Pharmacoinformatics studies of coenzyme Q10 and potassium polyacrylate on angiotensin-converting enzyme associated with hypertension.

Coenzyme Q10's (CoQ10) favorable impact on cardiovascular diseases risk factors like hypertension and atherosclerosis is linked to the antioxidant action of CoQ10 in these conditions. This study showed the possible effects of CoQ10, potassium polyacrylate (PCK), and valsartan, a reference drug, on the angiotensin-converting enzyme (ACE), a crucial component of the renin-angiotensin system. The Glide tool on Maestro 11.1 was used to calculate the respective binding affinity and binding energy of these compounds towards ACE. The Schrödinger suite was used to run molecular dynamic simulations for 100 ns. The pkCSM tool was used to forecast the pharmacokinetic characteristics and toxicological effects. The SwissADME server was used to estimate the drug-like properties of these compounds. Based on their corresponding scoring values and the negative values of the binding free energies, molecular docking analysis of CoQ10 and PCK revealed that both exhibited favorable binding affinities towards the ACE, with CoQ10 having the highest binding scores. The results showed that both CoQ10 and PCK and the reference drug, valsartan, have some amino acids in common (at the pocket site of ACE) as the key residues for binding to ACE. Both CoQ10 and PCK demonstrated drug-like qualities and were not harmful, according to the predicted pharmacokinetics and toxicology studies. The results of this study suggest that because of its inhibitory interactions with ACE, CoQ10 in particular could be useful in regulating and reducing hypertension.Communicated by Ramaswamy H. Sarma.

Modulation of mitochondrial permeability transition pore opening by Myricetin and prediction of its-drug-like potential using in silico approach.

Myricetin has been demonstrated to have multiple biological functions with promising research and development prospects. This study investigated the effect of myricetin on liver mitochondrial membrane permeability transition pores and its inhibitory potential on proteins that are important in the apoptotic process in silico. Mitochondrial swelling was assessed as changes in absorbance under succinate-energized conditions. Cytochrome c release, mitochondrial-lipid peroxidation, caspase 3 and 9 expressions, as well as calcium ATPase, were assessed. Pharmacokinetic properties of myricetin were predicted through the SwissADME server while the binding affinity of myricetin toward the proteins was computed using the AutodockVina Screening tool. The conformational stability of protein-ligand interactions was evaluated using molecular dynamics simulations analysis through the iMODS server. Myricetin inhibited the opening of the mitochondrial permeability transition pore and also reversed the increase in mitochondrial lipid peroxidation caused by calcium and other toxicants. Myricetin also caused a reduction in the expression of caspase 3 and 9 as well as calcium ATPase activity. The molecular docking results revealed that myricetin had a considerable binding affinity to the pocket site of caspase 3 and 9 as well as calcium ATPase. Myricetin showed a good drug-likeness based on the predicted pharmacokinetic properties as revealed by low CYP 450 inhibitory promiscuity and relatively low toxicity. It could therefore be suggested that myricetin could be useful in the management of diseases where too many apoptosis occur characterized by excessive tissue wastage such as neurodegenerative conditions and could as well play a role in protecting the physicochemical properties of membrane bilayers from free radical-induced severe cellular damage.

Modulatory Potential of Citrus sinensis and Moringa oleifera Extracts and Epiphytes on Rat Liver Mitochondrial Permeability Transition Pore.

