequently found CoNS ocular pathogen, and infection by other CoNS appears to be less specific and random. Antibiotic resistance does not appear to be a serious problem associated with CoNS.

Published

2021

29. Topical Astodrimer Sodium, a Non-Toxic Polyanionic Dendrimer, Demonstrates Antiviral Activity in an Experimental Ocular Adenovirus Infection Model.

Author

Romanowski EG, Yates KA, Paull JRA, Heery GP, and Shanks RMQ

Subjects

A549 Cells, Adenoviruses, Human drug effects, Adenoviruses, Human physiology, Administration, Topical, Animals, Cidofovir pharmacology, Dendrimers pharmacology, Disease Models, Animal, Female, Humans, Polylysine pharmacology, Rabbits, Treatment Outcome, Viral Load drug effects, Adenoviridae Infections drug therapy, Cidofovir administration & dosage, Dendrimers administration & dosage, Eye Infections, Viral drug therapy, Polylysine administration & dosage

Abstract

There is no approved antiviral therapy for adenovirus (HAdV) ocular infections. Astodrimer sodium (SPL7013) is a polyanionic dendrimer with antiviral activity. The current study evaluated the ocular tolerability and anti-adenoviral efficacy of topical SPL7013 in rabbit ocular models. In a tolerability study, rabbits were treated with 3% SPL7013, vehicle, or 0.5% cidofovir. Their eyes were graded using the Draize scale. In antiviral efficacy studies, HAdV5 inoculated eyes were treated with 3% SPL7013, vehicle, or 0.5% cidofovir. Eyes were cultured for the virus on days 0, 1, 3, 4, 5, 7, 9, 11, and 14. Viral titers were determined. There were no differences in Draize scores between 3% SPL7013 and vehicle on any day. Cidofovir produced significantly higher Draize scores on day 12 than SPL7013 and vehicle. The 3% SPL7013 and 0.5% cidofovir significantly reduced daily viral titers and positive cultures per total compared with vehicle on several different days. The 3% SPL7013 and 0.5% cidofovir significantly reduced the duration of HAdV5 shedding compared to vehicle. The 3% SPL7013 demonstrated significantly more antiviral activity compared with vehicle in the Ad5/NZW rabbit ocular model. The 3% SPL7013 induced "minimal" to "practically non-irritating" Draize scores in the ocular tolerability study. Further development of astodrimer sodium as a topical antiviral therapy for adenoviral ocular infections is indicated.

Published

2021

30. Genomic and phenotypic diversity of Enterococcus faecalis isolated from endophthalmitis.

Author

Chilambi GS, Nordstrom HR, Evans DR, Kowalski RP, Dhaliwal DK, Jhanji V, Shanks RMQ, and Van Tyne D

Subjects

Aged, 80 and over, Anti-Bacterial Agents pharmacology, Drug Resistance, Bacterial genetics, Drug Resistance, Multiple, Bacterial drug effects, Endophthalmitis metabolism, Enterococcus genetics, Enterococcus faecalis isolation & purification, Female, Genomics methods, Gram-Positive Bacterial Infections microbiology, Humans, Male, Microbial Sensitivity Tests, Virulence Factors genetics, Endophthalmitis microbiology, Enterococcus faecalis genetics, Enterococcus faecalis metabolism

Abstract

Enterococcus faecalis are hospital-associated opportunistic pathogens and also causative agents of post-operative endophthalmitis. Patients with enterococcal endophthalmitis often have poor visual outcomes, despite appropriate antibiotic therapy. Here we investigated the genomic and phenotypic characteristics of E. faecalis isolates collected from 13 patients treated at the University of Pittsburgh Medical Center Eye Center over 19 years. Comparative genomic analysis indicated that patients were infected with E. faecalis belonging to diverse multi-locus sequence types (STs) and resembled E. faecalis sampled from clinical, commensal, and environmental sources. We identified known E. faecalis virulence factors and antibiotic resistance genes in each genome, including genes conferring resistance to aminoglycosides, erythromycin, and tetracyclines. We assessed all isolates for their cytolysin production, biofilm formation, and antibiotic susceptibility, and observed phenotypic differences between isolates. Fluoroquinolone and cephalosporin susceptibilities were particularly variable between isolates, as were biofilm formation and cytolysin production. In addition, we found evidence of E. faecalis adaptation during recurrent endophthalmitis by identifying genetic variants that arose in sequential isolates sampled over eight months from the same patient. We identified a mutation in the DNA mismatch repair gene mutS that was associated with an increased rate of spontaneous mutation in the final isolate from the patient. Overall this study documents the genomic and phenotypic variability among E. faecalis causing endophthalmitis, as well as possible adaptive mechanisms underlying bacterial persistence during recurrent ocular infection., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

31. Filociclovir Is an Active Antiviral Agent against Ocular Adenovirus Isolates In Vitro and in the Ad5/NZW Rabbit Ocular Model.

Author

Romanowski EG, Hussein ITM, Cardinale SC, Butler MM, Morin LR, Bowlin TL, Yates KA, Shanks RMQ, and Kowalski RP

Abstract

Presently, there is no FDA- or EMA-approved antiviral for the treatment of human adenovirus (HAdV) ocular infections. This study determined the antiviral activity of filociclovir (FCV) against ocular HAdV isolates in vitro and in the Ad5/NZW rabbit ocular model. The 50% effective concentrations (EC 50 ) of FCV and cidofovir (CDV) were determined for several ocular HAdV types using standard plaque reduction assays. Rabbits were topically inoculated in both eyes with HAdV5. On day 1, the rabbits were divided into four topical treatment groups: (1) 0.5% FCV 4x/day × 10 d; (2) 0.1% FCV 4x/day × 10 d; (3) 0.5% CDV 2x/day × 7 d; (4) vehicle 4x/day × 10 d. Eyes were cultured for virus on days 0, 1, 3, 4, 5, 7, 9, 11, and 14. The resulting viral eye titers were determined using standard plaque assays. The mean in vitro EC 50 for FCV against tested HAdV types ranged from 0.50 to 4.68 µM, whereas those treated with CDV ranged from 0.49 to 30.3 µM. In vivo, compared to vehicle, 0.5% FCV, 0.1% FCV, and 0.5% CDV produced lower eye titers, fewer numbers of positive eye cultures, and shorter durations of eye infection. FCV demonstrated anti-adenovirus activity in vitro and in vivo.

