dc.identifier.citation |
Shevkar, C., Armarkar, A., Weerasinghe, R., Maduranga, K.,Pandey, K.,Behera, S.K, Kalia, Kiran,Paranagama, P. and Kate, A. S. Cytotoxic Bioxanthracene and Macrocyclic Polyester from Endolichenic Fungus Talaromyces pinophilus: In-Vitro and In-Silico Analysis. Indian J Microbiol 62, 204–214 (2022). https://doi.org/10.1007/s12088-021-00994-8 |
en_US |
dc.description.abstract |
Lichens are used in folklore medicines across the
globe for wound healing and to treat skin disorders and
respiratory diseases. They are an intricate symbiosis
between fungi and algae with the domination of fungal
counterparts. Recent research studies pointed out that yeast
is a third major partner in lichens. Endolichenic fungi
(ELF) are also a part of this complex miniature ecosystem.
The highly competitive environment of lichens compels
ELF to produce toxic metabolites which are comparatively
less explored for their chemical diversity and use. Here, we
investigated 31 ELF isolated from 32 lichens found on
mangrove plants at Puttalam Lagoon of Sri Lanka to find
cytotoxic molecules by applying LC-UV-HRMS analysis
and in vitro bioassays. The studies resulted in the
identification of three potent cytotoxic molecules from
endolichenic fungi Talaromyces pinophilus isolated from
host lichen Porina tetracerae. The ethyl acetate extract of
this fungus showed moderate cytotoxicity against the
breast cancer cell line. Chemical characterization of ethyl
acetate extract of T. pinophilus produced peniazaphilin B,
152G256a-1, and ES-242-3. The structures of these
molecules were confirmed by NMR and MS data. We are
reporting ES-242-3 for the first time from the genus
Talaromyces and peniazaphilin B and 152G256a-1 from T.
pinophilus. The isolated compounds were evaluated for
their anticancer potential against breast, oral and cervical
cancer cell lines. Compound 152G256a-1 showed potent
cytotoxicity against oral cancer (CAL-27 cell line) with an
IC50 value of 2.96 ± 0.17 lM while ES-242-3 showed the
best activity against breast cancer (MCF-7 cell line) and
cervical cancer (HeLa cell line) with IC50 value
14.08 ± 0.2 lM and 4.46 ± 0.05 lM respectively. An insilico
analysis was carried out to predict the mechanism of
in-vitro activity, drug likeliness, and pharmacokinetic
profile of the isolated compounds. The study confirms the
potential of ELF T. pinophilus to produce diverse bioactive
scaffolds and encourages the researchers to further explore
the fungus and its metabolites with newer technologies to
produce potent anticancer leads. |
en_US |