Effects of Effective Part of Tinospora sinensis on Hippocampus Proteomics of AD Rats Induced by Beta-amyloid Protein and D-galactose
- VernacularTitle: 宽筋藤有效部位对D-半乳糖联合Aβ25~35所致AD大鼠海马蛋白组学的影响
- Author:
Meng-Sheng SUN
1
Author Information
- Publication Type:Journal Article
- Keywords: Alzheimer's disease; Amyloid β-protein fragment2535; Hippocampus; Proteomics; Tinospora sinensis
- From: Chinese Pharmaceutical Journal 2020;55(1):19-25
- CountryChina
- Language:Chinese
- Abstract: OBJECTIVE: To investigate the effect of the 80% ethanol elution part of Tinospora sinensis macroporous resin extract on the expression of hippocampus proteome in Alzheimer′s disease (AD) model rats induced by D-galactose combined with Aβ2535. METHODS: The AD rats model replicated by D-galactose combined with Aβ2535, The AD rat model was replicated by D-galactose combined with Aβ2535, and randomly divided into sham operation group, model group, Donepezil group (donepezil, 6.0 mg•kg-1), and 80% extraction of Tinospora sinensi group (crude drug 6 g•kg-1). Donepezil group: donepezil 0.1 mL•10 g-1 ig. 80% extraction of Tinospora sinensi group: Tinospora sinensis effective part extraction 0.1 mL•10 g-1 ig. Model group and sham-operation group: physiological saline 0.1 mL•10 g-1 ig. Once a day, continuous administration for 15 d. Separating the hippocampus and extracting the protein, take the system test with nanol-ESI liquid-mass spectrometry, protein discovery software was used for identification, and qualitative analysis different groups of hippocampal proteins by SIEVE software. Take the GO analysis on differential protein with the ANTHER classification system and use IPAD to enrich the pathway. RESULTS: Compared with the model group, the drug-administered group had 66 differential proteins, including tubulin, heat shock proteins, energy metabolism-related proteins, vesicle production/transport related proteins, and brain protection-related proteins, which are closely related to AD. The above differential proteins involve a total of 21 signaling pathways. CONCLUSION: Tinospora sinensis may promote the synthesis and release of neurotransmitters by up-regulating clathrin and vesicle-forming transport and neurotransmitter release, and improve the function of cholinergic function in the brain to achieve the pathological process of AD.
