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  • 标题:Sphingomyelinase treatment of low density lipoprotein and cultured cells results in enhanced processing of LDL which can be modulated by sphingomyelin.
  • 本地全文:下载
  • 作者:A K Gupta ; H Rudney
  • 期刊名称:JLR Papers In Press
  • 印刷版ISSN:0022-2275
  • 电子版ISSN:1539-7262
  • 出版年度:1992
  • 卷号:33
  • 期号:12
  • 页码:1741-1752
  • 语种:English
  • 出版社:American Society for Biochemistry and Molecular Biology
  • 摘要:The addition of neutral sphingomyelinase from S. aureus to the medium of rat intestinal epithelial cell cultures (IEC-6) containing added human low density lipoprotein (LDL) resulted in two- to fivefold increases in LDL uptake and degradation. This overall effect was shown to be the combined result of sphingomyelinase activity on the composition of the LDL particle and a separate action directly on the cells when native LDL was incubated with sphingomyelinase from S. aureus followed by removal of the sphingomyelinase. Analysis of sphingomyelinase-treated LDL showed that > 95% of the sphingomyelin (SM) was hydrolyzed, but no changes were observed in all the other components of the LDL particle. This modified LDL particle (SM(-)LDL) was also bound and degraded at higher rates than control LDL in a variety of cell lines, e.g., HepG2, GM-43, and CHO-K1 cells. No evidence of increased aggregation of SM(-)LDL could be observed. The increased processing of SM(-)LDL was due to enhanced affinity to LDL receptors and not to an increase in LDL receptor number. When sphingomyelinase from S. aureus was added to the medium of IEC-6 or GM-43 cells, which were processing SM(-)LDL, further increases in SM(-)LDL processing were observed, which were primarily due to greatly enhanced cellular degradation of SM(-)LDL, with little change in receptor binding and cell association. Since there was little sphingomyelin remaining in SM(-)LDL, it was assumed that the action of sphingomyelinase on the cells resulted in the enhanced degradation. In support of this concept, previous addition of sphingomyelin to cells growing in lipoprotein-deficient medium followed by addition of SM(-)LDL greatly inhibited the degradation of the apolipoprotein of SM(-)LDL. On the other hand, addition of sphingomyelin concomitantly with SM(-)LDL did not inhibit degradation. These results are interpreted to indicate that there may be two pathways for cellular processing of sphingomyelin, one of which may be a determinant in the lysosomal processing of the apolipoprotein of LDL. In support of this concept, addition of desipramine, an inhibitor of lysosomal sphingomyelinase, to IEC-6 cells in culture greatly inhibited the degradation of 125I-labeled LDL without affecting the receptor binding and cell association. Overall, these results suggest that sphingomyelin may play a modulatory role in cellular cholesterol homeostasis by regulating uptake of LDL as well as LDL processing.
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