Roles of adenosine receptors in Alzheimer's disease / 药学学报

As an important neurotransmitter, adenosine displays its functions by acting on the adenosine receptors. Recent studies have shown that the distribution, expression and balance among subtypes of adenosine receptors are closely related with cognitive activities, and changes of adenosine receptors play key roles in neurodegenerative disorders including Alzheimer's disease. It has been pointed out that prolonged activation of adenosine receptors by high level adenosine may lead to the disturbance of balance among adenosine receptor subtypes. This imbalance mainly performed as increased expression of A2a receptor and decreased expression of A1 receptor, and enhancement of the excitatory signals mediated by A2a receptor and weakened inhibitory signals mediated by A1 receptor. Changes of these two subtypes of adenosine receptors may lead to a lot of disorders of neurological activities which developed into dysfunction of cognition to the end. These findings imply that the potential of maintaining the balance among adenosine receptors on the treatment of AD would facilitate both the revealing of the mechanism and the cure of AD.

Advance in studies on effect of paeoniflorin on nervous system / 中国中药杂志

Paeoniflorin (PF) is the chief active component of paeonia, with diverse pharmacological actions and wide application. Recently, the effect of PF on nervous system has attracted increasingly more attention. According to current study findings, PF can ameliorate the decline of memory and learning capacities in many dementia model animals, and have effect in protecting the cerebral ischemia injury, treating Parkinson's disease, reliving pain and improving neural synapse plasticity. Thought its mechanism has not been clarified, current findings show that adenosine A1 receptor plays an important role, while M cholinergic receptor, opiate receptor, calcium ion channel and NF-KB may also play a part in paeoniflorin's effect on nervous system.

Comparison of Alzheimer's disease animal model in BALB/c and Kunming mice by intracerebroventricular injection of β-amyloid / 军事医学科学院院刊

Objective:To compare the Alzheimer's disease model in two species of mice by intracerebroventricular injection of β-amyloid peptide 25-35(Aβ_(25～35)).Method:The step down test and Morris water-maze were used to investigate the influence of the mice's learning and memorizing ability after intracerebroventricular injection of β-amyloid.Results:Normal Kunming mice and BALB/c mice had no significant difference in step down test, but the space cognitive ability of Kunming mice was better than that of BALB/c mice. The learning response in step-down test and Morris water-maze is no influence in male, female BALB/c mice and female Kunming mice. Marked differences were observed in male Kunming mice in acquisition, performance and reversal of a place learning response in a Morris water-maze.Conclusion:The male Kunming mice is much better than female Kunming mice and male, female BALB/c mice in preparing Alzheimer's disease animal model by intracerebroventricular injection of Aβ_(25～35), and is the most suitable animal in this experiment.