Somatostatin as a neurotrophic factor. Which receptor/second messenger transduction system is involved?

Abstract

A variety of studies support a trophic role for somatostatin in the developing nervous system, evidenced as stimulation of neurite outgrowth and axonal or neuronal migration in both in vivo and culture models. Cloning experiments have now demonstrated the existence of five subtypes of somatostatin receptor, differentially distributed in the nervous system, differentially linked to specific signal transduction systems and in certain cases differentially expressed during development. The combination of the differential and developmental regulation of expression of both the somatostatin peptides and their receptors thus provides great potential in terms of trophic effects. To substantiate trophic effects of somatostatin, data are presented from two different model systems, cultures of cerebellar granule cells as well as transgenic mice in which somatostatin is expressed under the control of the glial fibrillary acidic protein promoter. Finally, potential receptor subtypes and second messenger systems involved in these trophic effects are addressed.