Your search keyword '"Asogwa, Nnaemeka"' showing total 6 results

1. Phylogenic analysis of coronavirus genome and molecular studies on potential anti-COVID-19 agents from selected FDA-approved drugs

Author

Ishola, Ahmed A., Adewole, Kayode E., Tijjani, Habibu, Abdulai, Suliat I., and Asogwa, Nnaemeka T.

Abstract

AbstractThe emergence of 2019 novel Coronavirus (COVID-19 or 2019-nCoV) has caused significant global morbidity and mortality with no consensus specific treatment. We tested the hypothesis that FDA-approved antiretrovirals, antibiotics, and antimalarials will effectively inhibit COVID-19 two major drug targets, coronavirus nucleocapsid protein (NP) and hemagglutinin-esterase (HE). To test this hypothesis, we carried out a phylogenic analysis of coronavirus genome to understand the origins of NP and HE, and also modeled the proteins before molecular docking, druglikeness, toxicity assessment, molecular dynamics simulation (MDS) and ligand-based pharmacophore modeling of the selected FDA-approved drugs. Our models for NP and HE had over 95% identity with templates 5EPW and 3CL5 respectively in the PDB database, with majority of the amino acids occupying acceptable regions. The active sites of the proteins contained conserved residues that were involved in ligand binding. Lopinavir and ritonavir possessed greater binding affinities for NP and HE relative to remdesivir, while levofloxacin and hydroxychloroquine were the most notable among the other classes of drugs. The Root Mean Square Deviation (RMSD), Root Mean Square Fluctuation (RMSF), Radius of gyration (Rg), and binding energy values obtained after 100 ns of MDS revealed good stability of these compounds in the binding sites of the proteins while important pharmacophore features were also identified. The study showed that COVID-19 likely originated from bat, owing to the over 90% genomic similarity observed, and that lopinavir, levofloxacin, and hydroxychloroquine might serve as potential anti-COVID-19 lead molecules for additional optimization and drug development for the treatment of COVID-19.Communicated by Ramaswamy H. Sarma

Published

2022

2. Dipeptidyl Peptidase-4 Inhibitor Sitagliptin Exhibits Antioxidant Mechanism for Abrogation of Cyclophosphamide-Induced Cardiac Damage and Oxidative Hepatorenal Toxicity in Rats

Author

Famurewa, Ademola C., Aja, Patrick M., Medewase, John O., Abi, Innocent, Ogbonna, Okoro C., Ofor, Casimir C., Nwonuma, Charles O., Asogwa, Nnaemeka T, and Erejuwa, Omotayo O.

Published

2022

3. GC–MS analysis of Moringa oleiferaleaf extract and effects of administration on histology of reproductive organs and liver of female rats exposed to chronic unpredictable stress

Author

Chukwu, Odochi O., Iyare, Cordilia O., Emelike, Chinedum U., Ezimah, Anthony C.U., Asogwa, Nnaemeka T, and Konyefom, Nwaeze G.

Abstract

•Chromatogram of the GC–MS analysis carried out for the identification of the phytochemicals present in the MOLE indicated presence of 41 compounds.•Main compounds were steroidal fatty acids methyl ester, such as hexadecanoic acid, methyl ester with possible estrogenic bioactivities.•Photomicrograph examination of sections of uterus, ovaries, and liver in group Two, group three and group four showed severe alterations in histology of the tissues.

Published

2024

4. Modulatory effect of cashew (AnacardiumoccidentaleL.) nut supplemented diet on fertility activity of clomiphene citrate in male rats

Author

Akomolafe, Seun Funmilola, Aina, Babatunde, Bajulaye, Jumoke, Ogundare, Iyadunni, Olulade, Damola, Adeniji, Rebecca, Fatuase, Faith, Olojo-Kosoko, Ayomide, Ganiyu, Oboh, and Asogwa, Nnaemeka Tobechukwu

Abstract

Increasing concern has been expressed about the declining sperm count of humans and the potential fertility effects of clomiphene citrate, a synthetic oestrogen-antagonist on human reproductive health in the last few decades. This study aims to investigate the influence of cashew nut supplemented diet on fertility activity of clomiphene citrate in male rats.

Published

2021

5. Nephroprotective Effect of Moringa OleiferaSeed Oil on Gentamicin-Induced Nephrotoxicity in Rats: Biochemical Evaluation of Antioxidant, Anti-inflammatory, and Antiapoptotic Pathways

Author

Edeogu, C. O., Kalu, Michael E., Famurewa, Ademola C., Asogwa, Nnaemeka T., Onyeji, Gertrude N., and Ikpemo, Kelechi O.

