Schneider A, Montague P, Griffiths I, Fanarraga M, Kennedy P, Brophy P, Nave K A
Zentrum für Molekulare Biologie (ZMBH), Universität Heidelberg, Germany.
Nature. 1992 Aug 27;358(6389):758-61. doi: 10.1038/358758a0.
Proteolipid protein (PLP; M(r) 30,000) is a highly conserved major polytopic membrane protein in myelin but its cellular function remains obscure. Neurological mutant mice can often provide model systems for human genetic disorders. Mutations of the X-chromosome-linked PLP gene are lethal, identified first in the jimpy mouse and subsequently in patients with Pelizaeus-Merzbacher disease. The unexplained phenotype of these mutations includes degeneration and premature cell death of oligodendrocytes with associated hypomyelination. Here we show that a new mouse mutant rumpshaker is defined by the amino-acid substitution Ile-to-Thr at residue 186 in a membrane-embedded domain of PLP. Surprisingly, rumpshaker mice, although myelin-deficient, have normal longevity and a full complement of morphologically normal oligodendrocytes. Hypomyelination can thus be genetically separated from the PLP-dependent oligodendrocyte degeneration. We suggest that PLP has a vital function in glial cell development, distinct from its later role in myelin assembly, and that this dichotomy of action may explain the clinical spectrum of Pelizaeus-Merzbacher disease.
蛋白脂蛋白(PLP;分子量30,000)是髓鞘中一种高度保守的主要多跨膜蛋白,但其细胞功能仍不清楚。神经学突变小鼠常常能为人类遗传疾病提供模型系统。X染色体连锁的PLP基因突变是致死性的,最初在颤抖小鼠中发现,随后在佩利措伊斯-梅茨巴赫病患者中也有发现。这些突变无法解释的表型包括少突胶质细胞的退化和过早死亡以及相关的髓鞘形成不足。在此我们表明,一种新的小鼠突变体“摇臀鼠”是由PLP膜嵌入结构域中第186位氨基酸由异亮氨酸替换为苏氨酸所定义的。令人惊讶的是,“摇臀鼠”小鼠尽管髓鞘形成不足,但寿命正常且有形态正常的少突胶质细胞的完整补充。因此,髓鞘形成不足可以从依赖PLP的少突胶质细胞退化中通过基因分离出来。我们认为,PLP在神经胶质细胞发育中具有重要功能,与其在髓鞘组装中的后期作用不同,这种作用的二分法可能解释了佩利措伊斯-梅茨巴赫病的临床谱。
