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Vol. 273, Issue 2, 1184-1191, January 9, 1998
From the Kekulé-Institut für Organische Chemie und
Biochemie, Universität Bonn, 53121 Bonn, Federal Republic of
Germany and the § Department of Membrane Research and
Biophysics, Weizmann Institute of Science,
Rehovot 76100, Israel
1-Methylthiodihydroceramide (10 µM) decreased de novo ceramide
biosynthesis by about 90% in primary cultured cerebellar neurons. Accordingly, de novo formation of sphingomyelin and of
glycosphingolipids, all of which contain ceramide in their backbone,
was reduced in a time- and concentration-dependent manner
by up to 80%. Complex sphingolipid synthesis was restored upon
addition of dihydroceramide or ceramide, in micromolar concentrations,
to the culture medium, suggesting that none of the glycosyltransferases
involved in glycosphingolipid biosynthesis is inhibited by this analog.
Assays of the enzymes catalyzing sphinganine biosynthesis, as well as
its N-acylation to form dihydroceramide, revealed that they
were also not affected. In contrast, there was a 2.5-fold increase in
the activity of sphinganine kinase. Reduction of de novo
sphingolipid biosynthesis by 1-methylthiodihydroceramide is therefore
due to its ability to deplete cells of newly formed free sphinganine.
As a consequence of depletion of sphinganine levels,
1-methylthiodihydroceramide disrupted axonal growth in cultured
hippocampal neurons in a manner similar to that reported for direct
inhibitors of sphingolipid synthesis; thus, there was essentially no
axon growth after incubation with 1-methylthiodihydroceramide between
days 2 and 3, and co-incubation with short acyl chain analogs of
ceramide (5 µM) antagonized the inhibition of growth.
Interestingly, the D-erythro and the
L-threo isomere were equally effective, but the
corresponding free base as well as other structurally related compounds
did not affect either sphingolipid biosynthesis or neuronal growth.
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