BACKGROUND: Bioactive agents from medicinal and dietary plants have been reported to modulate the mitochondrial membrane permeability transition pores. OBJECTIVE: This study investigated the in vitro effects of C. sinensis (CSE) and M. oleifera (MOE) methanol leaf extracts and their epiphytes (CEP and MEP) on mitochondria permeability transition pores. METHODS: In vitro antioxidant activities of the extracts were determined using standard procedures and quantification of polyphenolic compounds in the extract was done using HPLC-DAD. Opening of the mitochondrial permeability transition pores was assessed as mitochondrial swelling and observed spectrophotometrically as changes in absorbance under succinate-energized conditions. Cytochrome c release was also assessed spectrophotometrically. RESULTS: From the results, CSE, MOE, CEP, and MEP inhibited lipid peroxidation and scavenged nitric oxide and DPPH radicals in a concentration-dependent manner. All extracts exhibited greater ferric reducing antioxidant potential. More so, the results showed that CSE, MOE, CEP, and MEP possess the substantive amount of total flavonoids and total phenolics. CSE and MOE had higher total flavonoids and total phenolic content when compared with the epiphytes. HPLC-DAD results revealed Tangeretin as the most abundant in CSE; Eriocitrin in citrus epiphytes; Moringine in MOE and Flavones in moringa epiphytes. All extracts inhibited calcium-induced opening of the pores in a concentration- dependent manner, with C. sinensis leaf extract (CSE) and moringa epiphyte (MEP) being the most potent in this regard with no significant release of cytochrome c at all concentrations. CONCLUSION: The results suggest that CSE and MEP have bioactive agents, which could be useful in the management of diseases where too much apoptosis occurs characterized by excessive tissue wastage, such as neurodegenerative conditions.

An intensive follow-up in subjects with cardiometabolic high-risk.

BACKGROUND AND AIM: Addressing chronic problems requires a model of care that promotes self-management of the disease and facilitates adherence to treatment. This project was designed to enhance patient's clinical and functional outcomes through a Comprehensive Model to be implemented in our health system and to evaluate the results. METHODS AND RESULTS: Different population stratification tools were tested and designed to classify subjects according to different variables. We have developed a program to detect and screen cardiometabolic risk by integrating most of the Chronic Care Model recommendations through in-house developed management software (MoviHealth®). From the results, 1317 subjects were evaluated (27% of the whole population) during the first year of follow-up which significantly improved for all variables along the follow-up period. The blood pressure of the hypertensive population in 2010 and 2015 showed the importance of enrollment of subjects and the optimization of the blood pressure control. The result of HbA1c observed in 2010 decreased progressively to 7.1 ± 1.4% in 2015, and dyslipidemia levels improved gradually. The number of cardiovascular events requiring hospitalization decreased significantly (48%), from 1.9 events per 100 subjects in 2011 to 0.98 in 2015. CONCLUSION: Our program has combined strategies for the prevention and control of non-communicable diseases, incorporating interventions to control risk factors and to reduce morbidity and mortality. It also had improvements in life quality, accessibility to health-care services, and the promotion of self-care.

Repurposing of chloroquine and some clinically approved antiviral drugs as effective therapeutics to prevent cellular entry and replication of coronavirus.

The reemergence of coronavirus prompts the need for the development of effective therapeutics to prevent the cellular entry and replication of coronavirus. This study demonstrated the putative inhibitory potential of lopinavir, remdesivir, oseltamir, azithromycin, ribavirin, and chloroquine towards V-ATPase, protein kinase A, SARS-CoV spike glycoprotein/ACE-2 complex and viral proteases. The pharmacodynamic and pharmacokinetic properties were predicted through the pkCSM server while the corresponding binding affinity of the selected drugs towards the proteins was computed using AutodockVina Screening tool. The ADMET properties revealed all the drugs possess drug-like properties. Lopinavir has the highest binding affinities to the pocket site of SARS-CoV spike glycoprotein/ACE-2 complex, cyclic AMP-dependent protein kinase A and 3-Chymotrypsin like protease while redemsivir has the highest binding affinities for vacuolar proton-translocating ATPase (V-ATPase) and papain-like proteins. The amino acids Asp269, Leu370, His374, and His345 were predicted as the key residues for lopinavir binding to human SARS-CoV spike glycoprotein/ACE-2 complex while His378, Tyr515, Leu73, Leu100, Phe32 and Phe40 for remdesivir and Tyr510, Phe504, Met62, Tyr50, and His378 were predicted for azithromycin as the key residues for binding to SARS-CoV spike glycoprotein/ACE-2 complex. Moreover, it was also observed that chloroquine has appreciable binding affinities for 3-Chymotrpsin- like protease and cyclic AMP-dependent protein kinase A when compared to Oseltamivir and ribavirin. The study provided evidence suggesting putative repurposing of the selected drugs for the development of valuable drugs for the prevention of cellular entry and replication of coronavirus.Communicated by Ramaswamy H. Sarma.

