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J Biol Chem, Vol. 273, Issue 14, 8508-8515, April 3, 1998
From the Department of Biomedical Sciences, Eunice Kennedy Shriver
Center for Mental Retardation, Waltham, Massachusetts 02254 and the
Department of Neurology, Harvard Medical School,
Boston, Massachusetts 02115
Sulfoglucuronyl carbohydrate (SGC)
linked to the terminal moiety of neolacto-oligosaccharides is expressed
in several glycoproteins of the immunoglobulin superfamily involved in
neural cell-cell recognition as well as in two
sulfoglucuronylglycolipids (SGGLs) of the nervous system. SGGLs and
SGC-containing glycoproteins are temporally and spatially regulated
during development of the nervous system. In the cerebellum, the
expression of SGC, particularly that of SGGLs, is biphasic. Several
studies have suggested that the initial rise and decline in the levels
of SGGLs and SGC-containing proteins correlated with the migration of
granule neurons from the external granule cell layer to the internal
granule cell layer and their subsequent maturation, whereas the later
rise and continued expression of SGGLs in the adult was associated with
their localization in the Purkinje neurons and their dendrites in the
molecular layer. Here it is shown by immunocytochemical methods that
the expression of SGC declined progressively in granule neurons
isolated from cerebella of increasing age. The decline in the
expression of SGC in granule neurons was also shown with time in
culture. These results correlated with the previously shown declining
activity of the regulatory enzyme lactosylceramide
N-acetylglucosaminyltransferase (GlcNAc-Tr) with age
in vivo and in isolated granule neurons in culture.
GlcNAc-Tr synthesizes a key precursor, lactotriosylceramide, involved
in the biosynthesis of SGGL-1. The down-regulated synthesis of SGGLs in
the mature granule neurons was shown by immunocytochemical and
biochemical methods to be restored when a precursor,
glucuronylneolactotetraosylceramide (GGL-1), which is beyond the
GlcNAc-Tr step, was exogenously provided to these cells. The biological
effect of such restoration of the synthesis of SGGLs in the mature
granule neurons leads to cell aggregation and enhanced proliferation of
neurites, amounting to dedifferentiation.
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