Xiaoxiao Man scite author profile

Traumatic brain injury (TBI) is a major risk factor to develop epilepsy and cognitive impairments. Neuropeptide oxytocin has been previously evidenced to produce antiepileptic effects. However, the involvement of central oxytocin in TBI-induced epileptic status and cognitive dysfunctions is not fully elucidated. In this study, we aim to investigate the role of oxytocin on a TBI model followed by seizure induction to clarify whether the epilepsy and cognitive deficits could be mitigated by oxytocin. TBI was established by weight drop and epileptic behaviors were induced by pentylenetetrazole (PTZ) injection in mice. Moreover, oxytocin was microinjected into the medial prefrontal cortex (mPFC) to observe the effects on the epilepsy and cognition. The blood–brain barrier (BBB) function and the neuroinflammation were measured by Evans Blue staining and enzyme-linked immunosorbent assays, respectively. Mice exposed to TBI demonstrate increased vulnerability to PTZ-mediated seizures and cognitive disturbances with a decrease in peripheral and brain oxytocin levels. Additionally, TBI reduces oxytocin, disrupts the BBB permeability and triggers neuroinflammation in mPFC in PTZ-treated mice. Intra-mPFC oxytocin simultaneously mitigates epilepsy and cognitive impairments. Finally, oxytocin restores BBB integrity and reduces mPFC inflammation in PTZ-treated TBI mice. These findings showed that intra-mPFC oxytocin suppressed the seizure vulnerability and cognitive deficits in TBI mice. The normalization of BBB integrity and inhibition of neuroinflammation may be involved in the antiepileptic and cognition-improved effects of oxytocin, suggesting that targeting inflammatory procedure in mPFC may decrease the risk to develop epilepsy and cognitive impairments in individuals previously experienced TBI.

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Medial prefrontal cortex oxytocin mitigates epilepsy and cognitive impairments induced by traumatic brain injury through reducing neuroinflammation in mice

Chen

Man

Yao

et al. 2022

Preprint

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Traumatic brain injury (TBI) is a major risk factor to develop epilepsy and cognitive impairments. Neuropeptide oxytocin has been previously evidenced to produce antiepileptic effects. However, the involvement of central oxytocin in TBI-induced epileptic status and cognitive dysfunctions is not fully elucidated. In this study, we aim to investigate the role of oxytocin on a TBI model followed by seizure induction to clarify whether the epilepsy and cognitive deficits could be mitigated by oxytocin. TBI was established by weight drop and epileptic behaviors were induced by pentylenetetrazole (PTZ) injection in mice. Moreover, oxytocin was microinjected into the medial prefrontal cortex (mPFC) to observe the effects on the epilepsy and cognition. The blood-brain barrier (BBB) function and the neuroinflammation were measured by Evans Blue staining and enzyme-linked immunosorbent assays, respectively. Mice exposed to TBI demonstrate increased vulnerability to PTZ-mediated seizures and cognitive disturbances with a decrease in peripheral and brain oxytocin levels. Additionally, TBI reduces oxytocin, disrupts the BBB permeability and triggers neuroinflammation in mPFC in PTZ-treated mice. Intra-mPFC oxytocin simultaneously mitigates epilepsy and cognitive impairments. Finally, oxytocin restores BBB integrity and reduces mPFC inflammation in PTZ-treated TBI mice. These findings showed that intra-mPFC oxytocin suppressed the seizure vulnerability and cognitive deficits in TBI mice. The normalization of BBB integrity and inhibition of neuroinflammation may be involved in the antiepileptic and cognition-improved effects of oxytocin, suggesting that targeting inflammatory procedure in mPFC may decrease the risk to develop epilepsy and cognitive impairments in individuals previously experienced TBI.

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Neuroprotective Role of Periplocin Against Aluminium Chloride-stimulated Alzheimer’s Disease in a Rat Model by Modulation of Oxidative Stress and Inflammation

Li¹,

Man²,

Ma³

et al. 2023

Ind. J. Pharm. Edu. Res

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Background: Alzheimer's disease is a prevalent neurodegenerative condition marked by the assembly of ß-amyloid deposits inside the brain parenchyma. Aluminium is a neurotoxin molecule that generates oxidative stress linked to various neurological disorders. Objectives: This study focused on the neuroprotective effects of periplocin, a natural compound, against aluminium chloride (AlCl 3 )-stimulated diseased rat model. Materials and Methods: Four groups of twenty-four Sprague Dawley rats were established. For four weeks, the rats in the control group I was administered NaCl. AlCl 3 was provided to the second group of rats. An hour before AlCl 3 induction, rats in groups III and IV were given periplocin (25 and 50 mg/kg) orally. The rats were behaviourally examined before euthanization and analysis of the biochemical parameters was carried out after their sacrifice. Results: The learning ability and memory were impaired, lipid oxidation (MDA) was suppressed by antioxidant regulation (Reduced glutathione, Catalase, and Superoxide dismutase), and lactate dehydrogenase, Na + K + ATPase, acetylcholinesterase, and nitric oxide activity was inhibited upon periplocin administration. Additionally, the concentrations of inflammatory regulators such as Il-1β, TNF-α, and IL-6 were suppressed. Conclusion: Thus, periplocin might be a crucial neuroprotector against the advancement of Alzheimer's disease.

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Xiaoxiao Man

Medial prefrontal cortex oxytocin mitigates epilepsy and cognitive impairments induced by traumatic brain injury through reducing neuroinflammation in mice

Medial prefrontal cortex oxytocin mitigates epilepsy and cognitive impairments induced by traumatic brain injury through reducing neuroinflammation in mice

Neuroprotective Role of Periplocin Against Aluminium Chloride-stimulated Alzheimer’s Disease in a Rat Model by Modulation of Oxidative Stress and Inflammation

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