Abstract
Substances which are normally secondary metabolites in a lichen are known to possess various medicinal properties but little is known about the biological activities of compounds present in these mycobiont culture extract. The objectives of the present study were isolation and optimization of growth conditions of the mycelia from Parmotrema austrosinense and assess the antiproliferative and antimicrobial activities of acetone extracts. The extraction of bioactive compound from mycobiont culture was achieved by using acetone and standard Soxhlet extraction procedures. The culture extract was subjected to silica gel column chromatography and detection of compound in thin layer chromatography. HPLC, UV vis, IR spectra, microcrystallization and NMR were done for the purified compound. The antimicrobial activity in the extracts were assayed using the standard disc diffusion and broth microdilution protocol against microbial strains. The lecanoric acid in the extracts was purified and MTT method was applied to assess antiproliferative activity against DLA cancer cells. The culture extract containing lecanoric acid exhibited antimicrobial activity against the test strains with the Minimum Inhibitory Concentrations varied between 0.83±0.28 and 2.3±1.5 mg mL−1. The lecanoric acid inhibited the growth of DLA cancer cells with inhibitory concentration (IC50) of about 42±1.5 µg mL−1. Conclusion: The result of the present study suggests that this compound might possess potent antitumor property and should be further analysed using appropriate animal model and clinical trials.
Highlights
Lymphoma cancer is one of the lethal syndromes in which the highest deaths per year around the globe is recorded
Drug resistant microbial strains are the most dangerous pathogen that leads to death especially in rural India, microbial disease incidence and mortality rate has increased in recent years
It is well known that mycobiont exhibits symbiotic relationship with photobiont which acts as the source of secondary metabolites used to synthesize biochemical compounds important in pharmaceuticals
Summary
Lymphoma cancer is one of the lethal syndromes in which the highest deaths per year around the globe is recorded. Medicinal lichens are rich sources of secondary metabolites such as antitumor substances, antiviral compounds, organic acids, anti-inflammatory, cytotoxic effects and antimicrobial substances that can be effective against the range of diseases[4,5,6]. With the development of drug resistant strains and new diseases, the need for novel medicines has increased. Among 1050 known secondary metabolites in lichens, usnic acid, a dibenzofuran compound is extensively used and one of the few that is commercially available under the name Usno. This medication is available in Russia, Germany and Europe. In Japan, a large number of studies are being carried out in different lichen species for bioprospecting studies[8]
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