Cupressus sempervirens L. flavonoids as potent inhibitors to xanthine oxidase: in vitro, molecular docking, ADMET and PASS studies.

Excessive intake of purine-rich foods such as seafood and red meat leads to excess xanthine oxidase activity and provokes gout attacks. The aim of this paper is to evaluate in vitro and in silico, the inhibition effect of Cupressus sempervirens plant extracts (flavonoids (Cae) and alkaloids (CaK)) and its six derivative compounds on bovine xanthine oxidase (BXO). The in silico study consists of molecular docking with GOLD v4.0 based on the best PLPchem score (PLP) and prediction of biological activity with the PASS server tool. The inhibitors used were lignan (cp1), Amentoflavone (cp2), Cupressuflavone (cp3), Isocryptomerin (cp4), Hinokiflavone (cp5), and Neolignan (cp6). The in vitro results showed that CaK gives an IC50 of 3.52 ± 0.04 µg/ml. Similarly, Cae saved an IC50 of 8.46 ± 1.98 µg/ml compared with the control (2.82 ± 0.10 µg/ml). The in silico results show that cp1 was the best inhibitor model (PLP of 88.09) with approved pharmacokinetics. These findings suggest that cp1 and cp2 may offer good alternatives for the treatment of hyperuricemia; cp3 was moderate, while the others (cp4 to cp6) were considered weak inhibitors according to their PLP.Communicated by Ramaswamy H. Sarma.

Quinic and Digallic acids from Pistacia atlantica Desf. Leaves Extracts as Potent Dual Effect Inhibitors against main Protease and RNA-dependent RNA Polymerase of SARS-CoV-2.

BACKGROUND: Through this study, the Chemical composition realized by UHPLC-DADESI- MSn allowed the detection of different phenolic compound groups from Pistacia atlantica Desf. leaves extracts. We studied the inhibition of main protease (CL3 Mpro) and RNA-dependent RNA polymerase (RdRp) of the SARS-CoV-2 by the identified molecules through molecular docking. OBJECTIVE: The objective of this study is to identify compounds from Pistacia atlantica Desf. leaves extracts, which might have anti-viral effects. METHODS: Chemical composition was realized by UHPLC-DAD-ESI-MSn, and the inhibition of the main protease (CL3 Mpro) and RNA-dependent RNA polymerase (RdRp) of the SARS-CoV-2 was studied using molecular docking with Autodock Vina software. ADMET analysis was carried out. RESULTS: The identified compounds are quinic acid, digallic acid, galloylquinic acid, gallic acid, trigallic acid, digalloylquinic acids, trigalloylquinic acids and methyl gallate; digallic and quinic acids are the best inhibitors. Digallic acid had binding affinity energy (BAE) of -8.2 kcal/mol, and Ki of 1µM for the CL3 Mpro, Ki of 0.62 mM for the RdRp. Quinic acid showed Ki of 4.6 mM, recorded for both enzymes. Through ADMET analysis, we have found that the two molecules are good drug candidates. CONCLUSION: This is the first time that a group of identified compounds from Pistacia atlantica Desf. leaves are studied for their potential activity against the novel virus by inhibiting two key enzymes in its life cycle, and no further studies have been published in this context.

Identification of 3-Methoxycarpachromene and Masticadienonic Acid as New Target Inhibitors against Trypanothione Reductase from Leishmania Infantum Using Molecular Docking and ADMET Prediction.

Polyphenolic and Terpenoids are potent natural antiparasitic compounds. This study aimed to identify new drug against Leishmania parasites, leishmaniasis's causal agent. A new in silico analysis was accomplished using molecular docking, with the Autodock vina program, to find the binding affinity of two important phytochemical compounds, Masticadienonic acid and the 3-Methoxycarpachromene, towards the trypanothione reductase as target drugs, responsible for the defense mechanism against oxidative stress and virulence of these parasites. There were exciting and new positive results: the molecular docking results show as elective binding profile for ligands inside the active site of this crucial enzyme. The ADMET study suggests that the 3-Methoxycarpachromene has the highest probability of human intestinal absorption. Through this work, 3-Methoxycarpachromene and Masticadienonic acid are shown to be potentially significant in drug discovery, especially in treating leishmaniasis. Hence, drug development should be completed with promising results.

Anti-inflammatory drugs as new inhibitors to xanthine oxidase: In vitro and in silico approach.

The two important targets to treat gout disease are (1) control the hyperuricemia by the inhibition of Xanthine Oxidase (XO) and (2) treatment of acute attacks of gout by the use of anti-inflammatory drugs. It is important to distinguish between therapy to manage hyperuricemia and to reduce acute inflammation. While reducing hyperuricemia is resolved very slowly with available drugs, gout symptoms like pain and inflammation may become persistent. The objective of this study is to find a relevant treatment with a beneficial double effect. (1) As an anti-inflammatory, analgesic, and antipyretic effect and (2) as XO inhibitory effect, which is the main objective of this study. We investigated the effect of five non-steroidal anti-inflammatory drugs (NSAIDs) against human and bovine milk xanthine oxidases (HXO and BXO) using the double enzyme detection method (DED) and molecular docking with the Autodock vina program. in vitro results show that the NSAIDs give an important inhibition to HXO and BXO with an IC50 of 2.04 ± 0.13 µg/ml, 2.75 ± 0.23 µg/ml, 1.45 ± 0.19 µg/ml, 0.31 ± 0.13 µg/ml and 1.27 ± 0.11 µg/ml, for HXO, and 2.96 ± 0.27 µg/ml, 9.46 ± 0.13 µg/ml, 6.21 ± 1.17 µg/ml, 0.83 ± 0.11 µg/ml, and 3.48 ± 0.13 µg/ml, for BXO, for respectively, Naproxen, Ibuprofen, Diclofenac, Indomethacin, and Celecoxib. Testing the inhibitory activity of these drugs on both XOs shows an important inhibition, especially from Indomethacin, which could be a promising lead compound for reducing acute inflammation and at the same time controlling hyperuricemia.

