Abstract
Endophytes, being the co-evolution partners of green host plants, are factories of pharmaceutically valuable novel natural products. Cochliobolus sp. APS1, an endophyte of Andrographis paniculata (Green Chiretta), produces a plethora of natural bioactive compounds and the multipotent alkaloid Aziridine, 1-(2-aminoethyl)-, is the prime one among them. The isolate exhibited antibacterial, anti-biofilm, and antilarval potency. The MIC and MBC values of the ethyl-acetate culture extract ranged from 15.62 to 250 µg/mL against ten pathogenic microorganisms (including MRSA and VRSA). Killing kinetics data along with the leakage of macromolecules into the extracellular environment supports the cidal activity of the antibacterial principles. The broad spectrum antibacterial activity of Aziridine, 1-(2-aminoethyl)-, was optimized by a one-variable-at-a-time system coupled with response surface methodology, which led to a 45% enhancement of the antibacterial activity. The maximum response (22.81 ± 0.16 mm of zone of inhibition against MRSA) was marked in 250 mL Erlenmeyer flask containing 90 mL potato dextrose broth supplemented with (g%/L) glucose, 9.7; urea concentration, 0.74; with medium pH 6.48; after 8.76 days of incubation at 26 °C. APS1 strongly inhibited biofilm formation in the tested pathogenic microorganisms and acts as a larvicidal agent against the Dengue-vector Aedes aegypti. This is probably the first report of Aziridine, 1-(2-aminoethyl)-, from any endophytic source. Cochliobolus sp. APS1 possesses industrial importance for the production of bioactive alkaloids.
Highlights
Endophytes are the silent microbial partners of the plant, residing within the host tissues for a part or the entirety of their life cycle, and help the plant to withstand biotic or abiotic stresses
The broad spectrum antibacterial activity of Aziridine, 1-(2-aminoethyl), was optimized by a one-variable-at-a-time system coupled with response surface methodology, which led to a 45% enhancement of the antibacterial activity
Antimicrobial resistance (AMR) towards existing drugs is a matter of serious concern, especially regarding infections caused by MRSA, VRSA, PRSA and other MDR strains, which are worsening the situation and the failure of pre-existing molecules emphasizes the need to search in untapped fields
Summary
Endophytes are the silent microbial partners of the plant, residing within the host tissues for a part or the entirety of their life cycle, and help the plant to withstand biotic or abiotic stresses. The host and its endophytes are always engaged in a symbiotic relationship where plants provide nutrients to the microbes and the microbial flora assists their eukaryotic counterpart by acting as a line of defense against parasitic pathogens, either directly by enhancing host plants’ resistance or by being engaged in chemical warfare [1,2,3]. Plants and their endophytes are co-evolutionary partners and share valuable genes. The hunt for safer and unique drugs (novel natural products) of plant or microbe origin from untapped biological sources is the best probable way out to meet the need of pharmaceutical sectors to combat serious health issues [10].Endophyte biology is opening up a new domain of solutions to the pharmaceutical world and offers a variety of bioactive compounds
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