Phosphodiesterase 2A as a Therapeutic Target for Relieving Mechanical Allodynia and Modulating Microglial Polarization in Neuropathic Pain Models Following Spinal Cord Injury.

IF 4.1 3区医学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

ACS Chemical Neuroscience Pub Date : 2025-06-28 DOI:10.1021/acschemneuro.5c00169

Wen-Jie Yang, Jie Han, Zhen-Xin Cao, Lei Yang, Jun-Nan Wang, Tao Sun

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引用次数: 0

Abstract

Spinal cord injury (SCI) is a severe clinical condition often accompanied by multiple complications, with neuropathic pain (NP) being one of the most persistent and difficult conditions to treat. The underlying mechanisms of NP remain unclear, and effective clinical treatments are lacking. Some studies suggest that phosphodiesterase 2A (PDE2A) may contribute to the development of NP. This study aims to investigate the role of PDE2A inhibitor Bay 60-7550 in alleviating NP in a rat model of SCI. Male Sprague-Dawley rats were randomly allocated into four groups: sham, SCI, SCI + Bay 60-7550, and SCI + vehicle. Mechanical thresholds were assessed using the von Frey test from 1 day prior to surgery through postoperative day 21. PDE2A expression in the spinal cord was quantified via qRT-PCR, Western blotting, and immunohistochemistry. Microglial polarization (M1/M2) was analyzed using flow cytometry and qRT-PCR. Downstream biomarkers, including IL-6, IL-1β, IL-10, TGF-β, CCL2, and CCL3, were also quantified via qRT-PCR. Additionally, enzyme-linked immunosorbent assay (ELISA) was performed to determine the levels of cyclic adenosine monophosphate (cAMP) and cyclic guanosine monophosphate (cGMP). Intrathecal administration of the PDE2A inhibitor Bay 60-7550 significantly alleviated mechanical allodynia in rats following SCI. PDE2A expression was notably elevated in the spinal dorsal horn post-SCI, an effect that was suppressed by Bay 60-7550 treatment. In addition, Bay 60-7550 administration reduced the expression of pro-inflammatory cytokines (IL-6, IL-1β), increased anti-inflammatory cytokines (IL-10, TGF-β), and decreased mRNA levels of CCL2 and CCL3 in the spinal cord. Consistently, treatment with Bay 60-7550 elevated the levels of cGMP and cAMP in the spinal cord and shifted microglial polarization by increasing the proportion of M2-type cells while reducing M1-type cells in SCI rats. Inhibiting PDE2A overexpression may mitigate the progression of NP in rats following SCI by modulating microglial polarization. Therefore, PDE2A represents a promising therapeutic target for the management of neuropathic pain after SCI.

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磷酸二酯酶2A在脊髓损伤后神经性疼痛模型中缓解机械异常痛和调节小胶质细胞极化的治疗靶点

脊髓损伤（SCI）是一种严重的临床疾病，常伴有多种并发症，其中神经性疼痛（NP）是最持久和最难治疗的疾病之一。NP的潜在机制尚不清楚，缺乏有效的临床治疗。一些研究表明，磷酸二酯酶2A （PDE2A）可能参与NP的发展。本研究旨在探讨PDE2A抑制剂Bay 60-7550在减轻脊髓损伤大鼠NP中的作用。雄性Sprague-Dawley大鼠随机分为假手术组、SCI组、SCI + Bay 60-7550组和SCI +载药组。术前1天至术后第21天采用von Frey试验评估机械阈值。PDE2A在脊髓中的表达通过qRT-PCR、Western blotting和免疫组织化学进行定量。采用流式细胞术和qRT-PCR分析小胶质细胞极化（M1/M2）。下游生物标志物，包括IL-6、IL-1β、IL-10、TGF-β、CCL2和CCL3，也通过qRT-PCR进行定量。此外，采用酶联免疫吸附试验（ELISA）测定环磷酸腺苷（cAMP）和环鸟苷（cGMP）水平。鞘内给药PDE2A抑制剂Bay 60-7550可显著减轻脊髓损伤后大鼠的机械异常性痛。脊髓损伤后脊髓背角的PDE2A表达显著升高，而Bay 60-7550治疗抑制了这一作用。此外，Bay 60-7550可降低脊髓中促炎细胞因子（IL-6、IL-1β）的表达，增加抗炎细胞因子（IL-10、TGF-β）的表达，降低CCL2、CCL3 mRNA水平。与此一致的是，在脊髓损伤大鼠中，Bay 60-7550通过增加m2型细胞的比例而减少m1型细胞的比例，提高了脊髓中cGMP和cAMP的水平，并改变了小胶质细胞的极化。抑制PDE2A过表达可能通过调节小胶质细胞极化来减轻脊髓损伤后大鼠NP的进展。因此，PDE2A是治疗脊髓损伤后神经性疼痛的一个有希望的治疗靶点。

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来源期刊

ACS Chemical Neuroscience BIOCHEMISTRY & MOLECULAR BIOLOGY-CHEMISTRY, MEDICINAL

CiteScore

9.20

自引率

4.00%

发文量

323

审稿时长

1 months

期刊介绍： ACS Chemical Neuroscience publishes high-quality research articles and reviews that showcase chemical, quantitative biological, biophysical and bioengineering approaches to the understanding of the nervous system and to the development of new treatments for neurological disorders. Research in the journal focuses on aspects of chemical neurobiology and bio-neurochemistry such as the following: Neurotransmitters and receptors Neuropharmaceuticals and therapeutics Neural development—Plasticity, and degeneration Chemical, physical, and computational methods in neuroscience Neuronal diseases—basis, detection, and treatment Mechanism of aging, learning, memory and behavior Pain and sensory processing Neurotoxins Neuroscience-inspired bioengineering Development of methods in chemical neurobiology Neuroimaging agents and technologies Animal models for central nervous system diseases Behavioral research