Ghidoni R, Trinchera M, Venerando B, Fiorilli A, Sonnino S, Tettamanti G
Biochem J. 1986 Jul 1;237(1):147-55. doi: 10.1042/bj2370147.
The pathways of metabolic processing of exogenously administered GM1 ganglioside in rat liver was investigated at the subcellular level. The GM1 used was 3H-labelled at the level of long-chain base ([Sph(sphingosine)-3H]GM1) or of terminal galactose ([Gal-3H]GM1). The following radioactive compounds, derived from exogenous GM1, were isolated and chemically characterized: gangliosides GM2, GM3, GD1a and GD1b (nomenclature of Svennerholm [(1964) J. Lipid Res. 5, 145-155] and IUPAC-IUB Recommendations [(1977) Lipids 12, 455-468]); lactosylceramide, glucosylceramide and ceramide; sphingomyelin. GM2, GM3, lactosylceramide, glucosylceramide and ceramide, relatively more abundant shortly after GM1 administration, were mainly present in the lysosomal fraction and reflected the occurrence of a degradation process. 3H2O was also produced in relevant amounts, indicating complete degradation of GM1, although no free long-chain bases could be detected. GD1a and GD1b, relatively more abundant later on after administration, were preponderant in the Golgi-apparatus fraction and originated from a biosynthetic process. More GD1a was produced starting from [Sph-3H]GM1 than from [Gal-3H]GM1, and radioactive GD1b was present only after [Sph-3H]GM1 injection. This indicates the use of two biosynthetic routes, one starting from a by-product of GM1 degradation, the other implicating direct sialylation of GM1. Both routes were used to produce GD1a, but only the first one for producing GD1b. Sphingomyelin was the major product of GM1 processing, especially at the longer times after injection, and arose from a by-product of GM1 degradation, most likely ceramide.
在亚细胞水平上研究了外源性给予大鼠肝脏的GM1神经节苷脂的代谢加工途径。所用的GM1在长链碱基水平([鞘氨醇(鞘氨醇)-3H]GM1)或末端半乳糖水平([半乳糖-3H]GM1)进行了3H标记。从外源性GM1衍生而来的以下放射性化合物被分离并进行了化学表征:神经节苷脂GM2、GM3、GD1a和GD1b(Svennerholm的命名法[(1964)《脂质研究杂志》5, 145 - 155]以及国际纯粹与应用化学联合会 - 国际生物化学联合会的建议[(1977)《脂质》12, 455 - 468]);乳糖基神经酰胺、葡糖基神经酰胺和神经酰胺;鞘磷脂。GM2、GM3、乳糖基神经酰胺、葡糖基神经酰胺和神经酰胺在给予GM1后不久相对更为丰富,主要存在于溶酶体部分,反映了降解过程的发生。还产生了相当数量的3H2O,表明GM1完全降解,尽管未检测到游离长链碱基。GD1a和GD1b在给予后较晚时相对更为丰富,在高尔基体部分占优势,源自生物合成过程。从[Sph - 3H]GM1产生的GD1a比从[Gal - 3H]GM1产生的更多,并且放射性GD1b仅在注射[Sph - 3H]GM1后才出现。这表明使用了两条生物合成途径,一条从GM1降解的副产物开始,另一条涉及GM1的直接唾液酸化。两条途径都用于产生GD1a,但只有第一条用于产生GD1b。鞘磷脂是GM1加工的主要产物,尤其是在注射后较长时间,并且源自GM1降解的副产物,很可能是神经酰胺。