Estrogen regulates neurofilament gene expression in adult female rat dorsal root ganglion neurons

Abstract Recently, adult female dorsal root ganglion (DRG) neurons were shown to express the estrogen receptor gene and to bind estrogen. This gene expression and binding is hormone dependent. Moreover, in a subpopulation of DRG neurons, the estrogen receptor is colocalized with high-affinity (trkA) and low-affinity (p75 NGFR ) receptors for nerve growth factor (NGF). In this NGF-responsive subpopulation of DRG neurons, estrogen regulates expression of the NGF receptor genes and may increase the sensitivity of these cells to the neurotrophin. The present study tested the hypothesis that neurofilament gene expression, which is regulated by NGF in these cells, is dependent on hormone status. In this study, ovariectomized (OVX) rats received either long-term physiological estrogen (conjugated estrogens; Premarin, Wyeth-Ayerst) replacement (low dose) or 10 times physiological levels (high dose). Quantitative in situ hybridization with an RNA probe for the 68-kDa neurofilament mRNA revealed a significant dose-dependent effect of Premarin on DRG neurofilament gene expression. In OVX animals receiving low-dose Premarin replacement therapy the mean steady-state 68-kDa mRNA level was as high as 4 times that of untreated OVX rats. High-dose therapy increased the mean 68-kDa neurofilament steady-state mRNA level to as much as six-fold that observed in untreated OVX animals. The estrogen-dependent upregulation of neurofilament gene expression appeared to occur in all DRG neurons, rather than in a subpopulation of those cells. These data suggest an important role for estrogen in the maintenance and function of primary sensory neurons. Whether estrogen directly regulates neurofilament gene expression or indirectly regulates it by increasing DRG neuronal sensitivity to neurotrophins or other growth factors remains to be determined.