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Primary human astrocytes produce 24(S),25-epoxycholesterol with implications for brain cholesterol homeostasis.

Wong J, Quinn CM, Guillemin G, Brown AJ

School of Biotechnology and Biomolecular Sciences, University of New South Wales, Sydney, New South Wales, Australia.

Cholesterol is an essential component of the CNS and its metabolism in the brain has been implicated in various neurodegenerative diseases. The oxysterol produced from cholesterol, 24(S)-hydroxycholesterol, is known to be an important regulator of brain cholesterol homeostasis. In this study, we focussed on another oxysterol, 24(S),25-epoxycholesterol (24,25EC), which has not been studied before in a neurological context. 24,25EC is unique in that it is synthesized in a shunt in the mevalonate pathway, parallel to cholesterol and utilizing the same enzymes. Considering that all the cholesterol present in the brain is derived from de novo synthesis, we investigated whether or not primary human neurons and astrocytes can produce 24,25EC. We found that astrocytes produced more 24,25EC than neurons under basal conditions, but both cell types had the capacity to synthesize this oxysterol when the enzyme 2,3-oxidosqualene cyclase was partially inhibited. Furthermore, both added 24,25EC and stimulated cellular production of 24,25EC (by partial inhibition of 2,3-oxidosqualene cyclase) modulated expression of key cholesterol-homeostatic genes regulated by the liver X receptor and the sterol regulatory element-binding protein-2. Moreover, we found that 24,25EC synthesized in astrocytes can be taken up by neurons and exert downstream effects on gene regulation. In summary, we have identified 24,25EC as a novel neurosterol which plays a likely role in brain cholesterol homeostasis.

Published 21 November 2007 in J Neurochem, 103(5): 1764-73.
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