Human fetal brain cells in aggregate culture: A model system to study regulatory processes of the developing human neuropeptide Y (NPY)-producing neuron

Abstract

Neuropeptide Y (NPY) is one of the most abundant neuropeptides in the brain and it has been implicated in a wide range of brain functions, including mentation. The aim of this study was to establish a culture system of human fetal brain cells expressing NPY in a regulated manner. The NPY production in response to forskolin and phorbol 12-myristate 13-acetate (PMA) was taken as a criterion for regulated expression of NPY. Aggregates were formed from dissociated cells derived from the cerebral hemispheres of human fetuses (12.5–19 weeks' gestation) by constant rotation and were maintained in serum-free medium. A 24 hr exposure to 10 μM forskolin + 20 nM PMA led to a 2–6-fold increase in NPY content of the cultures, most of which (80–90%) was secreted into the medium. The latter consisted of two substances differing in size: one corresponding in size to proNPY and the other to NPY. Thus, forskolin + PMA led to an increased production of NPY. Exposure to PMA alone led to an increase in NPY production comparable to that seen after forskolin + PMA and this effect of PMA was dose-dependent. In contrast, forskolin alone did not induce NPY production. Conditioned medium, derived from monolayer cultures enriched with human astrocytes, enhanced NPY production in response to forskolin + PMA in an age-dependent manner. The NPY production by aggregates derived from a 12.5-week-, 14-week- and 18-week-old fetus was enhanced 3-3.6-fold, 1.6-2-fold and 1.1-fold, respectively. Thus, expression of the NPY neurons in this culture system is a regulated process. The NPY production is enhanced markedly by activation of the protein kinase C pathway and by an astrocyte-derived soluble substance(s). Based on these results, we propose that this culture system can serve as a model for the study of regulatory processes of the human developing NPY neuron.