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正常人和鞘磷脂沉积症患者培养成纤维细胞中鞘磷脂代谢途径

Pathways of sphingomyelin metabolism in cultured fibroblasts from normal and sphingomyelin lipidosis subjects.

作者信息

Spence M W, Clarke J T, Cook H W

出版信息

J Biol Chem. 1983 Jul 25;258(14):8595-600.

PMID:6863302
Abstract

The metabolism of endogenous sphingomyelin labeled with 32P or [methyl-3H]choline and of exogenous [choline-methyl-3H], [32P]-, or [N-acyl-1-14C]sphingomyelin was studied in normal and Niemann-Pick Type A (NP-A) cultured fibroblasts. Despite a greater than 96% decrease in lysosomal sphingomyelinase activity in the NP-A cells, they were able to degrade endogenously produced [32P]- or [methyl-3H]sphingomyelin at normal or near normal rates. Exogenous [methyl-3H]-, [methyl-3H, 32P]-, and [methyl-3H, N-acyl-1-14C] sphingomyelin was taken up intact by normal and NP-A cells, with NP-A cells accumulating 4-8 times more lipid. By 20 h, 50% of the control cell-associated 3H and 32P was recovered in lecithin, and the ratio of activities (3H/32P) indicated most of the phosphorylcholine derived from sphingomyelin had been transferred intact. By comparison in NP-A cells, after a 40-h incubation only 20% of the labeled phosphorylcholine derived from sphingomyelin was recovered in lecithin. With both cell lines, 20 to 50 times more sphingomyelin was hydrolyzed than was taken up by the cells; the reaction products in the medium were ceramide and a mixture of water-soluble compounds such as phosphorylcholine and choline. These results indicate that there are at least two metabolic pathways for sphingomyelin modification in cultured fibroblasts in addition to degradation by the lysosomal acid sphingomyelinase. One route is hydrolysis by a cellular sphingomyelinase. The second is the hydrolysis and/or transfer of phosphorylcholine from sphingomyelin and results in the synthesis of lecithin.

摘要

在正常和尼曼-匹克A型(NP-A)培养的成纤维细胞中,研究了用32P或[甲基-3H]胆碱标记的内源性鞘磷脂以及外源性[胆碱-甲基-3H]、[32P]-或[N-酰基-1-14C]鞘磷脂的代谢情况。尽管NP-A细胞中溶酶体鞘磷脂酶活性降低了96%以上,但它们仍能够以正常或接近正常的速率降解内源性产生的[32P]-或[甲基-3H]鞘磷脂。正常细胞和NP-A细胞均可完整摄取外源性[甲基-3H]、[甲基-3H, 32P]-和[甲基-3H, N-酰基-1-14C]鞘磷脂,NP-A细胞积累的脂质比正常细胞多4至8倍。到20小时时,对照细胞相关的3H和32P中有50%在卵磷脂中回收,活性比(3H/32P)表明,大部分源自鞘磷脂的磷酸胆碱已完整转移。相比之下,在NP-A细胞中,孵育40小时后,源自鞘磷脂的标记磷酸胆碱只有20%在卵磷脂中回收。对于这两种细胞系,水解的鞘磷脂比细胞摄取的多20至50倍;培养基中的反应产物是神经酰胺和水溶性化合物的混合物,如磷酸胆碱和胆碱。这些结果表明,除了通过溶酶体酸性鞘磷脂酶降解外,培养的成纤维细胞中鞘磷脂修饰至少还有两条代谢途径。一条途径是由细胞鞘磷脂酶水解。第二条途径是鞘磷脂中磷酸胆碱的水解和/或转移,并导致卵磷脂的合成。

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引用本文的文献

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