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Mical1 缺失对表达酪氨酸酶的细胞中的小鼠跑动步态产生影响。

Mical1 deletion in tyrosinase expressing cells affects mouse running gaits.

机构信息

Department of Chemistry and Biology, Toronto Metropolitan University, Toronto, Ontario, Canada.

Department of Pharmacology and Toxicology, University of Toronto, Toronto, Ontario, Canada.

出版信息

Genes Brain Behav. 2024 Oct;23(5):e70004. doi: 10.1111/gbb.70004.

DOI:10.1111/gbb.70004
PMID:39344934
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11440367/
Abstract

Neuronal development is a highly regulated process that is dependent on the correct coordination of cellular responses to extracellular cues. In response to semaphorin axon guidance proteins, the MICAL1 protein is stimulated to produce reactive oxygen species that oxidize actin on specific methionine residues, leading to filamentous actin depolymerization and consequent changes in neuronal growth cone dynamics. Crossing genetically modified mice homozygous for floxed Mical1 (Mical1) alleles with transgenic mice expressing Cre recombinase under the control of a tyrosinase gene enhancer/promoter (Tyr::Cre) enabled conditional Mical1 deletion. Immunohistochemical analysis showed Mical1 expression in the cerebellum, which plays a prominent role in the coordination of motor movements, with reduced Mical1 expression in Mical1 mice co-expressing Tyr::Cre. Analysis of the gaits of mice running on a treadmill showed that both male and female Mical1, Tyr::Cre mutant mice had significant alterations to their striding patterns relative to wild-type mice, although the specific aspects of their altered gaits differed between the sexes. Additional motor tests that involved movement on a rotating rod, descending a vertical pole, or crossing a balance beam did not show significant differences between the genotypes, suggesting that the effect of the Mical1, Tyr::Cre genetic modifications was only manifested during specific highly coordinated movements that contribute to running. These findings indicate that there is a behavioral consequence in Mical1, Tyr::Cre mutant mice that affects motor control as manifested by alterations in their gait.

摘要

神经元发育是一个高度调控的过程,依赖于细胞对外界信号的正确协调反应。在响应神经信号蛋白 semaphorin 轴突导向蛋白时,MICAL1 蛋白被刺激产生活性氧物质,这些物质氧化特定蛋氨酸残基上的肌动蛋白,导致丝状肌动蛋白解聚,从而导致神经元生长锥动力学的变化。将同源性 floxed Mical1 (Mical1) 等位基因的基因修饰小鼠与在酪氨酸酶基因增强子/启动子(Tyr::Cre)控制下表达 Cre 重组酶的转基因小鼠进行杂交,使 Mical1 条件性缺失。免疫组织化学分析显示 Mical1 在小脑中有表达,小脑在协调运动方面起着重要作用,在共表达 Tyr::Cre 的 Mical1 小鼠中,Mical1 表达减少。对在跑步机上奔跑的小鼠步态的分析表明,雄性和雌性 Mical1、Tyr::Cre 突变小鼠的步幅模式与野生型小鼠相比都有明显的改变,尽管它们改变的步态的具体方面在性别之间存在差异。其他涉及在旋转杆上移动、垂直杆下降或平衡木上穿越的运动测试没有显示出基因型之间的显著差异,这表明 Mical1、Tyr::Cre 遗传修饰的影响仅在特定的高度协调运动中表现出来,这些运动有助于奔跑。这些发现表明,在 Mical1、Tyr::Cre 突变小鼠中存在行为后果,这种后果会影响运动控制,表现为步态的改变。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0ffc/11440367/210885adb3b1/GBB-23-e70004-g005.jpg
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本文引用的文献

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MICAL-mediated oxidation of actin and its effects on cytoskeletal and cellular dynamics.MICAL介导的肌动蛋白氧化及其对细胞骨架和细胞动力学的影响。
Front Cell Dev Biol. 2023 Feb 17;11:1124202. doi: 10.3389/fcell.2023.1124202. eCollection 2023.
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MICAL1 activation by PAK1 mediates actin filament disassembly.
PAK1 介导的 MICAL1 激活介导肌动蛋白丝解体。
Cell Rep. 2022 Oct 4;41(1):111442. doi: 10.1016/j.celrep.2022.111442.
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Monooxygenase in Autosomal Dominant Lateral Temporal Epilepsy: Role in Cytoskeletal Regulation and Relation to Cancer.常染色体显性颞叶癫痫的单加氧酶:细胞骨架调节中的作用及其与癌症的关系。
Genes (Basel). 2022 Apr 19;13(5):715. doi: 10.3390/genes13050715.
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The Arp2/3 complex is crucial for colonisation of the mouse skin by melanoblasts.Arp2/3 复合物对于黑素细胞在小鼠皮肤的定植至关重要。
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MICAL1 constrains cardiac stress responses and protects against disease by oxidizing CaMKII.MICAL1 通过氧化 CaMKII 来限制心脏应激反应并预防疾病。
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Mutations in MICAL-1cause autosomal-dominant lateral temporal epilepsy.MICAL-1 基因突变导致常染色体显性颞叶外侧癫痫。
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Signaling Pathways in Melanogenesis.黑色素生成中的信号通路。
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