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1. Discovery of Two Inhibitors of the Type IV Pilus Assembly ATPase PilB as Potential Antivirulence Compounds

   https://doi.org/10.1128/spectrum.03877-22  

   Dye, Keane J. ; Vogelaar, Nancy J. ; O’Hara, Megan ; Sobrado, Pablo ; Santos, Webster ; Carlier, Paul R. ; Yang, Zhaomin ; Lostroh, Phoebe ( December 2022 , Microbiology Spectrum)

   Visca, Paolo (Ed.)

   ABSTRACT With the pressing antibiotic resistance pandemic, antivirulence has been increasingly explored as an alternative strategy against bacterial infections. The bacterial type IV pilus (T4P) is a well-documented virulence factor and an attractive target for small molecules for antivirulence purposes. The PilB ATPase is essential for T4P biogenesis because it catalyzes the assembly of monomeric pilins into the polymeric pilus filament. Here, we describe the identification of two PilB inhibitors by a high-throughput screen (HTS) in vitro and their validation as effective inhibitors of T4P assembly in vivo . We used Chloracidobacterium thermophilum PilB as a model enzyme to optimize an ATPase assay for the HTS. From a library of 2,320 compounds, benserazide and levodopa, two approved drugs for Parkinson’s disease, were identified and confirmed biochemically to be PilB inhibitors. We demonstrate that both compounds inhibited the T4P-dependent motility of the bacteria Myxoccocus xanthus and Acinetobacter nosocomialis . Additionally, benserazide and levodopa were shown to inhibit A. nosocomialis biofilm formation, a T4P-dependent process. Using M. xanthus as a model, we showed that both compounds inhibited T4P assembly in a dose-dependent manner. These results suggest that these two compounds are effective against the PilB protein in vivo. The potency of benserazide and levodopa as PilB inhibitors both in vitro and in vivo demonstrate potentials of the HTS and its two hits here for the development of anti-T4P chemotherapeutics. IMPORTANCE Many bacterial pathogens use their type IV pilus (T4P) to facilitate and maintain an infection in a human host. Small-molecule inhibitors of the production or assembly of the T4P are promising for the treatment and prevention of infections by these bacteria, especially in our fight against antibiotic-resistant pathogens. Here, we report the development and implementation of a method to identify anti-T4P chemicals from compound libraries by high-throughput screen. This led to the identification and validation of two T4P inhibitors both in the test tubes and in bacteria. The discovery and validation pipeline reported here as well as the confirmation of two anti-T4P inhibitors provide new venues and leads for the development of chemotherapeutics against antibiotic-resistant infections. 

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2. High-Throughput Screen for Inhibitors of the Type IV Pilus Assembly ATPase PilB

   https://doi.org/10.1128/mSphere.00129-21  

   Dye, Keane J. ; Vogelaar, Nancy J. ; Sobrado, Pablo ; Yang, Zhaomin ( April 2021 , mSphere)

   Dunman, Paul (Ed.)

   ABSTRACT The bacterial type IV pilus (T4P) is a prominent virulence factor in many significant human pathogens, some of which have become increasingly antibiotic resistant. Antivirulence chemotherapeutics are considered a promising alternative to antibiotics because they target the disease process instead of bacterial viability. However, a roadblock to the discovery of anti-T4P compounds is the lack of a high-throughput screen (HTS) that can be implemented relatively easily and economically. Here, we describe the first HTS for the identification of inhibitors specifically against the T4P assembly ATPase PilB in vitro . Chloracidobacterium thermophilum PilB ( Ct PilB) had been demonstrated to have robust ATPase activity and the ability to bind its expected ligands in vitro. We utilized Ct PilB and MANT-ATP, a fluorescent ATP analog, to develop a binding assay and adapted it for an HTS. As a proof of principle, we performed a pilot screen with a small compound library of kinase inhibitors and identified quercetin as a PilB inhibitor in vitro . Using Myxococcus xanthus as a model bacterium, we found quercetin to reduce its T4P-dependent motility and T4P assembly in vivo. These results validated our HTS as effective in identifying PilB inhibitors. This assay may prove valuable in seeking leads for the development of antivirulence chemotherapeutics against PilB, an essential and universal component of all bacterial T4P systems. IMPORTANCE Many bacterial pathogens use their type IV pili (T4P) to facilitate and maintain infection of a human host. Small chemical compounds that inhibit the production or assembly of T4P hold promise in the treatment and prevention of infections, especially in the era of increasing threats from antibiotic-resistant bacteria. However, few chemicals are known to have inhibitory or anti-T4P activity. Their identification has not been easy due to the lack of a method for the screening of compound collections or libraries on a large scale. Here, we report the development of an assay that can be scaled up to screen compound libraries for inhibitors of a critical T4P assembly protein. We further demonstrate that it is feasible to use whole cells to examine potential inhibitors for their activity against T4P assembly in a bacterium. 

