Mamta Singla scite author profile

Cyclic-di-AMP (c-di-AMP) is a newly discovered secondary messenger molecule that plays a critical role in monitoring several important cellular processes, especially in several Gram-positive bacteria signal transduction pathways. In this study, we seek to unravel the physiological significance of the molecule c-di-AMP in Mycobacterium smegmatis under different conditions, using strains with altered c-di-AMP levels: c-di-AMP null mutant (ΔdisA) and a c-di-AMP over-expression mutant (Δpde). Our thorough analysis of the mutants revealed that the intracellular concentration of c-di-AMP could determine many basic phenotypes such as colony architecture, cell shape, cell size, membrane permeability etc. Additionally, it was shown to play a significant role in multiple stress adaptation pathways in the case of different DNA and membrane stresses. Our study also revealed how the biofilm phenotype of M. smegmatis cells are dependent on intracellular c-di-AMP concentration. Next, we checked how c-di-AMP contributes to antibiotic tolerance characteristics of M. smegmatis, which was followed by a detailed transcriptome profile analysis to reveal key genes and pathways regulated by c-di-AMP in mycobacteria.

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C-4-Modified Isotetrones Prevent Biofilm Growth and Persister Cell Resuscitation inMycobacterium smegmatis

Bag

Pal

Basu

et al. 2022

Preprint

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Hyperphosphorylated guanosine nucleotide (p)ppGpp, synthesized by Rel proteins, regulates the stringent response pathway responsible for biofilm growth and persister cell formation in the stationary phase of mycobacteria. The discovery of vitamin C as a potent inhibitor of Rel protein activities raises the prospect of such a tetrone lactone to prevent biofilm growth and persister cell formation. The closely related isotetrone lactone derivatives are identified in the present study as potent inhibitors of the above processes in a mycobacterium. Isotetrone lactone derivatives are synthesized from appropriate α-ketocarboxylic acids, derived from the a-amino acids. Aldol condensation with formaldehyde, followed by the lactone formation, completes synthesis of isotetrone derivatives, possessing varied substituents atC-4 carbon, in good yields. A series of biochemical evaluations of biofilm growth and persister cell formation inM. smegmatisis conducted. Among the derivatives, isotetrone possessing phenyl substituent atC-4 carbon completely inhibit the biofilm formation at 400 μg mL-1concentration, 84 h of post-exposure, followed by a moderate inhibition by the isotetrone possessingp-hydroxyphenyl substituent. Whereas, the latter isotetrone inhibits the growth of cells at 400 μg mL-1f.c. when monitored for 2 weeks, under PBS starvation condition. Isotetrones also potentiate the inhibition of antibiotic tolerant regrowth of cells by ciprofloxacin antibiotic (0.75 μg mL-1) and thus act as bio-enhancers. The combination is shown to significantly arrest the emergence of ciprofloxacin-resistant genetic mutants. The observations suggest that isotetrones in combination with ciprofloxacin are therapeutically superior when administered together. Systematic molecular dynamics studies show that isotetrone derivative binds to Rel protein more efficiently than vitamin C and the binding is aided by hydrogen bonding, van der Waals and electrostatic interactions at a binding site possessing serine, threonine, lysine and arginine residues. The present study establishes that the identified isotetrone derivatives (i) act as inhibitors ofM. smegmatisbiofilm growth and (ii) arrest the re-emergence of recalcitrant persister cells when administered together with ciprofloxacin antibiotic. Results of this study establish that isotetrones as new chemical entities that interfere with stringent response pathways in a mycobacterium under stress and permit overcoming the multidrug-resistant persister cell emergence in the bacterium.

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Elucidating the role of c-di-AMP in Mycobacterium smegmatis: Phenotypic characterization and functional analysis

Chaudhary

Pal

Singla

et al. 2023

Heliyon

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C-4-Modified Isotetrones Prevent Biofilm Growth and Persister Cell Resuscitation in Mycobacterium smegmatis

et al. 2023

View full text Add to dashboard Cite

Hyperphosphorylated nucleotide (p)ppGpp, synthesized by Rel protein, regulates the stringent response pathway responsible for biofilm and persister cell growth in mycobacteria. The discovery of vitamin C as an inhibitor of Rel protein activities raises the prospect of tetrone lactones to prevent such pathways. The closely related isotetrone lactone derivatives are identified herein as inhibitors of the above processes in a mycobacterium. Synthesis and biochemical evaluations show that an isotetrone possessing phenyl substituent at C-4 inhibit the biofilm formation at 400 μg mL–1, 84 h post-exposure, followed by moderate inhibition by the isotetrone possessing the p-hydroxyphenyl substituent. The latter isotetrone inhibits the growth of persister cells at 400 μg mL–1 f.c. when monitored for 2 weeks, under PBS starvation. Isotetrones also potentiate the inhibition of antibiotic-tolerant regrowth of cells by ciprofloxacin (0.75 μg mL–1) and thus act as bioenhancers. Molecular dynamics studies show that isotetrone derivatives bind to the RelMsm protein more efficiently than vitamin C at a binding site possessing serine, threonine, lysine, and arginine.

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Bacterial Multidrug Tolerance and Persisters: Understanding the Mechanisms, Clinical Implications, and Treatment Strategies

Singla

Chaudhary

Ghosh

2022

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Mamta Singla

Elucidating the role of c-di-AMP in Mycobacterium smegmatis: phenotypic characterization and functional analysis

C-4-Modified Isotetrones Prevent Biofilm Growth and Persister Cell Resuscitation inMycobacterium smegmatis

Elucidating the role of c-di-AMP in Mycobacterium smegmatis: Phenotypic characterization and functional analysis

C-4-Modified Isotetrones Prevent Biofilm Growth and Persister Cell Resuscitation in Mycobacterium smegmatis

Bacterial Multidrug Tolerance and Persisters: Understanding the Mechanisms, Clinical Implications, and Treatment Strategies

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