scholarly works

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Author: search.filters.author.Adedara, I. A.Subject: search.filters.subject.Acetylcholinesterase

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    Indole-3-propionic acid mitigates chlorpyrifos-mediated neurotoxicity by modulating cholinergic and redox-regulatory systems, inflammatory stress, apoptotic responses and DNA damage in rats
    (Elsevier B.V., 2022) Owumi, S. E.; Adedara, I. A.; Oyelere, A. K.
    This study probed the neuroprotective influence of indole-3-propionic acid (IPA) in rats exposed to chlorpyrifos (CPF) alone at 5 mg/kg body weight or co-administered with IPA at 12.5 and 25 mg/kg for 14 days. Behavioral data indicated that IPA significantly (p < 0.05) abated CPF-mediated anxiogenic-like behaviors with concomitant improvement in the locomotor and exploratory behaviors as substantiated by track plots and heat maps data. Also, IPA mitigated CPF-mediated diminution in cholinergic and antioxidant defense systems whereas it mark- edly improved thioredoxin level and thioredoxin reductase activity in cerebral and cerebellar tissues of the animals. Co-administration of IPA significantly enhanced anti-inflammatory cytokine, interleukin-10 but sup- pressed oxidative and inflammatory stress, caspase-9 and caspase-3 activation with concomitant reduction in 8- hydroxy-2'-deoxyguanosine (8-OHdG) level and histological damage. Collectively, IPA-mediated neuro- protection involves modulation of cholinergic and redox-regulatory systems, inflammatory stress, apoptotic re- sponses and DNA damage in cerebrum and cerebellum of rats.
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    Kolaviron via anti-inflammatory and redox regulatory mechanisms abates multi-walled carbon nanotubes-induced neurobehavioral deficits in rats
    (Springer-Verlag GmbH, 2020) Adedara, I. A.; Awogbindin, I. O.; Owoeye, O.; Maduako, I. C.; Ajeleti, A. O.; Owumi, S. E.; Patlola, A. K.; Farombi, E. O.
    Exposure to multi-walled carbon nanotubes (MWCNTs) reportedly elicits neurotoxic effects. Kolaviron is a phytochem- ical with several pharmacological effects namely anti-oxidant, anti-inflammatory, and anti-genotoxic activities. The present study evaluated the neuroprotective mechanism of kolaviron in rats intraperitoneally injected with MWCNTs alone at 1 mg/kg body weight or orally co-administered with kolaviron at 50 and 100 mg/kg body weight for 15 consecutive days. Following exposure, neurobehavioral analysis using video-tracking software during trial in a novel environment indicated that co-administration of both doses of kolaviron significantly (p < 0.05) enhanced the locomotor, motor, and exploratory activities namely total distance traveled, maximum speed, total time mobile, mobile episode, path efficiency, body rotation, absolute turn angle, and negative geotaxis when compared with rats exposed to MWCNTs alone. Further, kolaviron markedly abated the decrease in the acetylcholinesterase activity and antioxidant defense system as well as the increase in oxidative stress and inflammatory biomarkers induced by MWCNT exposure in the cerebrum, cerebellum, and mid-brain of rats. The amelioration of MWCNT-induced neuronal degeneration in the brain structures by kolaviron was verified by histological and morphometrical analyses. Taken together, kolaviron abated MWCNT-induced neurotoxicity via anti-inflammatory and redox regulatory mechanisms.
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    Nigral and ventral tegmental area lesioning induces testicular and sperm morphological abnormalities in a rotenone model of Parkinson’s disease
    (Elsevier B.V., 2020) Awogbindin, I. O.; Adedara, I. A.; Adeniyi, P. A.; Agedaha, A. E.; Oyetunde, B. F.; Olorunkalu, P. D.; Ogbuewua, E.; Akindoyeni, I. A.; Mustapha, Y. E.; Ezekiel, O. G.; Farombi, E. O.
    Although sexual health is affected by Parkinson’s disease (PD), the effect on testicular health and/or sperm quality is not well discussed. After 21 days of rotenone lesioning, we observed dopaminergic neuronal degeneration in the substantia nigra and hypothalamus. There were minimal SPACA-1-expressing epididymal spermatozoa with morphological abnormalities, scanty luminal spermatozoa and reduced testicular spermatids and post-meiotic germ cells indicating hypospermatogenesis. Occludin-expressing sertoli cells were dispersed over a wide area indicating compromised blood-testes barrier. Activated caspase-3 expression was intense while immunoreactivity of spermatogenic-enhancing SRY and GADD45 g was weak. Although serum follicle stimulating hormone level was not affected, the lesion was associated with reduced serum testosterone level, testicular oxidative damage and inhibition of acetylcholinesterase activity, even when rotenone was not detected in the testes. Together, dopaminergic lesions may mediate testicular and sperm abnormalities via the brain-hypothalamic- testicular circuit independent of the pituitary, thereby establishing a causal link between Parkinsonism and reproductive dysfunction.
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    Neuroprotective mechanisms of selenium against arsenic-induced behavioral impairments in rats
    (Elsevier B.V., 2020) Adedara, I. A.; Fabunmi, A. T.; Ayenitaju, A. C.; Atanda, O. E.; Adebowale, A. A.; Ajayi, B. O.; Rocha, J. B. T.; Owoeye, O.; Farombi, E. O.