Published

2021

32. Differential susceptibility of airway and ocular surface cell lines to FlhDC-mediated virulence factors PhlA and ShlA from Serratia marcescens .

Author

Stella NA, Brothers KM, and Shanks RMQ

Subjects

A549 Cells, Animals, Bacterial Proteins genetics, Cell Line, Epithelial Cells pathology, Hemolysin Proteins genetics, Humans, Moths microbiology, Serratia marcescens genetics, Trans-Activators genetics, Trans-Activators metabolism, Transcription Factors genetics, Transcription Factors metabolism, Virulence Factors genetics, Bacterial Proteins metabolism, Bacterial Toxins metabolism, Flagella metabolism, Hemolysin Proteins metabolism, Phospholipases A metabolism, Serratia marcescens pathogenicity, Virulence Factors metabolism

Abstract

Introduction. Serratia marcescens is a bacterial pathogen that causes ventilator-associated pneumonia and ocular infections. The FlhD and FlhC proteins complex to form a heteromeric transcription factor whose regulon, in S. marcescens , regulates genes for the production of flagellum, phospholipase A and the cytolysin ShlA. The previously identified mutation, scrp-31 , resulted in highly elevated expression of the flhDC operon. The scrp-31 mutant was observed to be more cytotoxic to human airway and ocular surface epithelial cells than the wild-type bacteria and the present study sought to identify the mechanism underlying the increased cytotoxicity phenotype. Hypothesis/Gap Statement. Although FlhC and FlhD have been implicated as virulence determinants, the mechanisms by which these proteins regulate bacterial cytotoxicity to different cell types remains unclear. Aim. This study aimed to evaluate the mechanisms of FlhDC-mediated cytotoxicity to human epithelial cells by S. marcescens . Methodology. Wild-type and mutant bacteria and bacterial secretomes were used to challenge airway and ocular surface cell lines as evaluated by resazurin and calcein AM staining. Pathogenesis was further tested using a Galleria mellonella infection model. Results. The increased cytotoxicity of scrp-31 bacteria and secretomes to both cell lines was eliminated by mutation of flhD and shlA . Mutation of the flagellin gene had no impact on cytotoxicity under any tested condition. Elimination of the phospholipase gene, phlA , had no effect on bacteria-induced cytotoxicity to either cell line, but reduced cytotoxicity caused by secretomes to airway epithelial cells. Mutation of flhD and shlA , but not phlA , reduced bacterial killing of G. mellonella larvae. Conclusion. This study indicates that the S. marcescens FlhDC-regulated secreted proteins PhlA and ShlA, but not flagellin, are cytotoxic to airway and ocular surface cells and demonstrates differences in human epithelial cell susceptibility to PhlA.

Published

2021

33. mCloverBlaster: A tool to make markerless deletions and fusions using lambda red and I-SceI in Gram-negative bacterial genomes.

Author

Lehner KM, Stella NA, Calvario RC, and Shanks RMQ

Abstract

This study introduces mCloverBlaster as a genetic tool to create deletions and transcriptional and translational fusions in bacterial genomes using recombineering. The major advantage of this system is that it can be used to make deletions and fusions without leaving a selectable marker on the chromosome. mCloverBlaster has a kanamycin resistance cassette with an I-SceI restriction site flanked by fragments of the gene for the mClover3 fluorescent protein including direct repeats of mClover3 sequence on both sides of the kanamycin resistance gene. The mCloverBlaster sequence is introduced into the chromosome using lambda red recombineering, expression of I-SceI creates a double stranded break in the kanamycin resistance cassette that initiates a recombination event that can occur in the mClover3 repeats. This recombination results in the simultaneous removal of the kanamycin resistance gene and the restoration of a functional mClover3 gene that can be used as a reporter. Here, this system was used to replace the rcsB stress response gene in Serratia marcescens. The resulting strain was tested for mClover3 fluorescence as a reporter for rcsB gene expression and evaluated for pigment biosynthesis. In summary, mCloverBlaster is a molecular genetic tool to make markerless mClover3 fusions and gene deletions., Competing Interests: Declaration of Competing Interest The authors declare that they have no conflicts of interest with the contents of this article., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

34. The Prevalence of Bacteria, Fungi, Viruses, and Acanthamoeba From 3,004 Cases of Keratitis, Endophthalmitis, and Conjunctivitis.

Author

Kowalski RP, Nayyar SV, Romanowski EG, Shanks RMQ, Mammen A, Dhaliwal DK, and Jhanji V

Subjects

Anti-Bacterial Agents therapeutic use, Bacteria, Fungi, Humans, Prevalence, Retrospective Studies, Staphylococcus aureus, Acanthamoeba, Conjunctivitis drug therapy, Conjunctivitis epidemiology, Endophthalmitis drug therapy, Eye Infections, Bacterial drug therapy, Eye Infections, Bacterial epidemiology, Keratitis diagnosis, Keratitis drug therapy, Keratitis epidemiology, Viruses

