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Received on September 1, 2006
Accepted on January 26, 2007
Automation and Analytical Techniques |
1 Department of Medical Biochemistry, University of Amsterdam, Academic Medical Center, Amsterdam, The Netherlands
2 Department of Internal Medicine, University of Amsterdam, Academic Medical Center, Amsterdam, The Netherlands
* To whom correspondence should be addressed. E-mail: j.e.groener{at}amc.uva.nl.
Background: Simple, reproducible assays are needed for the quantification of sphingolipids, ceramide (Cer), and sphingoid bases. We developed an HPLC method for simultaneous quantification of total plasma concentrations of Cer, glucosylceramide (GlcCer), and ceramide trihexoside (CTH).
Methods: After addition of sphinganine as internal calibrator, we extracted lipids from 50 µL plasma. We deacylated Cer and glycosphingolipids by use of microwave-assisted hydrolysis in methanolic NaOH, followed by derivatization of the liberated amino-group with o-phthaldialdehyde. We separated the derivatized sphingoid bases and lysoglycosphingolipids by HPLC on a C18 reversed-phase column with a methanol/water mobile phase (88:12, vol/vol) and quantified them by use of a fluorescence detector at 
ex 340 nm and em 435 nm.
Results: Optimal conditions in the Solids/Moisture System SAM-155 microwave oven (CEM Corp.) for the complete deacylation of Cer and neutral glycosphingolipids without decomposition were 60 min at 85% power, fan setting 7. Intra- and interassay CVs were <4% and <14%, respectively, and recovery rates were 87%-113%. The limit of quantification was 2 pmol (0.1 pmol on column), and the method was linear over the interval of 2-200 µL plasma. In samples from 40 healthy individuals, mean (SD) concentrations were 9.0 (2.3) µmol/L for Cer, 6.3 (1.9) µmol/L for GlcCer, and 1.7 (0.5) µmol/L for CTH. Plasma concentrations of GlcCer were higher in Gaucher disease patient samples and of CTH in Fabry disease patient samples.
Conclusions: HPLC enables quantification of total Cer, GlcCer, and CTH in plasma and is useful for the follow-up of patients on therapy for Gaucher or Fabry disease.
The following articles in journals at HighWire Press have cited this article:
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  G. H. B. Maegawa, M. B. Tropak, J. D. Buttner, B. A. Rigat, M. Fuller, D. Pandit, L. Tang, G. J. Kornhaber, Y. Hamuro, J. T. R. Clarke, et al. Identification and Characterization of Ambroxol as an Enzyme Enhancement Agent for Gaucher Disease J. Biol. Chem., August 28, 2009; 284(35): 23502 - 23516. [Abstract] [Full Text] [PDF]
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 N. Bijl, S. Scheij, S. Houten, R. G. Boot, A. K. Groen, and J. M. F. G. Aerts The Glucosylceramide Synthase Inhibitor N-(5-Adamantane-1-yl-methoxy-pentyl)-deoxynojirimycin Induces Sterol Regulatory Element-Binding Protein-Regulated Gene Expression and Cholesterol Synthesis in HepG2 Cells J. Pharmacol. Exp. Ther., September 1, 2008; 326(3): 849 - 855. [Abstract] [Full Text] [PDF]
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 J. M. Aerts, J. E. Groener, S. Kuiper, W. E. Donker-Koopman, A. Strijland, R. Ottenhoff, C. van Roomen, M. Mirzaian, F. A. Wijburg, G. E. Linthorst, et al. Elevated globotriaosylsphingosine is a hallmark of Fabry disease PNAS, February 26, 2008; 105(8): 2812 - 2817. [Abstract] [Full Text] [PDF]
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 M. R. Soeters, H. P. Sauerwein, J. E. Groener, J. M. Aerts, M. T. Ackermans, J. F. C. Glatz, E. Fliers, and M. J. Serlie Gender-Related Differences in the Metabolic Response to Fasting J. Clin. Endocrinol. Metab., September 1, 2007; 92(9): 3646 - 3652. [Abstract] [Full Text] [PDF]
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