Seipin Deficiency Impairs Motor Coordination in Mice by Compromising Spinal Cord Myelination.

IF 3.3 4区医学 Q2 NEUROSCIENCES NeuroMolecular Medicine Pub Date : 2025-01-27 DOI:10.1007/s12017-025-08834-4

Hong Chen, Wenru Wang, Wenli Cui, Chuanyun Tu, Yuanyuan Han, Chengwu Zhang, Liu Yang, Xintao Huang, Qin Zhang, Li Lu

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引用次数: 0

Abstract

The integrity of the myelin sheath of the spinal cord (SC) is essential for motor coordination. Seipin is an endoplasmic reticulum transmembrane protein highly expressed in adipose tissue and motor neurons in the SC. It was reported Seipin deficiency induced lipid dysregulation and neurobehavioral deficits, but the underlying mechanism, especially in SC, remains to be elucidated. In present study, we found that Seipin and myelin basic protein (MBP) increased synchronously in SC of developmental stage of mice. Demyelination impaired motor coordination as well as MBP and Seipin expression, which were alleviated by remyelination. Moreover, Seipin deficiency impaired motor coordination of mice, accompanied by hypomyelination in spinal cord. Mechanistically, we further demonstrated that myelin content as labeled by Fluormyelin, myelin basic protein (MBP) was down-regulated by Seipin deficiency. Seipin deficiency led to reduction of myelin-forming oligodendrocytes (OLs) density in spinal cord. Notably, administration of rosiglitazone (RG), a classic PPARγ activator, successfully restored the phenotypes manifested by Seipin deficiency including reduced OLs density, hypomyelination, as well as motor dyscoordination. In summary, present study revealed that Seipin deficiency disrupted motor coordination by compromising myelination in SC, and RG treatment could rescue the phenotypes. This study throws light on the mechanism underlying Seipin deficiency associated disorders and paves ways for developing therapeutics toward those diseases.

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来源期刊

NeuroMolecular Medicine 医学-神经科学

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： NeuroMolecular Medicine publishes cutting-edge original research articles and critical reviews on the molecular and biochemical basis of neurological disorders. Studies range from genetic analyses of human populations to animal and cell culture models of neurological disorders. Emerging findings concerning the identification of genetic aberrancies and their pathogenic mechanisms at the molecular and cellular levels will be included. Also covered are experimental analyses of molecular cascades involved in the development and adult plasticity of the nervous system, in neurological dysfunction, and in neuronal degeneration and repair. NeuroMolecular Medicine encompasses basic research in the fields of molecular genetics, signal transduction, plasticity, and cell death. The information published in NEMM will provide a window into the future of molecular medicine for the nervous system.