Abstract

Purpose: The definitive identification of ocular pathogens optimizes effective treatment. Although the types of ocular pathogens are known; there is less definitive information on the prevalence of causative infections including viruses, fungi, and protozoa, which is the focus of this retrospective laboratory review., Methods: Data used for laboratory certification were reviewed for the detection of bacteria, viruses, fungi, and protozoa, from patients with infectious keratitis, endophthalmitis, and conjunctivitis. The main outcome parameter was laboratory-positive ocular infection., Results: The distribution of infectious agents for keratitis (n=1,387) (2004-2018) was bacteria 72.1% (Staphylococcus aureus 20.3%, Pseudomonas aeruginosa 18%, Streptococcus spp. 8.5%, other gram-positives 12.4%, and other gram-negatives 12.9%), Herpes simplex virus 16%, fungi 6.7%, and Acanthamoeba 5.2%. For endophthalmitis, (n=770) (1993-2018), the bacterial distribution was coagulase-negative Staphylococcus 54%, Streptococcus spp. 21%, S. aureus 10%, other gram-positives 8%, and gram-negatives 7%. The distribution for conjunctivitis (n=847) (2004-2018) was Adenovirus 34%, S. aureus 25.5%, Streptococcus pneumoniae 9%, Haemophilus 9%, other gram-negatives 8.8%, other gram-positives 6%, coagulase-negative Staphylococcus 4.5% and Chlamydia 3.2%., Conclusion: An updated monitoring of ocular pathogens creates an awareness of the different infectious etiologies and the importance of laboratory studies. This information can determine treatment needs for infectious ocular diseases.

Published

2020

35. Xylose-Inducible Promoter Tools for Pseudomonas Species and Their Use in Implicating a Role for the Type II Secretion System Protein XcpQ in the Inhibition of Corneal Epithelial Wound Closure.

Author

Callaghan JD, Stella NA, Lehner KM, Treat BR, Brothers KM, St Leger AJ, and Shanks RMQ

Subjects

Bacterial Proteins metabolism, Base Sequence, Epithelium, Corneal injuries, Membrane Proteins metabolism, Pseudomonas aeruginosa metabolism, Pseudomonas fluorescens metabolism, Sequence Analysis, DNA, Type II Secretion Systems metabolism, Bacterial Proteins genetics, Membrane Proteins genetics, Promoter Regions, Genetic, Pseudomonas aeruginosa genetics, Pseudomonas fluorescens genetics, Re-Epithelialization genetics, Type II Secretion Systems genetics, Xylose metabolism

Abstract

Tunable control of gene expression is an invaluable tool for biological experiments. In this study, we describe a new xylose-inducible promoter system and evaluate it in both Pseudomonas aeruginosa and Pseudomonas fluorescens The P xut promoter, derived from the P. fluorescens xut operon, was incorporated into a broad-host-range pBBR1-based plasmid and was compared to the Escherichia coli -derived P BAD promoter using gfp as a reporter. Green fluorescent protein (GFP) fluorescence from the P xut promoter was inducible in both Pseudomonas species, but not in E. coli , which may facilitate the cloning of genes toxic to E. coli to generate plasmids. The P xut promoter was activated at a lower inducer concentration than P BAD in P. fluorescens , and higher gfp levels were achieved using P xut Flow cytometry analysis indicated that P xut was leakier than P BAD in the Pseudomonas species tested but was expressed in a higher proportion of cells when induced. d-Xylose as a sole carbon source did not support the growth of P. aeruginosa or P. fluorescens and is less expensive than many other commonly used inducers, which could facilitate large-scale applications. The efficacy of this system was demonstrated by its use to reveal a role for the P. aeruginosa type II secretion system gene xcpQ in bacterial inhibition of corneal epithelial cell wound closure. This study introduces a new inducible promoter system for gene expression for use in Pseudomonas species. IMPORTANCE Pseudomonas species are enormously important in human infections, in biotechnology, and as model systems for investigating basic science questions. In this study, we have developed a xylose-inducible promoter system, evaluated it in P. aeruginosa and P. fluorescens , and found it to be suitable for the strong induction of gene expression. Furthermore, we have demonstrated its efficacy in controlled gene expression to show that a type II secretion system protein from P. aeruginosa , XcpQ, is important for host-pathogen interactions in a corneal wound closure model., (Copyright © 2020 American Society for Microbiology.)

Published

2020

36. Correction to Superhemophobic and Antivirofouling Coating for Mechanically Durable and Wash-Stable Medical Textiles.

Author

Galante AJ, Haghanifar S, Romanowski EG, Shanks RMQ, and Leu PW

Published

2020

37. Superhemophobic and Antivirofouling Coating for Mechanically Durable and Wash-Stable Medical Textiles.

Author

Galante AJ, Haghanifar S, Romanowski EG, Shanks RMQ, and Leu PW

Subjects

A549 Cells, Adenoviridae chemistry, Animals, Cattle, Humans, Hydrophobic and Hydrophilic Interactions, Polypropylenes chemistry, Polytetrafluoroethylene chemistry, Serum Albumin, Bovine chemistry, Wettability, Adenoviridae drug effects, Biofouling prevention & control, Coated Materials, Biocompatible chemistry, Nanoparticles chemistry, Serum Albumin, Bovine drug effects, Textiles virology

Abstract

Medical textiles have a need for repellency to body fluids such as blood, urine, or sweat that may contain infectious vectors that contaminate surfaces and spread to other individuals. Similarly, viral repellency has yet to be demonstrated and long-term mechanical durability is a major challenge. In this work, we demonstrate a simple, durable, and scalable coating on nonwoven polypropylene textile that is both superhemophobic and antivirofouling. The treatment consists of polytetrafluoroethylene (PTFE) nanoparticles in a solvent thermally sintered to polypropylene (PP) microfibers, which creates a robust, low-surface-energy, multilayer, and multilength scale rough surface. The treated textiles demonstrate a static contact angle of 158.3 ± 2.6° and hysteresis of 4.7 ± 1.7° for fetal bovine serum and reduce serum protein adhesion by 89.7 ± 7.3% (0.99 log). The coated textiles reduce the attachment of adenovirus type 4 and 7a virions by 99.2 ± 0.2% and 97.6 ± 0.1% (2.10 and 1.62 log), respectively, compared to noncoated controls. The treated textiles provide these repellencies by maintaining a Cassie-Baxter state of wetting where the surface area in contact with liquids is reduced by an estimated 350 times (2.54 log) compared to control textiles. Moreover, the treated textiles exhibit unprecedented mechanical durability, maintaining their liquid, protein, and viral repellency after extensive and harsh abrasion and washing. The multilayer, multilength scale roughness provides for mechanical durability through self-similarity, and the samples have high-pressure stability with a breakthrough pressure of about 255 kPa. These properties highlight the potential of durable, repellent coatings for medical gowning, scrubs, or other hygiene textile applications.

