Estrogen enhances the growth and differentiation of neurites within the developing forebrain. A critical issue is whether these developmental actions of estrogen are mediated directly or indirectly by means of autocrine responses or local paracrine mechanisms, through interactions with growth factors, such as the neurotrophins, and their receptors. Support for the latter hypothesis comes from our recent observations of co-expression of estrogen receptor mRNA with the mRNAs for the neurotrophins and their receptors; differential and reciprocal up-regulation of estrogen and NGF receptor mRNA and protein expression by estrogen in adult female rat sensory neurons, PC12 cells; and cerebral cortical cultures; and putative estrogen response elements in the NGF, BDNF, trkA and p75 genes. Estrogen and the neurotrophins may influence each other's actions by regulating receptor and ligand availability or by reciprocal regulation at the level of signal transduction or gene transcription. The neurotrophins may serve as regulatory "switches" for the apparent developmentally-regulated, differential pattern of estrogen receptor regulation by its ligand, whereby their ability to increase estrogen receptor levels significantly may be sufficient to override the intrinsic suppressive action of estrogen on its receptor. Estrogen and the neurotrophins, acting in concert and reciprocally, may stimulate the synthesis of proteins required for neuronal differentiation, survival and maintenance of function.