Objective To investigate the altered expression of muscarinic receptor 2 (M_2 receptor) in the pedunculopontine nucleus (PPN) of Parkinson's disease (PD) model rat by immunocytochemical technique and explore the role of M_2 receptor in etiopathogenesis and pathophysiological changes of PD. Methods Sixteen healthy SD rats were divided randomly into two groups. Rat monoclonal antibody against the M_2 receptor was used. Then we used positive cell counting and optical density as indicators to analyze the altered expression of M_2 receptor in PPN of PD model rats. Results The counting of M_2 receptor positive cells in the PPN was not obviously changed in normal rats and the unlesioned side of PD rats (P>0.05), whereas a significant decrease was observed when compared to that in normal rats and the lesioned side of PD rats, respectively (P<0.05). However, the positive intensity in the three groups did not differ significantly. Conclusion The results indicate that there was a degenerative death or receptor loss of M_2 receptor positive cells in the lesioned PPN of PD rats. The expression intensity of M_2 receptor positive cells without degenrative death or receptor loss was not affected. It was also found that the factor affecting the change of M_2 receptor positive cells in the PPN involved only one side.

Objective To investigate changes in the firing activities of nucleus accumbens (NAc)neurons and their response to 5-HT7 receptor stimulation in a rat model of Parkinson’s disease (PD).Methods The firing activities and response of NAc neurons to 5-HT7 receptor agonist in PD rats were recorded by in vivo electroneurophysiology and neuropharmacology and then were compared with those in the sham group.Results The mean firing rate of NAc neurons was (5.46 ±0.88)Hz in the sham rats and (3.77 ±0.48)Hz in the PD rats. The firing rate of NAc neurons increased significantly compared with that in the sham rats (P <0.05).In PD rats, 65% of NAc neurons fired in bursts and 35% fired irregularly.However,in the sham rats,57.5% of NAc neurons fired in bursts and 42.5% fired irregularly.There was no significant difference in the firing pattern of NAc neurons between the PD and sham rats (P >0.05 ).Systemic administration of 5-HT7 receptor agonist AS1 9 increased the firing rate of NAc neurons in the sham and PD rats.This excitation was significant at a high dose of 1 60 μg/kg for NAc neurons in the sham rats (P <0.05).However,the excitation produced by AS1 9 was significant at a high dose of 80 μg/kg in PD rats (P <0.05).The cumulative dose-produced excitation in the PD rats was lower than that in the sham rats.The effects induced by AS1 9 were reversed by the 5-HT7 receptor antagonist SB269970 in both groups.Conclusion The reinforced firing activity of NAc neurons might be mediated by 5-HT7 receptor in the neurons of PD rats.

[摘 要] 目的：探究雷公藤甲素（TPL）通过miR-34b-5p调控Notch1表达对骨肉瘤U2OS细胞铁死亡影响的机制。方法：常规培养U2OS细胞，将其分为对照组、TPL（10 μmol/L）组、TPL（10 μmol/L）+Fer-1（铁死亡抑制剂，20 μmol/L） 组、miR-NC组、miR-34b-5p组、miR-34b-5p+Fer-1（20 μmol/L）组、TPL（10 μmol/L）+anti-miR-34b-5p组、anti-miR-34b-5p+Fer-1（20 μmol/L）组。qPCR法、CCK-8法、铁离子检测试剂、DHE-荧光探针和WB法分别检测各组U2OS细胞中miR-34b-5p的表达、增殖能力、Fe2+水平、ROS水平以及铁死亡相关蛋白（GPX4、SLC7A11及Notch1蛋白）的表达，双萤光素酶报告基因实验验证miR-34b-5p与Notch1的靶向结合关系。结果： TPL可促进U2OS细胞中miR-34b-5p表达，Fer-1和anti-miR-34b-5p则抑制miR-34b-5p的表达（均P<0.05）。TPL明显抑制U2OS细胞的增殖、GPX4、SLC7A11、Notch1蛋白的表达、增加细胞中Fe2+和ROS的含量，Fer-1可逆转TPL对U2OS细胞的作用（均P<0.05）。过表达miR-34b-5p与TPL对U2OS细胞的作用相似（均P<0.05）。miR-34b-5p可靶向结合Notch1（均P<0.05）。miR-34b-5p抑制剂可明显抑制TPL对U2OS细胞的影响，Fer-1可增强miR-34b-5p抑制剂的作用（均P<0.05）。结论：TPL可抑制U2OS细胞的增殖能力并促进其铁死亡，其作用机制可能与miR-34a-5p靶向调节Notch1表达有关。

Patients with novel coronavirus infection still have many functional disorders during the recovery period. The timely intervention of rehabilitation treatment has important clinical significance in improving the patients’ functions and their ability of daily living. Based on the current evidence of evidence-based medicine and clinical practice, this paper summarizes the rehabilitation treatment and precautions of patients with simple novel coronavirus infection and different groups with previous dysfunction and novel coronavirus infection (such as neurological dysfunction, chronic pain, and bone and joint diseases) with a view to providing clinical reference for the rehabilitation treatment of patients with novel coronavirus infection during the recovery period.

Evaluating the consistency of herb injectable formulations could improve their product quality and clinical safety, particularly concerning the composition and content levels of trace ingredients. Panax notoginseng Saponins Injection (PNSI), widely used in China for treating acute cardiovascular diseases, contains low-abundance (10%-25%) and trace saponins in addition to its five main constituents (notoginsenoside R₁, ginsenoside Rg₁, ginsenoside Re, ginsenoside Rb₁, and ginsenoside Rd). This study aimed to establish a robust analytical method and assess the variability in trace saponin levels within PNSI from different vendors and formulation types. To achieve this, a liquid chromatography-triple quadrupole mass spectrometry (LC-MS/MS) method employing multiple ions monitoring (MIM) was developed. A "post-column valve switching" strategy was implemented to eliminate highly abundant peaks (NR₁, Rg₁, and Re) at 26 min. A total of 51 saponins in PNSI were quantified or relatively quantified using 18 saponin standards, with digoxin as the internal standard. This study evaluated 119 batches of PNSI from seven vendors, revealing significant variability in trace saponin levels among different vendors and formulation types. These findings highlight the importance of consistent content in low-abundance and trace saponins to ensure product control and clinical safety. Standardization of these ingredients is crucial for maintaining the quality and effectiveness of PNSI in treating acute cardiovascular diseases.
Ginsenosides ; Saponins ; Chemometrics ; Panax notoginseng ; Cardiovascular Diseases ; Chromatography, Liquid ; Tandem Mass Spectrometry