Published

2020

38. Biologically active pigment and ShlA cytolysin of Serratia marcescens induce autophagy in a human ocular surface cell line.

Author

Brothers KM, Stella NA, and Shanks RMQ

Subjects

Adenine analogs & derivatives, Adenine pharmacology, Bacterial Physiological Phenomena, Cell Line, Green Fluorescent Proteins, Humans, Keratitis microbiology, Microscopy, Confocal, Perforin, Serratia marcescens genetics, Serratia marcescens isolation & purification, Autophagy drug effects, Bacterial Proteins pharmacology, Epithelium, Corneal pathology, Hemolysin Proteins pharmacology, Limbus Corneae cytology, Prodigiosin pharmacology, Serratia marcescens pathogenicity

Abstract

Background: The cellular process of autophagy is essential for maintaining the health of ocular tissue. Dysregulation of autophagy is associated with several ocular diseases including keratoconus and macular degeneration. It is known that autophagy can be used to respond to microbial infections and that certain microbes can exploit the autophagic process to their benefit. In this study, a genetic approach was used to identify surface-associated and secreted products generated by the opportunistic pathogen Serratia marcescens involved in activation of autophagy., Methods: A recombinant human corneal limbal epithelial cell line expressing a LC3-GFP fusion protein was challenged with normalized secretomes from wild-type and mutant S. marcescens derivatives. LC3-GFP fluorescence patterns were used to assess the ability of wild-type and mutant bacteria to influence autophagy. Purified prodigiosin was obtained from stationary phase bacteria and used to challenge ocular cells., Results: Mutations in the global regulators eepR and gumB genes highly reduced the ability of the bacteria to activate autophagy in corneal cells. This effect was further narrowed down to the secreted cytolysin ShlA and the biologically active pigment prodigiosin. Purified prodigiosin and ShlA from Escherichia coli further supported the role of these factors in activating autophagy in human corneal cells. Additional genetic data indicate a role for flagellin and type I pili, but not the nuclease, S-layer protein, or serratamolide biosurfactant in activation of autophagy., Conclusions: This work identifies specific bacterial components that activate autophagy and give insight into potential host-pathogen interactions or compounds that can be used to therapeutically manipulate autophagy.

Published

2020

39. Production of prodigiosin pigment by Serratia marcescens is negatively associated with cellular ATP levels during high-rate, low-cell-density growth.

Author

Haddix PL and Shanks RMQ

Subjects

Phylogeny, Serratia marcescens genetics, Adenosine Triphosphate metabolism, Prodigiosin biosynthesis, Serratia marcescens growth & development, Serratia marcescens metabolism

Abstract

Serratia marcescens is a facultatively anaerobic bacterium and the most recognized producer of the hydrophobic pigment prodigiosin. Previous work has shown that prodigiosin both increases ATP production during population lag phase and approximately doubles the stationary-phase cell yield. Here, we employed both batch and chemostat culture methods to investigate prodigiosin's role during high rate growth at low cell density as peak cellular ATP levels decline. Batch culture experiments utilizing artificial pigment induction showed an ATP reduction during low cell density growth. In addition, pigment induction during fixed growth rate chemostat culture revealed a negative correlation between cellular levels of prodigiosin and ATP ( r = -0.95). Variable growth rate chemostat experiments showed an inverse relationship between ATP per cell and prodigiosin per cell during low-density growth but a direct relationship during high-density growth. Rate modeling of chemostat data quantified the pigment's effect on cellular levels of ATP for both population growth phases. Finally, prodigiosin production in a heterologous bacterium led to ATP decline. These data with intact cells complement the established in vitro proton import function of prodigiosin pigment and may indicate an energy-spilling function during high rate, low cell density growth.

Published

2020

40. Topical Vancomycin 5% Is More Efficacious Than 2.5% and 1.25% for Reducing Viable Methicillin-Resistant Staphylococcus aureus in Infectious Keratitis.

Author

Romanowski EG, Romanowski JE, Shanks RMQ, Yates KA, Mammen A, Dhaliwal DK, Jhanji V, and Kowalski RP

Subjects

Administration, Ophthalmic, Animals, Colony Count, Microbial, Corneal Ulcer microbiology, Eye Infections, Bacterial microbiology, Female, Microbial Sensitivity Tests, Rabbits, Staphylococcal Infections microbiology, Treatment Outcome, Anti-Bacterial Agents administration & dosage, Corneal Ulcer drug therapy, Eye Infections, Bacterial drug therapy, Methicillin-Resistant Staphylococcus aureus drug effects, Staphylococcal Infections drug therapy, Vancomycin administration & dosage