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3. Cyclic-di-GMP and ADP bind to separate domains of PilB as mutual allosteric effectors

   https://doi.org/10.1042/BCJ20190809  

   Dye, Keane J. ; Yang, Zhaomin ( January 2020 , Biochemical Journal)

   PilB is the assembly ATPase for the bacterial type IV pilus (T4P), and as a consequence, it is essential for T4P-mediated bacterial motility. In some cases, PilB has been demonstrated to regulate the production of exopolysaccharide (EPS) during bacterial biofilm development independently of or in addition to its function in pilus assembly. While the ATPase activity of PilB resides at its C-terminal region, the N terminus of a subset of PilBs forms a novel cyclic-di-GMP (cdG)-binding domain. This multi-domain structure suggests that PilB binds cdG and adenine nucleotides through separate domains which may influence the functionality of PilB in both motility and biofilm development. Here, Chloracidobacterium thermophilum PilB is used to investigate ligand binding by its separate domains and by the full-length protein. Our results confirm the specificity of these individual domains for their respective ligands and demonstrate communications between these domains in the full-length protein. It is clear that when the N- and the C-terminal domains of PilB bind to cdG and ADP, respectively, they mutually influence each other in conformation and in their binding to ligands. We propose that the interactions between these domains in response to their ligands play critical roles in modulating or controlling the functions of PilB as a regulator of EPS production and as the T4P assembly ATPase. 

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4. Analysis of Myxococcus xanthus Vegetative Biofilms With Microtiter Plates

   https://doi.org/10.3389/fmicb.2022.894562  

   Dye, Keane J. ; Yang, Zhaomin ( April 2022 , Frontiers in Microbiology)

   The bacterium Myxococcus xanthus forms both developmental and vegetative types of biofilms. While the former has been studied on both agar plates and submerged surfaces, the latter has been investigated predominantly on agar surfaces as swarming colonies. Here we describe the development of a microplate-based assay for the submerged biofilms of M. xanthus under vegetative conditions. We examined the impacts of inoculation, aeration, and temperature to optimize the conditions for the assay. Aeration was observed to be critical for the effective development of submerged biofilms by M. xanthus , an obligate aerobic bacterium. In addition, temperature plays an important role in the development of M. xanthus submerged biofilms. It is well established that the formation of submerged biofilms by many bacteria requires both exopolysaccharide (EPS) and the type IV pilus (T4P). EPS constitutes part of the biofilm matrix that maintains and organizes bacterial biofilms while the T4P facilitates surface attachment as adhesins. For validation, we used our biofilm assay to examine a multitude of M. xanthus strains with various EPS and T4P phenotypes. The results indicate that the levels of EPS, but not of piliation, positively correlate with submerged biofilm formation in M. xanthus . 

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5. Sustained Release of a Synthetic Autoinducing Peptide Mimetic Blocks Bacterial Communication and Virulence In Vivo .

   https://doi.org/10.1002/ange.202201798  

   West, Korbin H. J. ; Gahan, Curran G. ; Kierski, Patricia R. ; Calderon, Diego F. ; Zhao, Ke ; Czuprynski, Charles J. ; McAnulty, Jonathan F. ; Lynn, David M. ; Blackwell, Helen E. ( April 2022 , Angewandte Chemie)

   There is significant interest in approaches to the treatment of bacterial infections that block virulence without creating selective pressures that lead to resistance. Here, we report the development of an “anti‐virulence” strategy that exploits the activity of potent synthetic inhibitors of quorum sensing (QS) inStaphylococcus aureus. We identify peptide‐based inhibitors of QS that are resistant to sequestration or degradation by components of murine tissue and demonstrate that encapsulation of a lead inhibitor in degradable polymer microparticles provides materials that substantially inhibit QSin vitro. Using a murine abscess model, we show that this inhibitor attenuates methicillin‐resistantS. aureus(MRSA) skin infectionsin vivo, and that sustained release of the inhibitor from microparticles significantly improved outcomes compared to mice that received a single‐dose bolus. Our results present an effective and modular approach to controlling bacterial virulencein vivoand could advance the development of new strategies for skin infection control.

    

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