Nicotine-induced alterations in the expression of nicotinic receptors in primary cultures from human prenatal brain

The nicotinic receptor proteins and gene transcripts for the different nicotinic receptor subunits exist in human prenatal brain already at 4–5 weeks of gestation. The early presence of nicotinic receptors suggests an important role for these receptors in modulating dendritic outgrowth, establishmen...

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Veröffentlicht in:Neuroscience 2001-01, Vol.105 (3), p.527-534
Hauptverfasser: Hellström-Lindahl, E, Seiger, Å, Kjældgaard, A, Nordberg, A
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Sprache:eng
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Zusammenfassung:The nicotinic receptor proteins and gene transcripts for the different nicotinic receptor subunits exist in human prenatal brain already at 4–5 weeks of gestation. The early presence of nicotinic receptors suggests an important role for these receptors in modulating dendritic outgrowth, establishment of neuronal connections and synaptogenesis during development. When measurements of nicotinic receptors using [ 3H]epibatidine (labelling both the α3 and α4 subtype) and [ 3H]cytisine (labelling the α4 subtype) were performed in intact cells from the cortex, subcortical forebrain and mesencephalon (7.5–11 weeks of gestation), the highest specific binding for both ligands was detected in cells from mesencephalon, followed by subcortical forebrain and cortex. The effects of nicotine exposure were studied in primary cultures of prenatal brain (7.5–11 weeks of gestation). Treatment with nicotine (1–100 μM) for 3 days significantly increased the specific binding of [ 3H]epibatidine and [ 3H]cytisine in cortical cells but not in cells from subcortical forebrain and mesencephalon brain regions, indicating region-specific differences in the sensitivity to nicotine exposure. Relative quantification of mRNA showed that the expression of the nicotinic receptor subunits α3 and α7, but not α4, was increased in cortical cells after nicotine treatment. These findings support the assumption of a potential risk of disturbance in the functional role of nicotinic receptors during brain development as a consequence of maternal smoking during pregnancy.
ISSN:0306-4522
1873-7544
DOI:10.1016/S0306-4522(01)00209-3