Galectin-9 and Tim-3 are upregulated in response to microglial activation induced by the peptide Amyloid-β (25–35)

IF 2.5 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM
Eleazar Ramírez Hernández, Luis Fernando Hernández Zimbrón, Emmanuel Segura Pérez, José Luis Sánchez Salgado, Mohamed Ali Pereyra Morales, Edgar Zenteno
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引用次数: 0

Abstract

Galectins are a group of β-galactoside-binding lectins associated with regulating immunological response. In the brains of AD patients and 5xFAD (familial AD) mice, galectin-3 (Gal-3) was highly upregulated and found to be expressed in microglia associated with Aβ plaques. However, the participation of other galectins, specifically galectin-9 (Gal-9) and T-cell immunoglobulin and mucin domain 3 (Tim-3) receptors, are unknown in the inflammatory response. The experimental model of the Aβ2535 peptide will allow us to study the mechanisms of neuroinflammation and describe the changes in the expression of the Gal-9 and Tim-3 receptor. This study aimed to evaluate whether Aβ2535 peptide administration into the lateral ventricles of rats upregulated Gal-9 and Tim-3 implicated in the modulation of neuroinflammation. The vehicle or Aβ2535 peptide (1 μg/μL) was bilaterally administered into the lateral ventricles of the rat, and control group. After the administration of the Aβ25–35 peptide, animals were tested for learning (day 29) and spatial memory (day 30) in the novel object recognition test (NOR). On day 31, hippocampus was examined for morphological changes by Nilss stain, biochemical changes by NO2 and MDA, immunohistochemical analysis by astrocytes (GFAP), microglia (Iba1), Gal-9 and Tim-3, and western blot. Our results show the administration of the Aβ2535 peptide into the lateral ventricles of rats induce memory impairment in the NOR by increases the oxidative stress and inflammatory response. This result is associated with an upregulation of Gal-9 and Tim-3 predominantly detected in the microglia cells of Aβ2535-treated rats with respect to the control group. Gal-9 and Tim-3 are upregulated in activated microglia that could modulate the inflammatory response and damage in neurodegenerative processes induced by the Aβ2535 peptide. Therefore, we suggest that Gal-9 and Tim-3 participate in the inflammatory process induced by the administration of the Aβ2535 peptide.

肽淀粉样蛋白-β(25-35)诱导小胶质细胞活化时,Galectin-9 和 Tim-3 上调
凝集素是一组与调节免疫反应有关的β-半乳糖苷结合凝集素。在AD患者和5xFAD(家族性AD)小鼠的大脑中,galectin-3(Gal-3)高度上调,并在与Aβ斑块相关的小胶质细胞中表达。然而,其他galectins,特别是galectin-9(Gal-9)和T细胞免疫球蛋白和粘蛋白结构域3(Tim-3)受体在炎症反应中的参与情况尚不清楚。通过 Aβ25-35 肽的实验模型,我们可以研究神经炎症的机制,并描述 Gal-9 和 Tim-3 受体的表达变化。本研究旨在评估向大鼠侧脑室注射Aβ25-35肽是否会上调与神经炎症调节有关的Gal-9和Tim-3。将载体或Aβ25-35肽(1 μg/μL)双侧注入大鼠侧脑室,并与对照组进行比较。注射Aβ25-35肽后,对大鼠进行学习(第29天)和空间记忆(第30天)的新物体识别测试(NOR)。第31天,用Nilss染色法检测海马形态学变化,用NO2和MDA检测生化变化,用星形胶质细胞(GFAP)、小胶质细胞(Iba1)、Gal-9和Tim-3进行免疫组化分析,并进行Western印迹。我们的研究结果表明,向大鼠侧脑室注射 Aβ25-35 肽会增加氧化应激和炎症反应,从而诱发 NOR 记忆损伤。与对照组相比,这一结果与 Aβ25-35 处理组大鼠的小胶质细胞中主要检测到的 Gal-9 和 Tim-3 上调有关。Gal-9 和 Tim-3 在活化的小胶质细胞中上调,可调节 Aβ25-35 肽诱导的神经退行性过程中的炎症反应和损伤。因此,我们认为 Gal-9 和 Tim-3 参与了 Aβ25-35 肽诱导的炎症过程。
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来源期刊
Neuropeptides
Neuropeptides 医学-内分泌学与代谢
CiteScore
5.40
自引率
6.90%
发文量
55
审稿时长
>12 weeks
期刊介绍: The aim of Neuropeptides is the rapid publication of original research and review articles, dealing with the structure, distribution, actions and functions of peptides in the central and peripheral nervous systems. The explosion of research activity in this field has led to the identification of numerous naturally occurring endogenous peptides which act as neurotransmitters, neuromodulators, or trophic factors, to mediate nervous system functions. Increasing numbers of non-peptide ligands of neuropeptide receptors have been developed, which act as agonists or antagonists in peptidergic systems. The journal provides a unique opportunity of integrating the many disciplines involved in all neuropeptide research. The journal publishes articles on all aspects of the neuropeptide field, with particular emphasis on gene regulation of peptide expression, peptide receptor subtypes, transgenic and knockout mice with mutations in genes for neuropeptides and peptide receptors, neuroanatomy, physiology, behaviour, neurotrophic factors, preclinical drug evaluation, clinical studies, and clinical trials.
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