Comprehensive Glycomic and Proteomic Analysis of Mouse Striatum and Lateral Hypothalamus Following Repeated Exposures to Cocaine or Methamphetamine.

IF 6.1 2区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS Molecular & Cellular Proteomics Pub Date : 2024-08-01 Epub Date: 2024-06-15 DOI:10.1016/j.mcpro.2024.100803
Manveen K Sethi, Riccardo Maccioni, John D Hogan, Tomoya Kawamura, Vez Repunte-Canonigo, Jihuan Chen, Joseph Zaia, Pietro Paolo Sanna
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Abstract

Substance use disorder is a major concern, with few therapeutic options. Heparan sulfate (HS) and chondroitin sulfate (CS) interact with a plethora of growth factors and their receptors and have profound effects on cellular signaling. Thus, targeting these dynamic interactions might represent a potential novel therapeutic modality. In the present study, we performed mass spectrometry-based glycomic and proteomic analysis to understand the effects of cocaine and methamphetamine (METH) on HS, CS, and the proteome of two brain regions critically involved in drug addiction: the lateral hypothalamus and the striatum. We observed that cocaine and METH significantly alter HS and CS abundances as well as sulfate contents and composition. In particular, repeated METH or cocaine treatments reduced CS 4-O-sulfation and increased CS 6-O-sulfation. Since C4S and C6S exercise differential effects on axon growth, regeneration, and plasticity, these changes likely contribute to drug-induced neural plasticity in these brain regions. Notably, we observed that restoring these alterations by increasing CS 4-0 levels in the lateral hypothalamus by adeno-associated virus delivery of an shRNA to arylsulfatase B (N-acetylgalactosamine-4-sulfatase) ameliorated anxiety and prevented the expression of preference for cocaine in a novelty induced conditioned place preference test during cocaine withdrawal. Finally, proteomics analyses revealed a number of aberrant proteins in METH- and cocaine-treated versus saline-treated mice, including myelin proteolipid protein, calcium/calmodulin-dependent protein kinase type II subunit alpha, synapsin-2, tenascin-R, calnexin, annexin A7, hepatoma-derived growth factor, neurocan, and CSPG5, and oxidative phosphorylation among the top perturbed pathway. Taken together, these data support the role of HS, CS, and associated proteins in stimulants abuse and suggest that manipulation of HSPGs can represent a novel therapeutic strategy.

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对反复暴露于可卡因或甲基苯丙胺后的小鼠纹状体和外侧下丘脑进行全面的糖组学和蛋白质组学分析。
药物使用障碍是一个令人担忧的重大问题,但治疗方法却很少。硫酸肝素(HS)和硫酸软骨素(CS)与大量生长因子及其受体相互作用,对细胞信号传导产生深远影响。因此,以这些动态相互作用为靶点可能是一种潜在的新型治疗方式。在本研究中,我们进行了基于质谱的糖组学和蛋白质组学分析,以了解可卡因和甲基苯丙胺(METH)对 HS、CS 以及两个与药物成瘾密切相关的脑区(外侧下丘脑(LH)和纹状体(ST))的蛋白质组的影响。我们观察到,可卡因和 METH 能显著改变 HS 和 CS 的丰度以及硫酸盐的含量和组成。特别是,反复使用 METH 或可卡因会减少 CS 4-O 硫酸盐化,增加 CS 6-O 硫酸盐化。由于 C4S 和 C6S 对轴突生长、再生和可塑性有不同的影响,这些变化可能有助于药物诱导的这些脑区的神经可塑性。值得注意的是,我们观察到,通过腺相关病毒(AAV)递送琼脂硫酸酯酶 B(N-乙酰半乳糖胺-4-硫酸酯酶,ARSB)的 shRNA 来增加 LH 中 CS 4-0 的水平,从而恢复这些变化,这改善了焦虑,并防止了在可卡因戒断期间的新奇诱导条件性位置偏好测试中对可卡因的偏好表达。最后,蛋白质组学分析表明,METH 和可卡因处理的小鼠与生理盐水处理的小鼠相比,存在许多异常蛋白质,包括 MYPR、KCC2A、SYN2、TENR、CALX、ANXA7、HDGF、NCAN 和 CSPG5,氧化磷酸化是最主要的干扰途径。总之,这些数据支持 HS、CS 和相关蛋白在兴奋剂滥用中的作用,并表明对 HSPGs 的操作可以代表一种新的治疗策略。
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来源期刊
Molecular & Cellular Proteomics
Molecular & Cellular Proteomics 生物-生化研究方法
CiteScore
11.50
自引率
4.30%
发文量
131
审稿时长
84 days
期刊介绍: The mission of MCP is to foster the development and applications of proteomics in both basic and translational research. MCP will publish manuscripts that report significant new biological or clinical discoveries underpinned by proteomic observations across all kingdoms of life. Manuscripts must define the biological roles played by the proteins investigated or their mechanisms of action. The journal also emphasizes articles that describe innovative new computational methods and technological advancements that will enable future discoveries. Manuscripts describing such approaches do not have to include a solution to a biological problem, but must demonstrate that the technology works as described, is reproducible and is appropriate to uncover yet unknown protein/proteome function or properties using relevant model systems or publicly available data. Scope: -Fundamental studies in biology, including integrative "omics" studies, that provide mechanistic insights -Novel experimental and computational technologies -Proteogenomic data integration and analysis that enable greater understanding of physiology and disease processes -Pathway and network analyses of signaling that focus on the roles of post-translational modifications -Studies of proteome dynamics and quality controls, and their roles in disease -Studies of evolutionary processes effecting proteome dynamics, quality and regulation -Chemical proteomics, including mechanisms of drug action -Proteomics of the immune system and antigen presentation/recognition -Microbiome proteomics, host-microbe and host-pathogen interactions, and their roles in health and disease -Clinical and translational studies of human diseases -Metabolomics to understand functional connections between genes, proteins and phenotypes
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