Abstract

Purpose: Topical vancomycin 5% (50 mg/mL) has been used for the treatment of methicillin-resistant Staphylococcus aureus (MRSA) keratitis, but patient comfort has many clinicians using lower concentrations. We compared the efficacy of different concentrations of vancomycin in the treatment of experimental MRSA keratitis., Methods: The corneas of 45 rabbits were infected with 2000 colony-forming units (CFUs) of MRSA. Corneal epithelium was abraded in the left eyes to mimic corneal ulceration. After 4 hours, the corneal CFUs were determined at the onset of treatment. The remaining rabbits were divided into 4 treatment groups (n = 9): 1) vancomycin 5%, 2) vancomycin 2.5%, 3) vancomycin 1.25%, and 4) saline. The rabbits were treated topically in both eyes every 15 minutes for 5 hours. One hour after treatment, the rabbits were clinically examined and euthanized, corneas were removed, and CFUs were determined to analyze vancomycin penetration, treatment efficacy, and bactericidal effect., Results: Ocular toxicity was concentration dependent from mild to moderate. For the abraded corneas, the CFUs of the vancomycin 5% group were lower than 2.5% and 1.25%, and all vancomycin groups were lower than saline. The CFUs of 2.5% were lower but similar to 1.25%. The vancomycin 5% group demonstrated a bactericidal effect and the best penetration. The CFUs of the abraded corneas treated with saline were lower than those of the intact corneas, indicating a possible antibacterial effect from the ocular surface., Conclusions: Vancomycin 5% was most potent for treating experimental MRSA keratitis. The clinician may need to reassess treatment regarding antibacterial efficacy and patient comfort.

Published

2020

41. The Toxin-Antitoxin MazEF Drives Staphylococcus aureus Biofilm Formation, Antibiotic Tolerance, and Chronic Infection.

Author

Ma D, Mandell JB, Donegan NP, Cheung AL, Ma W, Rothenberger S, Shanks RMQ, Richardson AR, and Urish KL

Subjects

Animals, Anti-Bacterial Agents pharmacology, Antitoxins genetics, Bacterial Proteins genetics, Bacterial Toxins genetics, Chronic Disease, Female, Humans, Male, Mice, Mice, Inbred C57BL, Staphylococcus aureus drug effects, Staphylococcus aureus genetics, Toxin-Antitoxin Systems, Antitoxins metabolism, Bacterial Proteins metabolism, Bacterial Toxins metabolism, Biofilms drug effects, Drug Resistance, Bacterial, Staphylococcal Infections microbiology, Staphylococcus aureus physiology

Abstract

Staphylococcus aureus is the major organism responsible for surgical implant infections. Antimicrobial treatment of these infections often fails, leading to expensive surgical intervention and increased risk of mortality to the patient. The challenge in treating these infections is associated with the high tolerance of S. aureus biofilm to antibiotics. MazEF, a toxin-antitoxin system, is thought to be an important regulator of this phenotype, but its physiological function in S. aureus is controversial. Here, we examined the role of MazEF in developing chronic infections by comparing growth and antibiotic tolerance phenotypes in three S. aureus strains to their corresponding strains with disruption of mazF expression. Strains lacking mazF production showed increased biofilm growth and decreased biofilm antibiotic tolerance. Deletion of icaADBC in the mazF ::Tn background suppressed the growth phenotype observed with mazF -disrupted strains, suggesting the phenotype was ica dependent. We confirmed these phenotypes in our murine animal model. Loss of mazF resulted in increased bacterial burden and decreased survival rate of mice compared to its wild-type strain demonstrating that loss of the mazF gene caused an increase in S. aureus virulence. Although lack of mazF gene expression increased S. aureus virulence, it was more susceptible to antibiotics in vivo Combined, the ability of mazF to inhibit biofilm formation and promote biofilm antibiotic tolerance plays a critical role in transitioning from an acute to chronic infection that is difficult to eradicate with antibiotics alone. IMPORTANCE Surgical infections are one of the most common types of infections encountered in a hospital. Staphylococcus aureus is the most common pathogen associated with this infection. These infections are resilient and difficult to eradicate, as the bacteria form biofilm, a community of bacteria held together by an extracellular matrix. Compared to bacteria that are planktonic, bacteria in a biofilm are more resistant to antibiotics. The mechanism behind how bacteria develop this resistance and establish a chronic infection is unknown. We demonstrate that mazEF , a toxin-antitoxin gene, inhibits biofilm formation and promotes biofilm antibiotic tolerance which allows S. aureus to transition from an acute to chronic infection that cannot be eradicated with antibiotics but is less virulent. This gene not only makes the bacteria more tolerant to antibiotics but makes the bacteria more tolerant to the host., (Copyright © 2019 Ma et al.)

Published

2019

42. Use of Collagen Binding Domains to Deliver Molecules to the Cornea.

Author

Klarlund JK, Callaghan JD, Stella NA, Kowalski RP, McNamara NA, and Shanks RMQ

Subjects

Animals, Binding Sites, Collagen metabolism, Cornea metabolism, Rabbits, Recombinant Fusion Proteins metabolism, Collagen chemistry, Cornea chemistry, Drug Delivery Systems, Recombinant Fusion Proteins chemistry

Abstract

Purpose : The combined activity of the tear film and blinking is remarkably efficient at removal of foreign materials from the ocular surface. This has prevented the use of certain classes of drugs for the treatment of ocular surface problems. We propose that the use of peptide and protein domains that bind to moieties on the cornea could be used to deliver therapeutics by anchoring the drugs on the ocular surface long enough to provide therapeutic effects. Methods: In this study, we evaluated 4 different collagen binding domains fused to bacterial β-galactosidase for delivery of a reporter protein to collagen I and collagen IV-coated plates, rabbit corneas, and Herpes simplex virus (HSV-1) infected mouse corneas. Results: All 4 domains bound to collagen I and IV in vitro , whereas only a 10 amino acid (AA) sequence from bovine von Willebrand factor (vWF) and a 215 AA collagen binding domain from the bacterial protein ColH efficiently bound to abraded rabbit corneas. To test binding to corneas in a clinically relevant model, we assessed binding of the vWF collagen binding peptide fusions to HSV-1 infected mouse corneas. We observed that the vWF derived peptide mediated attachment to infected corneas, whereas the reporter protein without a collagen binding domain did not bind. Conclusions: Moving forward, the vWF collagen binding peptide could be used as an anchor to deliver therapeutics to prevent scarring and vision loss from damaged corneal surfaces due to disease and inflammation.

