Insulin and TLR4 Inhibitor Improve Motor Impairments in a Rat Model of Parkinson's Disease.

IF 1.8 4区医学 Q3 PHARMACOLOGY & PHARMACY Iranian Journal of Pharmaceutical Research Pub Date : 2024-06-11 eCollection Date: 2024-01-01 DOI:10.5812/ijpr-144200

Fatemeh Hemmati, Neda Valian, Abolhassan Ahmadiani, Zahurin Mohamed, Raymond Azman Ali, Norlinah Mohamed Ibrahim, Seyed Farshad Hosseini Shirazi

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Abstract

Background: Insulin resistance is an important pathological hallmark of Parkinson's disease (PD). Proinflammatory cytokines during neuroinflammation decrease insulin sensitivity by suppressing insulin signaling elements. Toll-like receptor 4 (TLR4), the main receptor involved in neuroinflammation, is also associated with the pathogenesis of PD.

Objectives: The present study evaluated the effect of insulin, an insulin receptor antagonist, and a TLR4 inhibitor on behavioral deficits and insulin resistance induced by 6-hydroxydopamine (6-OHDA).

Methods: Male Wistar rats were divided into nine groups: (1) sham (normal saline [NS] in the medial forebrain bundle [MFB]); (2) 6-OHDA (20 µg in the MFB); (3) 6-OHDA + NS; (4) 6-OHDA + dimethyl sulfoxide (DMSO); (5) 6-OHDA + insulin (2.5 IU/day, intracerebroventricular ([ICV]); (6) 6-OHDA + insulin (5 IU/day, intranasal [IN]); (7) 6-OHDA + insulin receptor antagonist (S961; 6.5 nM/kg, ICV); (8) 6-OHDA + TLR4 inhibitor (TAK242; 0.01 µg/rat, ICV); (9) 6-OHDA + insulin + TLR4 inhibitor. All treatments were administered for seven consecutive days. Motor performance was evaluated using apomorphine-induced rotation and cylinder tests. Gene expression and protein levels of α-synuclein, TLR4, insulin receptor substrate (IRS) 1, IRS2, and glycogen synthase kinase 3β (GSK3β) were measured by real-time PCR and western blotting, respectively, in the striatum.

Results: Insulin, alone and with TAK242, improved motor deficits induced by 6-OHDA. Administration of the insulin receptor antagonist had no effect on motor deficits. The increased expression of α-synuclein and TLR4 following 6-OHDA was attenuated by insulin and TAK242. GSK3β levels, both mRNA and protein, were significantly increased by 6-OHDA and attenuated with insulin and TAK242.

Conclusions: The findings suggest that 6-OHDA induces neurodegeneration via activation of TLR4 and GSK3β, indicating insulin resistance, and that insulin can improve these impairments. Moreover, TLR4 inhibition prevents insulin signaling dysfunction and improves behavioral and molecular impairments, highlighting the critical role of TLR4 in the development of insulin resistance in PD pathology.

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胰岛素和TLR4抑制剂改善帕金森病大鼠模型的运动损伤

背景：胰岛素抵抗是帕金森病（PD）的重要病理标志。神经炎症中的促炎细胞因子通过抑制胰岛素信号元件降低胰岛素敏感性。toll样受体4 （TLR4）是参与神经炎症的主要受体，也与PD的发病机制有关。目的：本研究评估胰岛素、胰岛素受体拮抗剂和TLR4抑制剂对6-羟基多巴胺（6-OHDA）诱导的行为缺陷和胰岛素抵抗的影响。方法：雄性Wistar大鼠分为9组：(1)假手术（生理盐水[NS]注入内侧前脑束[MFB]）；(2) 6-OHDA (MFB中20µg)；(3) 6-ohda + ns；(4) 6-OHDA +二甲基亚砜（DMSO）；(5) 6-OHDA +胰岛素(2.5 IU/天，脑室内（[ICV]）；(6) 6- ohda +胰岛素（5 IU/天，鼻内[IN]）；6-OHDA +胰岛素受体拮抗剂(S961；6.5 nM/kg， ICV)；(8) 6-OHDA + TLR4抑制剂(TAK242；0.01µg/大鼠，ICV)；(9) 6-OHDA +胰岛素+ TLR4抑制剂。所有治疗均连续7天进行。通过阿帕吗啡诱导的旋转和圆柱体试验评估运动性能。采用real-time PCR和western blotting分别检测纹状体中α-突触核蛋白、TLR4、胰岛素受体底物（IRS） 1、IRS2和糖原合成酶激酶3β (GSK3β)的基因表达和蛋白水平。结果：胰岛素单独使用和TAK242联合使用可改善6-羟多巴胺诱导的运动障碍。胰岛素受体拮抗剂对运动缺陷没有影响。6-OHDA后α-synuclein和TLR4表达的增加被胰岛素和TAK242抑制。GSK3β mRNA和蛋白水平在6-OHDA的作用下显著升高，而在胰岛素和TAK242的作用下降低。结论：6-OHDA通过激活TLR4和GSK3β诱导神经变性，提示胰岛素抵抗，胰岛素可以改善这些损伤。此外，TLR4抑制可防止胰岛素信号功能障碍，改善行为和分子损伤，突出了TLR4在PD病理中胰岛素抵抗发展中的关键作用。

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来源期刊

Iranian Journal of Pharmaceutical Research 医学-药学

CiteScore

3.40

自引率

6.20%

发文量

审稿时长

2 months

期刊介绍： The Iranian Journal of Pharmaceutical Research (IJPR) is a peer-reviewed multi-disciplinary pharmaceutical publication, scheduled to appear quarterly and serve as a means for scientific information exchange in the international pharmaceutical forum. Specific scientific topics of interest to the journal include, but are not limited to: pharmaceutics, industrial pharmacy, pharmacognosy, toxicology, medicinal chemistry, novel analytical methods for drug characterization, computational and modeling approaches to drug design, bio-medical experience, clinical investigation, rational drug prescribing, pharmacoeconomics, biotechnology, nanotechnology, biopharmaceutics and physical pharmacy.