Anusri Bhattacharya scite author profile

The assembly of FtsZ plays a central role in construction of the cytokinetic Z-ring that orchestrates bacterial cell division. A naturally occurring naphthoquinone, plumbagin, is known to exhibit antibacterial properties against several types of bacteria. In this study, plumbagin was found to perturb formation of the Z-ring in Bacillus subtilis 168 cells and to cause elongation of these cells without an apparent effect on nucleoid segregation, indicating that it may inhibit FtsZ assembly. Furthermore, it bound to purified B. subtilis FtsZ (BsFtsZ) with a dissociation constant of 20.7 AE 5.6 lM, and inhibited the assembly and GTPase activity of BsFtsZ in vitro. Interestingly, plumbagin did not inhibit either the assembly or GTPase activity of Escherichia coli FtsZ (EcFtsZ) in vitro. Using docking analysis, a putative plumbagin-binding site on BsFtsZ was identified, and the analysis indicated that hydrophobic interactions and hydrogen bonds predominate. Based on the in silico analysis, two variants of BsFtsZ, namely D199A and V307R, were constructed to explore the binding interaction of plumbagin and BsFtsZ. The effects of plumbagin on the assembly and GTPase activity of the variant BsFtsZ proteins in vitro indicated that the residues D199 and V307 may be involved in the binding of plumbagin to BsFtsZ. The results suggest that plumbagin inhibits bacterial proliferation by inhibiting the assembly of FtsZ, and provide insight into the binding site of plumbagin on BsFtsZ, which may help in the design of potent FtsZ-targeted antibacterial agents.

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SB-RA-2001 Inhibits Bacterial Proliferation by Targeting FtsZ Assembly

Singh

Bhattacharya

Rai

et al. 2014

Biochemistry

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FtsZ has been recognized as a promising antimicrobial drug target because of its vital role in bacterial cell division. In this work, we found that a taxane SB-RA-2001 inhibited the proliferation of Bacillus subtilis 168 and Mycobacterium smegmatis cells with minimal inhibitory concentrations of 38 and 60 μM, respectively. Cell lengths of these microorganisms increased remarkably in the presence of SB-RA-2001, indicating that it inhibits bacterial cytokinesis. SB-RA-2001 perturbed the formation of the FtsZ ring in B. subtilis 168 cells and also affected the localization of the late cell division protein, DivIVA, at the midcell position. Flow cytometric analysis of the SB-RA-2001-treated cells indicated that the compound did not affect the duplication of DNA in B. subtilis 168 cells. Further, SB-RA-2001 treatment did not affect the localization of the chromosomal partitioning protein, Spo0J, along the two ends of the nucleoids and also had no discernible effect on the nucleoid segregation in B. subtilis 168 cells. The agent also did not appear to perturb the membrane potential of B. subtilis 168 cells. In vitro, SB-RA-2001 bound to FtsZ with modest affinity, promoted the assembly and bundling of FtsZ protofilaments, and reduced the GTPase activity of FtsZ. GTP did not inhibit the binding of SB-RA-2001 to FtsZ, suggesting that it does not bind to the GTP binding site on FtsZ. A computational analysis indicated that SB-RA-2001 binds to FtsZ in the cleft region between the C-terminal domain and helix H7, and the binding site of SB-RA-2001 on FtsZ resembled that of PC190723, a well-characterized inhibitor of FtsZ. The findings collectively suggested that SB-RA-2001 inhibits bacterial proliferation by targeting the assembly dynamics of FtsZ, and this can be exploited further to develop potent FtsZ-targeted antimicrobials.