Molecular docking analysis of apigenin and quercetin from ethylacetate fraction of Adansonia digitata with malaria-associated calcium transport protein: An in silico approach.

BACKGROUND: The investigation and knowledge of calcium handling mechanisms in the plasmodium has been considered as a potential biological target against malaria. OBJECTIVE: This study deals with the evaluation of inhibitory activity of secondary metabolites of ethylacetate partitioned-fraction of Adansonia digitata stem bark extract on malaria-associated protein using in silico docking studies. MATERIALS AND METHODS: Molecular docking and virtual screening was performed to understand the mechanism of ligand binding and to identify potent calcium transporter inhibitors. The stem bark extracts of A. digitata contains rich sources of phytochemicals. The secondary metabolites were determined by HPLC-DAD and HRGC-MS analysis. The major chemical constituent present in the ethylacetate partitioned-fraction of A. digitata stem bark extract were examined for their antiplasmodial activity and were also involved in docking study. RESULTS: The secondary metabolites, quercetin and apigenin inhibited the formation of ß-hematin. The results showed that all the selected compounds in the A. digitata showed binding energy ranging between -6.5 kcal/mol and -7.1 kcal/mol. Among the two chemical constituents, apigenin has the highest docking score along with the highest number of hydrogen bonds formed when compared to quercetin. Analysis of the results suggests that apigenin and quercetin could act as an anti-malaria agent. CONCLUSION: Molecular docking analysis could lead to further development of potent calcium transporter inhibitors for the prevention and treatment of malaria and related conditions.

Inhibition of liver mitochondrial membrane permeability transition pore opening by quercetin and vitamin E in streptozotocin-induced diabetic rats.

Diabetes mellitus is a chronic metabolic disorder characterized by rise in blood glucose levels and generation of free radicals which could induce mitochondrial membrane permeability transition (MMPT) pore opening. This study examined the in vivo action of quercetin and vitamin E on MMPT in the liver of streptozotocin-induced diabetic rats orally pre-treated with 30 mg quercetin/kg body weight (STZQ), 10 mg vitamin E/kg body weight (STZVit.E) and 0.6 mg glibenclamide/kg body weight (STZG). Male albino wistar rats were used in the study and were injected intraperitonially with streptozotocin (STZ) (45 mg/kg body weight) in citrate buffer. The degrees of serum and tissue peroxidation, alanine and aspartate aminotransferase activity were investigated. MMPT pore was assessed as mitochondrial swelling and was monitored spectrophotometrically as changes in absorbance at 540 nm under succinate-energized condition. There was significant increase in serum glucose level, degree of tissue peroxidation, alanine and aspartate aminotransferase activity, cholesterol and triglycerides values in the diabetic control rats following streptozotocin induction. All the treatment had effect on the damage caused by streptozotocin. Quercetin exhibited the highest chemopreventive activity. Quercetin and vitamin E significantly reduced the blood glucose level, degree of tissue peroxidation and alanine and aspartate amino transferase activity. In vivo rat liver MMPT pore was opened in diabetic control rats and significantly inhibited in STZQ, STZV and STZG treated groups by 72.3%, 58.5% and 87.5% respectively. The activity of quercetin and vitamin E were substantiated by histopathological evaluation. Our study suggests that quercetin is an effective therapeutic agent for preventing hepatic tissues from oxidative stress resulting from streptozotocin-induced diabetes by inhibiting apoptotic processes in their target cells.