Abstract:
Parasitic diseases like leishmaniasis are major worldwide health problem. Suboptimal
therapies and emergence of resistance demands the exploration of all possible sources
to find a new drug against leishmaniasis. In this search, endophytes have emerged as
an outstanding source of high metabolic diversity. These microorganisms have
recently attracted increased attention in the quest of pharmaceutically important
compounds. Present study describes the biological evaluation of five endophytic fungi
Plectania milleri NFL1, Trichoderma asperellum NFL2, Paraconiothyrium sp. NFL6,
Mucor hiemalis NFW6 and Epicoccum nigrum NFW7 isolated from Taxus fuana of
West Himalayan region of Pakistan followed by isolation and identification of
compounds from selected endophytic fungi with prime focus on their antileishmanial
activity.
Endophytic fungal strains were initially cultivated on four solid state media (PDA,
SDA, modified taxol medium and rice) and extracted with organic solvent ethyl
acetate. The crude extracts obtained after extraction, were evaluated in phytochemical
assays to determine the total phenolic and total flavonoid content. Biological activities
of the extracts were determined by three antioxidant assays (total antioxidant capacity,
reducing power and DPPH free radical scavenging assay), antibacterial assay against
8 bacterial strains, antileishmanial assay against two Leishmania sp. i.e. L. tropica and
L. amazonensis and anticancer assays by evaluating the inhibition of NFƙB and
K-Ras. Cytotoxic potential was evaluated against four human cell lines i.e. prostate
cancer cell line PC-3, human colon adenocarcinoma cell line HT-29, estrogen
receptor negative human breast cancer cell line MDA-MB-231 and breast cancer cell
line MCF-7.
Endophytic fungi showed variable biological activities with apparent effect of media
used for fermentation. The highest amount of gallic acid equivalent phenolic and
quercetin equivalent flavonoid content was found in M. hiemalis NFW6 and
E. nigrum NFW7. While significant total antioxidant activity, total reducing power
and DPPH scavenging activities were also exhibited by these two strains. Noteworthy
antimicrobial activities were exhibited by P. milleri NFL1 and Paraconiothyrium sp.
NFL6 particularly against S. epidermidis with zone of inhibition of 20 ± 0.87 and
20.7 ± 1.26 mm, respectively. Results for antileishmanial activities were pronounced
xiiifor P. milleri NFL1 and M. hiemalis NFW6 against Leishmania sp. with IC 50 values
of 1.5 ± 1.1 and 3.72 ± 1.7 μg/ml, respectively. Significant inhibition of NF-κB
signaling pathway (>70 %) was exhibited by P. milleri NFL1 and E. nigrum NFW7.
Similarly, P. milleri NFL1 and T. asperellum NFL2 showed pronounced K-Ras
inhibition (>60 %). Endophytic fungi expressed significant cytotoxic activities against
all the cancerous cell lines except human colon adenocarcinoma cell line HT-29. Most
promising results were observed against breast cancer cell line MCF-7 where
P. milleri NFL1, T. asperellum NFL2 and Paraconiothyrium sp. NFL6 expressed
greater than 75 % inhibition. P. milleri NFL1 was the only strain which showed
cytotoxic activity against three tested cell lines i.e. PC-3, MCF-7 and MDA-MB-231.
Biological screening was followed by selection of P. milleri NFL1, M. hiemalis
NFW6 and Paraconiothyrium sp. NFL6 for scale up fermentation and compound
isolation. Crude extracts, obtained after the large scale fermentation of endophytic
fungi, were fractionated by normal phase chromatography and subjected to
antileishmanial assay for prioritizing fractions for compound isolation. Structure
elucidation was done by 1D, 2D NMR along with mass spectrometry. As a result,
three known compounds were isolated from P. milleri NFL1; pestalotin (L1F5F7F4),
its analogue (L1F3F7) and galiellalactone (L1F4F4F4). M. hiemalis NFW6 resulted in
the isolation of a single compound i.e. triolein (W6F4F4) while Paraconiothyrium sp.
NFL6 also afforded one compound pachybasin (L6F8F14). All the compounds were
evaluated for their antileishmanial and anticancer potential. Galiellalactone
(L1F4F4F4) was the only compound with antileishmanial and anticancer activity
among all the isolated compounds. Antileishmanial potential of galiellalactone has
been reported in this study for the first time.
In silico tools were employed in this study to understand the behavior of endophytic
fungi produced compound galiellalactone (L1F4F4F4) with Leishmania proteins.
Thorough study of the literature resulted in selection of three target proteins i.e.
leishmanolysin, trypanothione reductase and cysteine protease in Leishmania. These
proteins were selected on the basis of their essentiality for Leishmania and absence
from human host. Unavailability of experimentally determined structure led to
homology modelling of the selected proteins by using eight web-based servers.
Comparative analysis was performed to select the most reliable protein model.
xivIn silico evaluation of galiellalactone (L1F4F4F4) against leishmanial targets was
completed by docking studies. The docking simulation between the ligand
(L1F4F4F4) and target proteins was performed using AutoDock. Ligand-protein
complex among all the three target protein was most stable in case of cysteine
protease with hydrogen bond and electrostatic interactions and highest binding
affinity of −6.5 kcal/mol. These findings give insights into possible action of
galiellalactone against Leishmania.
The Himalayan region of Pakistan has a huge biodiversity of medicinal plants
including Taxus species. Antileishmanial potential of endophytes associated with
Taxus fuana from this region has not been previously reported. These findings will
highlight the bioactive potential of endophytic fungi and also act as a cornerstone for
lead compounds for drug discovery and development.