Rutaretin1'-(6″-sinapoylglucoside): promising inhibitor of COVID 19 mpro catalytic dyad from the leaves of Pittosporum dasycaulon miq (Pittosporaceae).

SARS CoV2 is a novel strain of coronavirus, first reported in Wuhan of China, in 2019 and drugs specific to COVID-19 treatment are still lacking. The main protease (3CL) present in the new coronavirus strain is considered a potential drug target due to its role in viral replications. The plant Pittosporum dasycaulon Miq. is a medicinal plant reported to have prominent antimicrobial including antibacterial and antifungal activity. In this study, 12 natural compounds were selected on the basis of major peaks observed in the LC-HRMS analysis of P. dasycaulon aqueous leaves extract (AQLE). The pharmacological properties of the selected compounds against 3CLpro were investigated through in silico studies along with the standard antiviral drugs Lopinavir and Nelfinavir. The molecular docking study was done using Autodock 4.2 tool and visualized using Pymol (1.7.4.5 Edu). The docking analysis revealed that three compounds showed a better binding affinity than the standard drug Lopinavir. To validate the docking interactions, behaviour and stability of protein- ligand complex, molecular dynamics (100 ns) simulations were performed with the four best-ranked bioactive compounds identified through molecular docking analysis namely; Leptinidine, Rutaretin1'-(6″-sinapoylglucoside), Kalambroside A, and 5,7-dimethoxy', 4'methylenedioxyflavanone. The stability of the docking conformation was studied in depth by calculating the binding free energy using MM-PBSA method. Our findings on molecular docking, MD simulations and binding energy calculations suggest that Rutaretin1'-(6''-sinapoylglucoside) could be a potential inhibitor of COVID-19 3CLpro. However, considering the current pandemic situation of COVID-19, further research is required to experimentally validate their potential medicinal use against COVID-19 3CLpro both in vitro and in vivo along with clinical practices. Communicated by Ramaswamy H. Sarma.

LC-HRMS Based Approach for Identification and Quantification Analysis of Chemical Constituents of Sea Cucumbers from Aegean Sea - Their Cytotoxic and Antiviral Potentials

There are nearly 1200 species of sea cucumber in the world's seas. Among these creatures included in the Holothuroidea class, 37 species show distribution in the Mediterranean and Aegean Sea. The purpose of this study is to determine the chemical content and biological potent of five sea cucumber species, Holothuria tubulosa, Holothuria poli, Holothuria mammata, Holothuria sanctori and Stichopus regalis which were collected from the Aegean Sea. The detailed flavonoid, phenolic and triterpene contents were determined by LCHR/MS. Cytotoxic activities against several cancer cell lines, MDA-MB-231, PC-3, A549, PANC-1, HEPG2 and a healthy cell line CCD-34LU were performed by MTT method. Antiviral activities of the samples were measured as virucidal activity against avian coronavirus by in ovo. According to the results of LC-HRMS analysis, H. sanctori, H. poli and S. regalis had the richest chemical content diversity in terms of examined triterpene compounds. Fumaric acid was detected as the most abundant substance in all sea cucumber species. H. tubulosa had a highly toxic effect on all the tested cells. The best cytotoxic activity on A549 cells was seen in H. mammata, H. sanctori and H. poli. H. sanctori also showed a significant toxic effect against PANC-1, MDA-MB-231, HepG2 and A549 cells, whereas the IC50 value in CCD-34LU cells was above 50 mu g/mL for this sample. The n-butanol extracts of sea cucumber species reduced hemagglutination (HA) virus titer between 1-fold to 4-fold in log2-based at all tested concentrations. The best inhibited virus HA titer results were found in H. tubulosa at 5 mu g/g. According to these results we have obtained, the extracts of sea cucumbers may be used in many fields such as medicine, food, cosmetics in the future. This study is also very important in terms of being a guide for all studies on the use, processing and production of sea cucumbers and detailed isolation and purification studies on sea cucumber species from Turkey.

Identification of Flavonoids in the Leaves of Eranthis longistipitata (Ranunculaceae) by Liquid Chromatography with High-Resolution Mass Spectrometry (LC-HRMS).

Eranthis longistipitata Regel is an endemic plant of Central Asia. The flavonoid profile of E. longistipitata leaves was studied by mass spectrometry for the first time (natural populations of Kyrgyzstan and Uzbekistan, in 70% aqueous-ethanol extracts by liquid chromatography coupled with high-resolution mass spectrometry). Mass spectrometry revealed 18 flavonoid compounds. Flavonols featured the highest diversity, and 10 such substances were identified: 2 free aglycones (quercetin and kaempferol), 6 quercetin glycosides (peltatoside, hyperoside, reynoutrin, quercetin 3-sambubioside, rutin, and isoquercitrin), and 2 kaempferol glycosides (juglalin and trifolin). Two flavans (cianidanol and auriculoside), two hydroxyflavanones (6-methoxytaxifolin and aromadendrin), and one C-glycoside flavone-carlinoside-were identified. Dihydroxychalcones aspalathin, phloridzin, and phloretin were found too. Levels of rutin, quercetin, kaempferol, and hyperoside were confirmed by means of standards and high-performance liquid chromatography. Rutin concentration was the highest among all other identified flavonoid compounds: in the leaf samples from Kyrgyzstan, it ranged from 2.46 to 3.20 mg/g, and in those from Uzbekistan, from 1.50 to 3.01 mg/g. The diversity of flavonoid compounds in E. longistipitata leaves is probably due to external ecological and geographic factors and adaptive mechanisms.