The Journal of comparative neurology
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Progesterone is well known for its role in the modulation of sexual behavior. In the ventromedial nucleus (VMN), a part of the mediobasal hypothalamus that regulates sexual behavior in female rodents, estrogens induce the expression of progesterone receptors (PRs). This effect is known to be dependent on the activation of nuclear estrogen receptors (ERs). ⋯ The results showed that the administration of E2 BSA alone increases the number of PR-immunoreactive neurons and the expression level of PR protein to values similar to those resulting from E2 administration. They also showed that the sequential administration of E2 and E2 BSA potentiates the effects resulting from the injection of E2 or E2 BSA alone. These data provide the first evidence that membrane-initiated E2 stimulation is able to induce and to potentiate the genomic activation of PR expression in the VMN.
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The γ isoform of protein kinase C (PKCγ), which is concentrated in interneurons in the inner part of lamina II (IIi ) of the dorsal horn, has been implicated in the expression of tactile allodynia. Lamina IIi PKCγ interneurons were shown to be activated by tactile inputs and to participate in local circuits through which these inputs can reach lamina I, nociceptive output neurons. That such local circuits are gated by glycinergic inhibition and that A- and C-fibers low threshold mechanoreceptors (LTMRs) terminate in lamina IIi raise the general issue of synaptic inputs to lamina IIi PKCγ interneurons. ⋯ PKCγ-immunoreactive interneurons contain GABAA ergic and glycinergic receptors. At the subcellular level, PKCγ-immunoreactivity is mostly concentrated on plasma membranes, close to, but not within, postsynaptic densities. That only myelinated primary afferents were found to contact PKCγ-immunoreactive interneurons suggests that myelinated, but not unmyelinated, LTMRs play a critical role in the expression of mechanical allodynia.