P(0)糖蛋白过表达导致周围神经先天性髓鞘形成低下。

P(0) glycoprotein overexpression causes congenital hypomyelination of peripheral nerves.

作者信息

Wrabetz L, Feltri M L, Quattrini A, Imperiale D, Previtali S, D'Antonio M, Martini R, Yin X, Trapp B D, Zhou L, Chiu S Y, Messing A

机构信息

Department of Neurology and Department of Biological and Technological Research (DIBIT), San Raffaele Scientific Institute, 20132 Milano, Italy.

出版信息

J Cell Biol. 2000 Mar 6;148(5):1021-34. doi: 10.1083/jcb.148.5.1021.

DOI:10.1083/jcb.148.5.1021

PMID:10704451

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2174542/

Abstract

We show that normal peripheral nerve myelination depends on strict dosage of the most abundantly expressed myelin gene, myelin protein zero (Mpz). Transgenic mice containing extra copies of Mpz manifested a dose-dependent, dysmyelinating neuropathy, ranging from transient perinatal hypomyelination to arrested myelination and impaired sorting of axons by Schwann cells. Myelination was restored by breeding the transgene into the Mpz-null background, demonstrating that dysmyelination does not result from a structural alteration or Schwann cell-extrinsic effect of the transgenic P(0) glycoprotein. Mpz mRNA overexpression ranged from 30-700%, whereas an increased level of P(0) protein was detected only in nerves of low copy-number animals. Breeding experiments placed the threshold for dysmyelination between 30 and 80% Mpz overexpression. These data reveal new points in nerve development at which Schwann cells are susceptible to increased gene dosage, and suggest a novel basis for hereditary neuropathy.

摘要

我们发现，正常外周神经髓鞘形成依赖于最丰富表达的髓鞘基因——髓鞘蛋白零（Mpz）的严格剂量。含有额外拷贝Mpz的转基因小鼠表现出剂量依赖性的脱髓鞘性神经病变，范围从短暂的围产期髓鞘形成不足到髓鞘形成停滞以及施万细胞对轴突的分选受损。通过将转基因培育到Mpz基因缺失的背景中，髓鞘形成得以恢复，这表明脱髓鞘并非由转基因P(0)糖蛋白的结构改变或施万细胞外在效应所致。Mpz mRNA的过表达范围为30%至700%，而仅在低拷贝数动物的神经中检测到P(0)蛋白水平升高。育种实验确定脱髓鞘的阈值在Mpz过表达的30%至80%之间。这些数据揭示了神经发育中施万细胞易受基因剂量增加影响的新关键点，并为遗传性神经病变提出了新的基础。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f51/2174542/40cbcf306830/JCB9910104.f1.jpg

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本文引用的文献

Schwann cell myelination requires timely and precise targeting of P(0) protein.施万细胞髓鞘形成需要P(0)蛋白及时且精确的靶向作用。

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Loss of distal axons and sensory Merkel cells and features indicative of muscle denervation in hindlimbs of P0-deficient mice.P0 缺陷小鼠后肢中远端轴突和感觉默克尔细胞缺失以及肌肉去神经支配的特征。

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A novel P0 glycoprotein transgene activates expression of lacZ in myelin-forming Schwann cells.一种新型P0糖蛋白转基因激活形成髓鞘的施万细胞中lacZ的表达。

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Peripheral myelin protein 22 and protein zero: a novel association in peripheral nervous system myelin.外周髓鞘蛋白22与蛋白零：外周神经系统髓鞘中的一种新关联。

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Mouse models of myelin diseases.髓鞘疾病的小鼠模型

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P(0)糖蛋白过表达导致周围神经先天性髓鞘形成低下。

P(0) glycoprotein overexpression causes congenital hypomyelination of peripheral nerves.

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