Quorum quenching activity of AiiA lactonase KMMI17 from endophytic Bacillus thuringiensis KMCL07 on AHL- mediated pathogenic phenotype in Pseudomonas aeruginosa.

Virulence pathways in gram-negative pathogenic bacteria are regulated by quorum sensing mechanisms, through the production and sensing of N-acylhomoserine lactone (AHL) signal molecules. Enzymatic degradation to disrupt quorum-sensing in these bacteria could pave the way for the new development in decreasing resistance strains and are of significant interest for clinical, agricultural, and industrial applications. Isolated endophytic Bacillus thuringiensis strain KMCL07 showing quorum quenching activity on Pseudomonas aeruginosa PAO1 has been studied. AiiA lactonase KMMI17 identified belongs to metallo- ß-lactamase superfamily preserving conserved regions of 106HXDH-59 amino acids-H169-21 amino acids-D191 motif, significantly inhibits the biofilm formation and attenuates virulence factor pyocyanin production of PAO1. Insilico molecular docking analysis of lactonase KMMI17 using alternative catalytic site (PDB entry: 3DHA) with the AHL-based QS system regulators of PAO-1, C4 AHL, C6 AHL and 3-oxo-C12 AHL molecules showed good binding affinity between the protein and ligands, Phe111 and Tyr198 residues plays an important role in binding them. Crude enzyme extract was found to have Km value for C6-HSL: 134.2702 ±â€¯34.83 µM-1, C4-HSL: 308.217 ±â€¯139.9 µM-1 and 3-oxo-C12-HSL: 760.463 ±â€¯251.3 µM-1. LCMS analysis confirms the degradation activity of lactonase KMMI17 on AHL molecules and its hydrolytic process, which indicates the potential application of lactonase KMMI17 as a biocontrol agent or an anti-pathogenic drug.

Endophytic Paenibacillus amylolyticus KMCLE06 Extracted Dipicolinic Acid as Antibacterial Agent Derived via Dipicolinic Acid Synthetase Gene.

Bioactive natural compounds play pivotal roles in drug discovery and the emergence of multi-drug resistance pathogens demands the development of better/new drugs. Paenibacillus amylolyticus KMCLE06 endophytic bacterium isolated from the medicinal plant Coix lachryma-jobi were analyzed for the potential bioactive secondary metabolite compounds and its gene responsible within polyketide synthases (PKS) clusters. Ethyl acetate extraction of P. amylolyticus KMCLE06 showed significant antibacterial activity which was further processed to partial purification and characterization for bioactive compound. The foremost bioactive component in extraction was found to be dipicolinic acid (DPA). The antibacterial activity showed remarkable activity compared to the commercial standard DPA against both gram-positive and gram-negative pathogens. The MIC and MBC concentrations for partially purified extracted DPA ranged from 62.5 to 125 µg/ml and MBC from 208 to 250 µg/ml, respectively. Sequence analysis of gene amplified using degenerative primer, amplified 543 bp DNA region, revealing conserved putative open reading frame for dipicolinic acid synthetase (DpsA) key gene to produce DPA in most endospore forming bacteria. A search in the structural database for DpsA revealed significant homologous match with enoyl reductase one of the PKS type 1 module protein. This emphasizes endophytic P. amylolyticus KMCLE06 bacteria has presence of spoVF operon producing DPA via dipicolinic acid synthetase and lacks the polyketide synthase type 1 module cluster gene in its genome. And the bioactive compound DPA extracted acts as a stable remarkable antibacterial agent which can be potent compound for multi-resistance pathogens.