CFTR is functionally active in GnRH-expressing GT1-7 hypothalamic neurons.

We have demonstrated the expression of the cystic fibrosis transmembrane conductance regulator (CFTR) gene, mRNA, and protein within the rat and human brains, in areas regulating sexual differentiation and function. We have found that GT1-7, a gonadotropin-releasing hormone (GnRH)-secreting hypothalamic neuronal cell line, expresses the CFTR gene, mRNA, and protein and cAMP-dependent (36)Cl efflux. A linear 7-pS Cl- conductance, which is stimulated by ATP and cAMP analogs and inhibited by glibenclamide, consistent with CFTR activity, has been identified in GT1-7 cells. Antisense oligo(dN) generated against exon 10 of the CFTR gene transcript (mRNA) inhibit GnRH secretion into media [312 +/- 73, 850 +/- 150, 963 +/- 304, and 912 +/- 74 pg GnRH/4 x 10(6) cells for antisense, sense, missense, and no oligo(dN), respectively; P < 0. 029 for antisense oligo(dN)-treated vs. normal cells]. No changes in intracellular synthesis of GnRH were noted [1,400 +/- 371 and 1,395 +/- 384 pg GnRH/4 x 10(6) cells for antisense and sense oligo(dN), respectively]. Antisense oligo(dN), but not sense or missense oligo(dN), inhibited cAMP-dependent 36Cl efflux. The expression of CFTR protein, detected by Western blotting, was also inhibited 68% by preincubation of cells with antisense oligo(dN). GT1-7 hypothalamic neurons express the CFTR gene, mRNA, and protein, which modulate neurosecretion. Abnormal neuropeptide vesicle trafficking by mutant CFTR may help to explain some of the diverse manifestations of cystic fibrosis.

Cystic fibrosis transmembrane conductance regulator expression in human hypothalamus.

We have previously characterized the expression of the cystic fibrosis transmembrane conductance regulator protein (CFTR) gene, mRNA and protein in rat brain with reverse transcriptase (RT)-PCR amplification, in situ hybridization and immunocytochemistry. We now report that the CFTR mRNA is expressed in the human anterior hypothalamus, an area involved in regulation of appetite, resting energy expenditure and sexual differentiation. Expression of CFTR in neurons localized to this region may elucidate the pathogenesis of other non-pulmonary manifestations of cystic fibrosis which commonly are observed in children with CF, including congenital absence of the vas deferens. Neuron-specific expression of CFTR in brain may be involved in the regulation of homeostatic functions including reproductive function and fertility through effects on neurosecretion, i.e. GnRH release. Dysregulation of normal neuropeptide vesicle trafficking by mutant CFTR in brain my lead to alteration in physiological function.