Effect of hormones and growth factors on the proliferation of adult cricket neural progenitor cells in vitro.

In the adult cricket brain, a cluster of neuroblasts produces new interneurons that integrate into the mushroom body (MB), the main associative structure for multisensory information of the insect brain. In previous study we showed the antagonist role of the two morphogenetic hormones, juvenile hormone (JH) and ecdysone, on the regulation of adult MB neurogenesis in vivo. In order to examine whether these hormones act directly on neural progenitor cells, we developed an organotypic culture of MB cortices. Cell proliferation was assessed by 5-bromo, 2'-deoxyuridine (BrdU) incorporation. We showed that JH increased mushroom body neuroblast (MBNb) proliferation, confirming the mitogenic effect of JH observed in vivo. By contrast, ecdysone did not affect the amount of BrdU-labeled nuclei, suggesting that the inhibitory effect observed in vivo probably proceeded from an indirect pathway. We then examined the role of growth factors known to stimulate neural stem cell/progenitor cell proliferation in vertebrates. As shown by calcium imaging, MBNb only expressed functional receptors for insulin whereas mature interneurons responded to IGF-I and bFGF. Both insulin (10 microg/ml) and IGF-I (10 ng/ml) enhanced MB progenitor cell proliferation in culture, although the insulin effect was more pronounced. This effect was abolished when an inhibitor of polyamine biosynthesis was present in the medium, suggesting a link between polyamines and the insulin signaling pathway. By contrast, bFGF (20-200 ng/ml) failed to stimulate MBNb proliferation. Our results point to conserved and divergent mechanisms between vertebrates and invertebrates in the regulation of adult neural progenitor cell proliferation.