Lepidine B from Lepidium sativum Seeds as Multi-Functional Anti- Alzheimer's Disease Agent: In Vitro and In Silico Studies.

OBJECTIVE: The present study is carried out to screen the anticholinesterase effect of the total alkaloids of L. sativum seeds and other plants, and studied the ability of Lepidine B & E to inhibit AChE, BuChE, BACE, and MAGL. Hence, determining the main interactions in the inhibitorenzyme complex. METHODS: Inhibitory effect of Lepidium sativum, Juniperus phoenicea and Juniperus oxycedrus extracts on acetylcholinesterase using the Ellman method was investigated with Donepezil as the positive control. A molecular docking study is achieved using Autodock Vina. The structures of target molecules Lepidine B & E and the four enzymes were obtained from the PubChem database and Protein databank. RESULTS: Alkaloidal extract of Lepidium sativum and ethyl acetate extracts of Juniperus phoenicea and Juniperus oxycedrus exhibit a strong acetylcholinesterase inhibitory activity with IC50 values of 0.59 ± 0.04, 0.57 ± 0.00 and 0.49 ± 0.00 mg/mL, respectively using Donepezil <0.25 mg/mL as a positive control. The major components of alkaloids of L. sativum, Lepidine B & E bind tightly to AChE and BuChE as much as galantamine and donepezil. We suggest that Lepidine B is a noncompetitive inhibitory by interacting with PAS of AChE and BuChE, therefore it is capable to prevent the HuAChE-induced Aß aggregation. All the complexes of Lepidine B &E with the four enzymes show significant, several and different interactions. CONCLUSION: Our current study indicates that Lepidine B & E are promising anti-AD drugs and might become drug candidates to prevent Alzheimer's disease due to their multiple roles as potent inhibitors for AChE, BuChE, BACE, and MAGL. Indeed, they could inhibit Aß fibrillogenesis. No previous results about the inhibitory effect of Lepidine B & E on the AChE, BuChE, ß secretase, and monoacylglycerol lipase were reported.

Lepidine B & E as New Target Inhibitors from Lepidium Sativum Seeds Against Four Enzymes of the Pathogen Candida albicans: In Vitro and In Silico Studies.

BACKGROUND AND OBJECTIVE: The present paper aims to study the inhibition of Candida albicans growth as candidiasis treatment, using seeds of Lepidium sativum as source. METHODS: In vitro assays were carried out on the antifungal activity of three kinds of extracts from L. sativum seeds against four strains of C. albicans, then testing the same phytochemicals on the inhibition of Lipase (LCR). A new in silico study was achieved using molecular docking, with Autodock vina program, to find binding affinity of two important and major lepidine alkaloids (lepidine E and B) towards the four enzymes secreted by C. albicans as target drugs, responsible of vitality and virulence of this yeast cells: Lipase, Serine/threonine phosphatase, Phosphomannose isomerase and Sterol 14-alpha demethylase (CYP51). RESULTS: The results of the microdillution assay show that the hexanic and alkaloidal extracts have an antifungal activity with MICs: 2.25 mg/ml and 4.5mg/ml, respectively. However, Candida rugosa lipase assay gives a remarkable IC50 values for the hexanic extract (1.42± 0.04 mg/ml) followed by 1.7± 0.1 and 2.29 ± 0.09 mg/ml of ethyl acetate and alkaloidal extracts respectively. The molecular docking confirms a significant correlation between C. albicans growth and inhibition of crucial enzymes involved in the invasion mechanism and cellular metabolisms, for the first time there were an interesting and new positive results on binding modes of lepidine E and B on the four studied enzymes. CONCLUSION: Through this work, we propose Lepidine B & E as potent antifungal drugs.

Seeds, Leaves and Roots of Thapsia garganica as a Source of New Potent Lipases Inhibitors: In vitro and In silico Studies.

BACKGROUND AND OBJECTIVE: Lipase inhibitors have gained great interest because they could help in the therapy of many diseases, however, unfortunately, only a few drugs are currently available on the market. Therefore, the aim of this work was to evaluate for the first time the lipase inhibition effect of Thapsia garganica extracts from seeds, leaves and roots. METHODS: Polyphenols and flavonoids contents were determined using spectrophotometric method. Inhibitory activity of ethyl acetate extracts from seeds, leaves and roots of T. garganica against Candida rugosa lipase was determined. To uncover the active constituents responsible for this anti-lipase activity, further investigations were performed by employing theoretical docking simulations, using AutoDock Vina program to discuss the nature of interactions and the inhibition mechanism by major bioactive compounds synthesized by this plant. RESULTS: Seeds, leaves and roots extracts of T. garganica showed appreciable contents of polyphenols and flavonoids which is most in seeds extract with 2.90±0.02mg GAE/gdw and 1.53±0.05mg QE/gdw, respectively. Hence, their inhibitory activities against Candida rugosa lipase were determined as IC50 of 1.19mg/ml, 1.96mg/ml and 1.87mg/ml, respectively. Docking simulations have shown that nortribolid and tribolid are best inhibitors for both lipases (Candida rugosa and human pancreatic lipases). CONCLUSION: Testing the anti-lipase activity of the ethyl acetate extracts of T. garganica revealed a potent lipase inhibition activity, which suggests the use of these molecules as anti-obesity drugs.