Ceramide Inhibits Axonal Growth and Nerve Growth Factor Uptake without Compromising the Viability of Sympathetic Neurons

Elena Posse De Chaves,Miguel Bussiere,Bronwyn Macinnis,Dennis E Vance,Robert B Campenot,Jean E Vance

doi:10.1074/jbc.m104282200

Elena Posse De Chaves, Miguel Bussiere + Show 4 more

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Ceramide inhibits axonal growth of cultured rat sympathetic neurons when the ceramide content of distal axons, but not cell bodies, is increased (Posse de Chaves, E. I., Bussiere, M. Vance, D. E., Campenot, R. B., and Vance, J.E. (1997) J. Biol. Chem. 272, 3028-3035). We now report that inhibition of growth does not result from cell death since although ceramide is a known apoptotic agent, C(6)-ceramide given to the neurons for 24 h did not cause cell death but instead protected the neurons from death induced by deprivation of nerve growth factor (NGF). We also find that a pool of ceramide generated from sphingomyelin in distal axons, but not cell bodies, inhibits axonal growth. Analysis of endogenous sphingomyelinase activities demonstrated that distal axons are rich in neutral sphingomyelinase activity but contain almost no acidic sphingomyelinase, which is concentrated in cell bodies/proximal axons. Together, these observations are consistent with the idea that generation of ceramide from sphingomyelin by a neutral sphingomyelinase in axons inhibits axonal growth. Furthermore, we demonstrate that treatment of distal axons with ceramide inhibits the uptake of NGF and low density lipoproteins by distal axons by approximately 70 and 40%, respectively, suggesting that the inhibition of axonal growth by ceramide might be due, at least in part, to impaired endocytosis of NGF. However, inhibition of endocytosis of NGF by ceramide could not be ascribed to decreased phosphorylation of TrkA.

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Ceramide has been widely recognized as a lipid second messenger in many cell types, and ceramide can be generated from a variety of sources by the action of the enzyme ceramide synthase, from glycosphingolipid catabolism, or from the hydrolysis of sphingomyelin via one of several sphingomyelinases that have been identified [1,2,3,4,5,6]
Since ceramide has been implicated as an inducer of apoptotic cell death in numerous cell types [9, 12,13,14,15,16,17,18,19], including neurons and neuron-derived cells (20, 25, 26, 29 –31, 33), we assessed the viability of rat sympathetic neurons treated with cell-permeable C6-ceramide using the Cell Titer 96 assay that measures mitochondrial function
When the neurons were incubated with medium that had been depleted of nerve growth factor (NGF), but contained ceramide, cell viability was the same as that of neurons cultured in the presence of NGF

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The abbreviations used are

C6-ceramide, N-hexanoyl-D-erythrosphingosine; C6-dihydroceramide, N-hexanoyl-D-sphinganine; LDL, low density lipoproteins; NBD-ceramide, N-{6-[(7-nitrobenz-2-oxa-1,3-diazol-4-yl)amino]caproyl}-D-erythro-sphingosine; NGF, nerve growth factor; PPMP, DL-1-phenyl-2-palmitoylamino-3-morpholino-1-propanol. Ceramide and Axonal Growth ceramide inhibits the uptake of NGF by a mechanism that does not involve reduced phosphorylation of TrkA. Since axonal elongation of sympathetic neurons requires NGF, inhibition of axonal growth by ceramide might, at least in part, result from decreased endocytosis of NGF

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