Published

2019

43. Blowing epithelial cell bubbles with GumB: ShlA-family pore-forming toxins induce blebbing and rapid cellular death in corneal epithelial cells.

Author

Brothers KM, Callaghan JD, Stella NA, Bachinsky JM, AlHigaylan M, Lehner KL, Franks JM, Lathrop KL, Collins E, Schmitt DM, Horzempa J, and Shanks RMQ

Subjects

Animals, Bacterial Toxins genetics, Cell Death, Epithelial Cells microbiology, Epithelial Cells pathology, Epithelium, Corneal microbiology, Epithelium, Corneal pathology, Humans, Mice, Perforin genetics, Perforin metabolism, Proteus genetics, Proteus Infections genetics, Proteus Infections microbiology, Proteus Infections pathology, RAW 264.7 Cells, Serratia Infections genetics, Serratia Infections microbiology, Serratia Infections pathology, Serratia marcescens genetics, Swine, Type V Secretion Systems genetics, Type V Secretion Systems metabolism, Bacterial Toxins metabolism, Epithelial Cells metabolism, Epithelium, Corneal metabolism, Proteus metabolism, Proteus Infections metabolism, Serratia Infections metabolism, Serratia marcescens metabolism

Abstract

Medical devices, such as contact lenses, bring bacteria in direct contact with human cells. Consequences of these host-pathogen interactions include the alteration of mammalian cell surface architecture and induction of cellular death that renders tissues more susceptible to infection. Gram-negative bacteria known to induce cellular blebbing by mammalian cells, Pseudomonas and Vibrio species, do so through a type III secretion system-dependent mechanism. This study demonstrates that a subset of bacteria from the Enterobacteriaceae bacterial family induce cellular death and membrane blebs in a variety of cell types via a type V secretion-system dependent mechanism. Here, we report that ShlA-family cytolysins from Proteus mirabilis and Serratia marcescens were required to induce membrane blebbling and cell death. Blebbing and cellular death were blocked by an antioxidant and RIP-1 and MLKL inhibitors, implicating necroptosis in the observed phenotypes. Additional genetic studies determined that an IgaA family stress-response protein, GumB, was necessary to induce blebs. Data supported a model where GumB and shlBA are in a regulatory circuit through the Rcs stress response phosphorelay system required for bleb formation and pathogenesis in an invertebrate model of infection and proliferation in a phagocytic cell line. This study introduces GumB as a regulator of S. marcescens host-pathogen interactions and demonstrates a common type V secretion system-dependent mechanism by which bacteria elicit surface morphological changes on mammalian cells. This type V secretion-system mechanism likely contributes bacterial damage to the corneal epithelial layer, and enables access to deeper parts of the tissue that are more susceptible to infection., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

44. High-Throughput Analysis of Gene Function in the Bacterial Predator Bdellovibrio bacteriovorus.

Author

Duncan MC, Gillette RK, Maglasang MA, Corn EA, Tai AK, Lazinski DW, Shanks RMQ, Kadouri DE, and Camilli A

Subjects

Biofilms, Escherichia coli virology, Gene Knockout Techniques, High-Throughput Nucleotide Sequencing, Mutation, Vibrio cholerae virology, Bdellovibrio bacteriovorus genetics, Bdellovibrio bacteriovorus growth & development, DNA Transposable Elements, Genes, Viral

Abstract

Bdellovibrio bacteriovorus is a bacterial predator capable of killing and replicating inside most Gram-negative bacteria, including antibiotic-resistant pathogens. Despite growing interest in this organism as a potential therapeutic, many of its genes remain uncharacterized. Here, we perform a high-throughput genetic screen with B. bacteriovorus using transposon sequencing (Tn-seq) to explore the genetic requirements of predation. Two hundred one genes were deemed essential for growth in the absence of prey, whereas over 100 genes were found to be specifically required for predative growth on the human pathogens Vibrio cholerae and Escherichia coli in both planktonic and biofilm states. To further this work, we created an ordered-knockout library in B. bacteriovorus and developed new high-throughput techniques to characterize the mutants by their stage of deficiency in the predator life cycle. Using microscopy and flow cytometry, we confirmed 10 mutants defective in prey attachment and eight mutants defective in prey rounding. The majority of these genes are hypothetical and previously uncharacterized. Finally, we propose new nomenclature to group B. bacteriovorus mutants into classes based on their stage of predation defect. These results contribute to our basic understanding of bacterial predation and may be useful for harnessing B. bacteriovorus to kill harmful pathogens in the clinical setting. IMPORTANCE Bdellovibrio bacteriovorus is a predatory bacterium that can kill a wide range of Gram-negative bacteria, including many human pathogens. Given the global rise of antibiotic resistance and dearth of new antibiotics discovered in the past 30 years, this predator has potential as an alternative to traditional antibiotics. For many years, B. bacteriovorus research was hampered by a lack of genetic tools, and the genetic mechanisms of predation have only recently begun to be established. Here, we comprehensively identify and characterize predator genes required for killing bacterial prey, as well as genes that interfere in this process, which may allow us to design better therapeutic predators. Based on our study, we and other researchers may ultimately be able to genetically engineer strains that have improved killing rates, target specific species of prey, or preferentially target prey in the planktonic or biofilm state., (Copyright © 2019 Duncan et al.)