Abstract

AbstractObjective:Gentamicin is an efficacious aminoglycoside antibiotic widely used to treat life-threatening Gram-negative bacteria infections. However, its specific non-targeted induction of nephrotoxicity is a worrying clinical challenge. The study explored the nephroprotective effect of Moringa oleiferaseed oil (MOO) against gentamicin-induced oxidative nephrotoxicity, pro-inflammation, and apoptosis in male Wistar rats.Method:Twenty-four rats divided into 4 groups (n = 6) were administered MOO (5 ml/kg) for 16 days and/or gentamicin (100 mg/kg bw/d, ip) injected from day 11 to day 16. The renal antioxidant enzyme activities reduced glutathione, lipid peroxidation, and serum renal markers. Urea and creatinine levels were estimated. The renal expression of interleukin-1β (IL-1β), interleukin-6 (IL-6), tumor necrosis factor-α (TNF-α), and nitric oxide (NO) were determined. Renal levels of inducible nitric oxide synthase (iNOS), nuclear factor-ĸB (NF-ĸB), and caspase-3 were determined to detect possible mechanism of inflammation and apoptosis with histology.Results:MOO prominently reduced serum creatinine and urea levels with amelioration of histopathological abrasions induced by gentamicin (GM). It significantly depressed oxidative stress through lowering of renal malondialdehyde (MDA) and elevation of renal superoxide dismutase (SOD), catalase (CAT), glutathione peroxidase (GPx) activities, and reduced glutathione (GSH) level. MOO restored renal content of IL-1β, IL-6, TNF-α, and NO, coupled with the mechanistic downregulation of NF-ĸB, iNOS, and caspase-3 activities. The histopathological alterations were ameliorated by MOO.Conclusions:MOO possesses marked nephroprotective effect against GM-induced renal damage via modulating oxidative stress, inflammation, and apoptosis in Wistar rats.

Published

2020

6. Cerebellar Molecular and Cellular Characterization in Rat Models of Alzheimer's Disease: Neuroprotective Mechanisms of GarciniaBiflavonoid Complex

Author

Olajide, Olayemi Joseph, Ugbosanmi, Anita Temi, Enaibe, Bernard Ufuoma, Ogunrinola, Kehinde Yomi, Lewu, Susan Folashade, Asogwa, Nnaemeka Tobechukwu, Akapa, Tosan, Imam, Aminu, Ibrahim, Abdulmumin, Gbadamosi, Ismail Temitayo, and Yawson, Emmanuel Olusola

Abstract

Background:Recent evidences suggest that cerebellar degeneration may be associated with the development of Alzheimer's disease (AD). However, previous reports were mainly observational, lacking substantial characterization of cellular and molecular cerebellar features during AD progression. Purpose:This study is aimed at characterizing the cerebellum in rat models of AD and assessing the corresponding neuroprotective mechanisms of Garciniabiflavonoid complex (GBc). Methods:Male Wistar rats were grouped and treated alone or in combination with PBS (ad libitum)/day, corn oil (CO; 2 mL/kgBw/day), GBc (200 mg/kgBw/day), sodium azide (NaN3) (15 mg/kgBw/day) and aluminium chloride (AlCl3) (100 mg/kgBw/day). Groups A and B received PBS and CO, respectively; C received GBc; D received NaN3; E received AlCl3; F received NaN3then GBc subsequently; G received AlCl3then GBc subsequently; H received NaN3and GBc simultaneously while I received AlCl3and GBc simultaneously. Following treatments, cerebellar cortices were processed for histology, immunohistochemistry and colorimetric assays. Results:Our data revealed that cryptic granule neurons and pyknotic Purkinje cell bodies (characterized by short dendritic/axonal processes) correspond to indistinctly demarcated cerebellar layers in rats treated with AlCl3and NaN3. These correlates, with observed hypertrophic astrogliosis, increased the neurofilament deposition, depleted the antioxidant system-shown by expressed superoxide dismutase and glutathione peroxidase, and cerebellar glucose bioenergetics dysfunction-exhibited in assayed lactate dehydrogenase and glucose-6-phosphate dehydrogenase. We further showed that GBc reverses cerebellar degeneration through modulation of neurochemical signaling pathways and stressor molecules that underlie AD pathogenesis. Conclusion:Cellular, molecular and metabolic neurodegeneration within the cerebellum is associated with AlCl3and NaN3-induced AD while GBc significantly inhibits corresponding neurotoxicity and is more efficacious when pre-administered.

Published

2017