Browsing by Author "Sunday, Dare S."
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- ItemCREB Protein Expressed Differently in the Frontal Cortices of Datura stramonium Treated Rats: Implication for Addiction and Neurodegeneration(Scientific Research Publishing, 2016-05) Ekanem, Peter E.; Sunday, Dare S.; Gaim, KidanemariamBackground: cAMP response element-binding protein (CREB) is one of the cellular transcription factors found in neurons. CREB is also important for the survival of neurons, and has an important role in the development of drug addiction. Datura stramonium (DS) is a tropical ubiquitous plant commonly used to increase the intoxication of certain beverages for recreational purposes. The seeds of this plant are very toxic and may produce addiction on prolong usage. This research investigated the effects of administration of high doses of DS seeds on the expression of CREB protein in both male and female rats’ frontal cortices and its implication in addiction and neurodegeneration. Materials and Methods: The study was conducted with a total of 24 male and female Wistar rats weighing 200 g - 250 g. The rats were divided into three groups of 8 rats each. Each group was further divided into four sub-groups of 2 rats each. Ethanolic dried seed extract of DS was diluted in normal saline and administered intraperitoneally (i.p.) to the treatment groups. The treated sub-groups received 750 mg/kg of DS extract once in group 1, twice in group 2 and thrice in group 3 daily for 4 weeks respectively, while the control sub-groups received i.p. normal saline concurrently for the same duration of time. The rats were euthanized and an analysis of variance (ANOVA) was computed to detect a significant main difference of DS effect on CREB expression for each group, while post hoc Bonferroni Test compared CREB protein expression between male and female groups. Result: There were significant differences in the expression of CREB protein between the sub-groups and between the male and female rats of treated sub-group (p < 0.05) compared to the controls. There was a decrease in the female treated sub-groups and an increase in the male treated sub-groups compared to the respective controls. Conclusion: Highdoses of DS administration for a prolong time may affect the expressions of CREB protein differently in male and female treated rats which may consequently lead to addiction and neuro degeneration affecting frontal cortex neurons.
- ItemHippocampal pyramidal cell degeneration and changes in CREB protein in Datura stramonium treated rats(American Journal of Neuroscience, 2015-09-11) Sunday, Dare S.Datura Stramonium (DS) is a tropical shrub which is available worldwide. It has various uses and is often used to increase the intoxication of certain beverages. The seeds of this plant are very toxic but are commonly smoked in like manner as tobacco. The present study investigated the potential harmful effects of DS on pyramidal cells and CREB protein in the hippocampus of Wistar rats in order to further elucidate the effects of DS seed extract on hippocampal structure. The study was conducted on both male and female Wistar rats (200-250 g). They were first divided into three batches, which were further sub-divided into four groups in each batch with eight animals per group. Ethanolic extract of dried seeds of DS was diluted in normal saline and given to the treatment groups. The treated groups received intraperitoneal administration (i.p.) of 750 mg kg−1 (Bania et al., 2004) of diluted DS seed extracts, once in batch 1, twice in batch 2 and thrice in batch 3 per day respectively for 4 weeks while the control groups received an equivalent of normal saline. The rats were euthanized and Western blot analysis used to evaluate the levels of CREB protein in the rats’ hippocampi. Sections of each hippocampus were histologically processed in all the groups and silver impregnation stain for degenerating axons and neurons was used to elucidate the actions of DS on the pyramidal neurons of the hippocampus. The result of i.p. administration of DS extract (750 mg kg−1) given three times per day to the treated rats showed significant histological changes such as axonal atrophy, cytoplasmic vacuolation and neuronal necrosis of the pyramidal cells of the hippocampus, as well as an increase in CREB protein levels in both male and female rats. Excessive ingestion of DS seeds, therefore, may lead to hippocampal pyramidal cell losses and an increase in CREB protein levels in the hippocampus. This may be implicated in neurological disorders.
- ItemSelective effects of Datura Stramonium on the granular parallel fibres and purkinje cells of the cerebellum in Wistar rats(International Journal of Anatomy and Research, 2015) Sunday, Dare S.Introduction: Datura stramonium (DS) is a tropical ubiquitous shrub which is often used to increase intoxication in some beverages and is also freely used as a hallucinogen. It is a depressant of the central nervous system, yet commonly smoked in like manner tobacco. The present study investigated changes induced by intoxication with DS on the purkinje cells and parallel fibres of the cerebellum in Wistar rats to further elucidate the effects of this drug on cerebellar structure. Materials and Methods: The study was conducted on both male and female Wistar rats (200-250 g). They were placed into three batches and four groups were derived from each batch, with eight animals per group. Ethanolic dried seed extract of DS was diluted in normal saline and administered intraperitoneally (I.P.) at a dose of 750mg/kg and given to the treatment groups: once in batch 1, twice in batch 2, twelve hourly and thrice in batch 3, eight hourly per day respectively for 4 weeks, while the control groups received an equivalent of normal saline. The rats were euthanized and sections of the cerebellum were histologically processed in all groups. Silver impregnation stain for degenerating axons and neurons was used to elucidate the actions of DS on purkinje cells and the parallel fibres of the cerebellum. Results: The result of IP administration of DS extract (750 mg/kg) given three times daily to the treated rats showed significant histological changes, which included atrophy of the parallel fibres but no significant changes in the purkinje cells of the cerebellum. Conclusions: Intoxication of DS seed as a result of excessive ingestion may have a selective degenerative effect on the parallel fibres of the granule cells of the cerebellum while the purkinje cells are spared; the implication being motor dysfunction.