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pubmed:abstractText |
Mammalian phosphatidylinositol transfer proteins (PITPs) alpha and beta, which share 77% identity, have been shown to exhibit distinct lipid-transfer activities. In addition to transferring phosphatidylinositol (PI) and phosphatidylcholine (PC), PITPbeta has been shown to transfer sphingomyelin (SM), and this has led to the suggestion that PITPbeta is important for the regulation of SM metabolism. In the present study, we have analysed the ability of human PITPbeta to transfer and regulate the metabolism of cellular SM. We report that, in vitro, the two PITP isoforms were comparable in mediating PI, PC or SM transfer. Using permeabilized HL-60 cells as the donor compartment, both PITP isoforms efficiently transferred PI and PC, and were slightly active towards SM, with the activity of PITPbeta being slightly greater. To identify which cellular lipids were selected by PITPs, PITPalpha and PITPbeta were exposed to permeabilized HL-60 cells, and subsequently repurified and analysed for their bound lipids. Both PITPs were able to select only PI and PC, but not SM. SM synthesis takes place at the Golgi, and PITPbeta was shown to localize in that compartment. To examine the role of PITPbeta in SM biosynthesis, Golgi membranes were used. Purified Golgi membranes had lost their endogenous PITPbeta, but were able to recruit PITPbeta when added exogenously. However, PITPbeta did not enhance the activities of either SM synthase or glucosylceramide synthase. Further analysis in COS-7 cells overexpressing PITPbeta showed no effects on (a) SM and glucosylceramide biosynthesis, (b) diacylglycerol or ceramide levels, (c) SM transport from the Golgi to the plasma membrane, or (d) resynthesis of SM after exogenous sphingomyelinase treatment. Altogether, these observations do not support the suggestion that PITPbeta participates in the transfer of SM, the regulation of SM biosynthesis or its intracellular trafficking.
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