    Environmental pollution due to arsenic is associated with several adverse health effects including neurotoxicity in animals and humans. Selenium is a nutritionally essential trace metalloid well documented to elicit com- pelling pharmacological activities in vitro and in vivo. Report on the influence of selenium on arsenic-mediated behavioral derangement is lacking in literature. Hence, to fill this knowledge gap, rats were either exposed to arsenic per se in drinking water at 60 pg AsO2Na/L or co-administered with inorganic selenium at 0.25 mg/kg or organic selenium diphenyl diselenide (DPDS) at 2.5 mg/kg body weight for 45 successive days. Neurobehavioural data from rats in a new environment using video-tracking software evinced that inorganic and organic forms of selenium significantly (p < 0.05) abrogated arsenic-induced motor and locomotor in- sufficiencies such as increased negative geotaxis and fecal pellets numbers as well as the diminution in grip strength, body rotation, maximum speed, absolute turn angle and total distance travelled. The augmentation in the behavioral activities in rats co-administered with arsenic and both forms of selenium was substantiated using track and occupancy plots analyses. Selenium mitigated arsenic-induced decreases in glutathione level and acetylcholinesterase activity as well as the increase in oxidative stress and reactive oxygen and nitrogen species. Moreover, selenium diminished inflammatory parameters (myeloperoxidase activity, nitric oxide, tumour ne- crosis factor alpha and interleukin-1 beta levels), caspase-3 activity and ameliorated histological lesions in the cerebellum, cerebrum and liver of the rats. Collectively, selenium abated arsenic-induced behavioral derange- ments via anti-inflammation, antioxidant and anti-apoptotic mechanisms in rats.
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    Neuroprotective influence of taurine on fluoride-induced biochemical and behavioral deficits in rats
    (Elsevier Ireland Ltd., 2017) Adedara, I. A.; Abolaji, A. O.; Idris, U. F.; Olabiyi, B. F.; Onibiyo, E. M.; Ojuade, T. D.; Farombi, E. O.
    Epidemiological and experimental studies have demonstrated that excessive exposure to fluoride induced neurodevelopmental toxicity both in humans and animals. Taurine is a free intracellular b- amino acid with antioxidant and neuroprotective properties. The present study investigated the neu- roprotective mechanism of taurine by evaluating the biochemical and behavioral characteristics in rats exposed to sodium fluoride (NaF) singly in drinking water at 15 mg/L alone or orally co-administered by gavage with taurine at 100 and 200 mg/kg body weight for 45 consecutive days. Locomotor behavior was assessed using video-tracking software during a 10-min trial in a novel environment while the brain structures namely the hypothalamus, cerebrum and cerebellum of the rats were processed for biochemical determinations. Results showed that taurine administration prevented NaF-induced loco- motor and motor deficits namely decrease in total distance travelled, total body rotation, maximum speed, absolute turn angle along with weak forelimb grip, increased incidence of fecal pellets and time of grooming, immobility and negative geotaxis. The taurine mediated enhancement of the exploratory profiles of NaF-exposed rats was supported by track and occupancy plot analyses. Moreover, taurine prevented NaF-induced increase in hydrogen peroxide and lipid peroxidation levels but increased acetylcholinesterase and the antioxidant enzymes activities in the hypothalamus, cerebrum and cere- bellum of the rats. Collectively, taurine protected against NaF-induced neurotoxicity via mechanisms involving the restoration of acetylcholinesterase activity and antioxidant status with concomitant inhi- bition of lipid peroxidation in the brain of rats.
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    Quercetin improves neurobehavioral performance through restoration of brain antioxidant status and Acetylcholinesterase activity in Manganese-treated rats
    (Springer Science+Business Media, 2017) Adedara, I. A.; Ego, V. C.; Subair, T. I.; Oyediran, O.; Farombi, E. O.
    The present study investigated the neuroprotective mechanism of quercetin by assessing the biochemical and behavioral characteristics in rats sub-chronically treated with manganese alone at 15 mg/kg body weight or orally co-treated with quercetin at 10 and 20 mg/kg body weight for 45 consecutive days. Locomotor behavior was monitored using video-tracking software during a 10-min trial in a novel environment whereas the brain regions namely the hypothalamus, cerebrum and cerebellum of the rats were processed for biochemical analyses. Results indicated that co-treatment with quercetin significantly (p < 0.05) prevented manganese-induced locomotor and motor deficits specifically the decrease in total distance travelled, total body rotation, maximum speed, absolute turn angle as well as the increase in time of immobility and grooming. The improvement in the neurobehavioral performance of manganese-treated rats following quercetin co-treatment was confirmed by track and occupancy plot analyses. Moreover, quercetin assuaged manganese-induced decrease in antioxidant enzymes activities and the increase in acetylcholinesterase activity, hydrogen peroxide generation and lipid peroxidation levels in the hypothalamus, cerebrum and cerebellum of the rats. Taken together, quercetin mechanisms of ameliorating manganese-induced neurotoxicity is associated with restoration of acetylcholinesterase activity, augmentation of redox status and inhibition of lipid peroxidation in brain of rats.