Published

2019

45. Moraxella nonliquefaciens and M. osloensis Are Important Moraxella Species That Cause Ocular Infections.

Author

LaCroce SJ, Wilson MN, Romanowski JE, Newman JD, Jhanji V, Shanks RMQ, and Kowalski RP

Abstract

Moraxella is an ocular bacterial pathogen isolated in cases of keratitis, conjunctivitis, and endophthalmitis. Gram-negative brick-shaped diplobacilli from ocular specimens, and slow growth in culture, are early indications of Moraxella ocular infection; however, identifying Moraxella to species can be complex and inconsistent. In this study, bacteria consistent with Moraxella were identified to species using: (1) DNA sequencing coupled with vancomycin susceptibility, (2) MALDI-TOF mass spectrometry, and (3) the Biolog ID system. Study samples consisted of nine ATCC Moraxella controls, 82 isolates from keratitis, 21 isolates from conjunctivitis, and 4 isolates from endophthalmitis. The ATCC controls were correctly identified. For keratitis, 66 (80.5%) were identified as M. nonliquefaciens , 7 (9.0%) as M. lacunata , 5 (6%) as M. osloensis , 2 (2.5%) as Acinetobacter lwoffii , 1 (1.0%) as M. bovis/nonliquefaciens , and 1 (1.0%) as M. osloensis/nonliquefaciens . For conjunctivitis, 9 (43.0%) were identified as M. osloensis , 6 (29.0%) as M. nonliquefaciens , 3 (14.3%) as Roseomonas , 2 (9.5%) as Acinetobacter ( parvus, junii ), and 1 (4.5%) as M. catarrhalis/nonliquefaciens . From endophthalmitis, 3 of 4 of the isolates were M. nonliquefaciens . Overall, M . nonliquefaciens and M. osloensis were identified in 70% (75 of 107) and 13% (14 of 107) of cases, respectively, totaling 83% (89 of 107). M. nonliquefaciens and M. osloensis are important bacterial pathogens of the eye as determined by DNA sequencing, MALDI-TOF MS, and Biolog. Although Moraxella catarrhalis is a clinical pathogen, other species of Moraxella appear to have a prominent role in eye infections.

Published

2019

46. Benzalkonium Chloride Demonstrates Concentration-Dependent Antiviral Activity Against Adenovirus In Vitro .

Author

Romanowski EG, Yates KA, Shanks RMQ, and Kowalski RP

Subjects

A549 Cells, Dose-Response Relationship, Drug, Humans, Microbial Sensitivity Tests, Adenoviridae drug effects, Antiviral Agents pharmacology, Benzalkonium Compounds pharmacology

Abstract

Purpose: Adenoviral conjunctivitis is the most common cause of conjunctivitis worldwide with no approved antiviral treatment. Benzalkonium chloride (BAK) is a common preservative in ophthalmic medications and is the active ingredient in some skin disinfectants and hand sanitizers. BAK is known to be effective in killing bacteria and enveloped viruses; however, its activity against ocular types of nonenveloped adenoviruses (Ads) is unknown. The goal was to determine whether BAK is an effective antiviral agent against common human ocular types of adenovirus in vitro . Methods: The direct inactivating activity of BAK was determined by incubating several human adenovirus types with BAK concentrations of 0.001%, 0.003%, 0.005%, 0.01%, 0.1%, and 0% for 1 h at 33°C. Resulting adenovirus titers were determined after treatment. Decreases in titers of ≥3 Log 10 were considered virucidal, while decreases in titers of <1 Log 10 were considered ineffective. Results: BAK 0.1% was virucidal for Ad3, Ad5, Ad7a, Ad19/64, and Ad37, while it reduced titers >1 Log 10 , but <3 Log 10 for Ad4 and Ad8. Decreases in titers >1 Log 10 were demonstrated for BAK 0.003%, 0.005%, and 0.01% for Ad5 only. Decreases in titers for the other adenovirus types for those concentrations were ≤0.53 Log 10 . 0.001% BAK produced minimal decreases in titers for all types. Conclusions: BAK, at 0.01% or less was not consistently effective as an antiviral against adenovirus, but higher concentrations, such as 0.1%, should be further investigated as a possible topical treatment for adenoviral ocular infections, providing ocular toxicity is not an issue.

Published

2019

47. Endophthalmitis after intravitreal triamcinolone-moxifloxacin.

Author

Dhaliwal DK, Jhanji V, Kowalski RP, Mammen A, Romanowski EG, and Shanks RMQ

Subjects

Humans, Moxifloxacin, Triamcinolone Acetonide, Cataract, Endophthalmitis

Published

2019

48. The In Vitro Evaluation of Povidone-Iodine Against Multiple Ocular Adenoviral Types.

Author

Yates KA, Shanks RMQ, Kowalski RP, and Romanowski EG

Subjects

A549 Cells, Dose-Response Relationship, Drug, Humans, Microbial Sensitivity Tests, Structure-Activity Relationship, Adenoviridae drug effects, Adenoviridae Infections drug therapy, Antiviral Agents pharmacology, Eye Infections, Viral drug therapy, Povidone-Iodine pharmacology

Abstract

Purpose: Povidone-iodine (P-I) is being touted as a topical antiviral treatment for eye infections caused by adenovirus (Ad). This study evaluated the in vitro antiviral activity of the several P-I concentrations previously used in clinical studies against multiple ocular Ad types commonly associated with eye infections., Methods: The antiviral activity of four concentrations of P-I was compared to vehicle for seven types of Ad after incubating the P-I with Ad at 33°C for various lengths of time. Following incubation and neutralization of the P-I with sodium thiosulfate, viral titers were determined for each Ad type and time point., Results: Virucidal (99.9%, ≥3-Log 10 ) reductions in titers were produced for 5%, 2%, and 0.4% P-I at 1 min for types Ad5 and Ad7a. Similar reductions were produced at 5 min for types Ad3, Ad4, and Ad8. For type Ad19/64, virucidal reductions took 60 min for 5% P-I and 15 min for 2% and 0.4%. For type Ad37, 60 min (5%), 15 min (2%), and 5 min (0.4%) were required to produce virucidal reductions. There were no virucidal reductions in titers produced by 0.001% P-I., Conclusions: P-I produced greater than 3-Log 10 reductions of titers at 1-5 min for most of the ocular types tested (types Ad3, Ad4, Ad5, Ad7a, and Ad8). However, it took longer (15-60 min) for these reductions to be produced for types Ad19/64 and Ad37. The antiviral activity of P-I may be Ad type dependent.