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A Carbocyclic Curcumin Inhibits Proliferation of Gram-Positive Bacteria by Targeting FtsZ

et al. 2017

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Inhibition of FtsZ assembly has been found to stall bacterial cell division. Here, we report the identification of a potent carbocyclic curcumin analogue (2d) that inhibits Bacillus subtilis 168 cell proliferation by targeting the assembly of FtsZ. 2d also showed potent inhibitory activity (minimum inhibitory concentrations of 2-4 mg/L) against several clinically important species of Gram-positive bacteria, including methicillin-resistant Staphylococcus aureus. In addition, 2d displayed a significantly reduced inhibitory effect on human cervical cancer cells in comparison to its effect on bacterial cells. Using live cell imaging of GFP-FtsZ by confocal microscopy, 2d was found to rapidly perturb the cytokinetic FtsZ rings in Bacillus subtilis cells. The immunofluorescence imaging of FtsZ also showed that 2d destroyed the Z-ring in bacteria within 5 min. Prolonged treatment with 2d produced filamentous bacteria, but 2d had no detectable effect either on the nucleoids or on the membrane potential of bacteria. 2d inhibited FtsZ assembly in vitro, whereas it had minimal effects on tubulin assembly. Interestingly, 2d strongly enhanced the GTPase activity of FtsZ and reduced the GTPase activity of tubulin. Furthermore, 2d bound to purified FtsZ with a dissociation constant of 4.0 ± 1.1 μM, and the binding of 2d altered the secondary structures of FtsZ. The results together suggested that the non-natural curcumin analogue 2d possesses powerful antibacterial activity against important pathogenic bacteria, and the evidence indicates that 2d inhibits bacterial proliferation by targeting FtsZ.

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Mutation of Arg191 in FtsZ Impairs Cytokinetic Abscission of Bacillus subtilis Cells

et al. 2016

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FtsZ monomers assemble to form a dynamic Z-ring at the midcell position in bacteria that coordinates bacterial cell division. Antibacterial agents plumbagin and SB-RA-2001 were found to bind to FtsZ and to inhibit Z-ring formation in bacteria. Docking analysis indicated similar binding regions for these two inhibitors on FtsZ, and residue R191 was involved in the binding interaction with both compounds. In this work, the importance of R191 in FtsZ assembly and in bacterial cell division was analyzed. R191A-FtsZ exhibited significantly poorer polymerization ability. Further, the mutant FtsZ could poison the assembly of wild-type FtsZ (WT-FtsZ). The expression of R191A-FtsZ in Bacillus subtilis strain PL2084 perturbed Z-ring formation and produced filamentous cells, indicating that the mutation hindered the division of these cells. The results suggested that the R191A mutation is a dominant negative mutation of FtsZ. Molecular dynamics simulations of R191A-FtsZ and WT-FtsZ revealed a kink in helices H5 and H7 in the active site of R191A-FtsZ compared to that of WT-FtsZ, which is required for FtsZ assembly. The findings suggested that R191 is an important residue for FtsZ assembly, which can be targeted for the design of FtsZ inhibitors.

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ZipA Binds to FtsZ with High Affinity and Enhances the Stability of FtsZ Protofilaments

2011

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A bacterial membrane protein ZipA that tethers FtsZ to the membrane is known to promote FtsZ assembly. In this study, the binding of ZipA to FtsZ was monitored using fluorescence spectroscopy. ZipA was found to bind to FtsZ with high affinities at three different (6.0, 6.8 and 8.0) pHs, albeit the binding affinity decreased with increasing pH. Further, thick bundles of FtsZ protofilaments were observed in the presence of ZipA under the pH conditions used in this study indicating that ZipA can promote FtsZ assembly and stabilize FtsZ polymers under unfavorable conditions. Bis-ANS, a hydrophobic probe, decreased the interaction of FtsZ and ZipA indicating that the interaction between FtsZ and ZipA is hydrophobic in nature. ZipA prevented the dilution induced disassembly of FtsZ polymers suggesting that it stabilizes FtsZ protofilaments. Fluorescein isothiocyanate-labeled ZipA was found to be uniformly distributed along the length of the FtsZ protofilaments indicating that ZipA stabilizes FtsZ protofilaments by cross-linking them.

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