Published

2019

49. Platelets inhibit apoptotic lung epithelial cell death and protect mice against infection-induced lung injury.

Author

Bain W, Olonisakin T, Yu M, Qu Y, Hulver M, Xiong Z, Li H, Pilewski J, Mallampalli RK, Nouraie M, Ray A, Ray P, Cheng Z, Shanks RMQ, St Croix C, Silverstein RL, and Lee JS

Subjects

Animals, Apoptosis, Blood Platelets cytology, Cell Death, Epithelial Cells, Lung Injury blood, Mice, Blood Platelets metabolism, Lung Injury etiology, Thrombocytopenia complications

Abstract

Thrombocytopenia is associated with worse outcomes in patients with acute respiratory distress syndrome, which is most commonly caused by infection and marked by alveolar-capillary barrier disruption. However, the mechanisms by which platelets protect the lung alveolar-capillary barrier during infectious injury remain unclear. We found that natively thrombocytopenic Mpl -/- mice deficient in the thrombopoietin receptor sustain severe lung injury marked by alveolar barrier disruption and hemorrhagic pneumonia with early mortality following acute intrapulmonary Pseudomonas aeruginosa (PA) infection; barrier disruption was attenuated by platelet reconstitution. Although PA infection was associated with a brisk neutrophil influx, depletion of airspace neutrophils failed to substantially mitigate PA-triggered alveolar barrier disruption in Mpl -/- mice. Rather, PA cell-free supernatant was sufficient to induce lung epithelial cell apoptosis in vitro and in vivo and alveolar barrier disruption in both platelet-depleted mice and Mpl -/- mice in vivo. Cell-free supernatant from PA with genetic deletion of the type 2 secretion system, but not the type 3 secretion system, mitigated lung epithelial cell death in vitro and lung injury in Mpl -/- mice. Moreover, platelet releasates reduced poly (ADP ribose) polymerase cleavage and lung injury in Mpl -/- mice, and boiling of platelet releasates, but not apyrase treatment, abrogated PA supernatant-induced lung epithelial cell cytotoxicity in vitro. These findings indicate that while neutrophil airspace influx does not potentiate infectious lung injury in the thrombocytopenic host, platelets and their factors protect against severe pulmonary complications from pathogen-secreted virulence factors that promote host cell death even in the absence of overt infection., (© 2019 by The American Society of Hematology.)

Published

2019

50. Thermoregulation of Prodigiosin Biosynthesis by Serratia marcescens is Controlled at the Transcriptional Level and Requires HexS.

Author

Romanowski EG, Lehner KM, Martin NC, Patel KR, Callaghan JD, Stella NA, and Shanks RMQ

Subjects

Acyltransferases genetics, Bacterial Proteins biosynthesis, Bacterial Proteins genetics, Hot Temperature, Oxidoreductases genetics, Transcriptional Activation genetics, Gene Expression Regulation, Bacterial genetics, Prodigiosin biosynthesis, Serratia marcescens genetics, Serratia marcescens metabolism, Transcription Factors genetics, Transcription, Genetic genetics

Abstract

Several biotypes of the Gram-negative bacterium Serratia marcescens produce the tri-pyrole pigment and secondary metabolite prodigiosin. The biological activities of this pigment have therapeutic potential. For over half a century it has been known that biosynthesis of prodi giosin is inhibited when bacteria are grown at elevated temperatures, yet the fundamental mechanism underlying this thermoregulation has not been characterized. In this study, chromosomal and plasmid-borne luxCDABE transcriptional reporters revealed reduced transcription of the prodigiosin biosynthetic operon at 37°C compared to 30°C indicating transcriptional control of pigment production. Moreover, induced expression of the prodigiosin biosynthetic operon at 37°C was able to produce pigmented colonies and cultures demonstrating that physiological conditions at 37°C allow prodigiosin production and indicating that post-transcriptional control is not a major contributor to the thermoregulation of prodigiosin pigmentation. Genetic experiments support the model that the HexS transcription factor is a key contributor to thermoregulation of pigmentation, whereas CRP plays a minor role, and a clear role for EepR and PigP was not observed. Together, these data indicate that thermoregulation of prodigiosin production at elevated temperatures is controlled largely, if not exclusively, at the transcriptional level., Several biotypes of the Gram-negative bacterium Serratia marcescens produce the tri-pyrole pigment and secondary metabolite prodigiosin. The biological activities of this pigment have therapeutic potential. For over half a century it has been known that biosynthesis of prodi giosin is inhibited when bacteria are grown at elevated temperatures, yet the fundamental mechanism underlying this thermoregulation has not been characterized. In this study, chromosomal and plasmid-borne luxCDABE transcriptional reporters revealed reduced transcription of the prodigiosin biosynthetic operon at 37°C compared to 30°C indicating transcriptional control of pigment production. Moreover, induced expression of the prodigiosin biosynthetic operon at 37°C was able to produce pigmented colonies and cultures demonstrating that physiological conditions at 37°C allow prodigiosin production and indicating that post-transcriptional control is not a major contributor to the thermoregulation of prodigiosin pigmentation. Genetic experiments support the model that the HexS transcription factor is a key contributor to thermoregulation of pigmentation, whereas CRP plays a minor role, and a clear role for EepR and PigP was not observed. Together, these data indicate that thermoregulation of prodigiosin production at elevated temperatures is controlled largely, if not exclusively, at the transcriptional level.

Published

2019