Prolonged PGE2 treatment increased TTX-sensitive but not TTX-resistant sodium current in trigeminal ganglionic neurons

Abstract

Prostaglandin E2 (PGE2) is an important inflammatory mediator for the initiation and maintenance of inflammatory and neuropathic pain. The acute effect of PGE2 on sodium currents has been widely characterized in sensory neurons; however, the prolonged effect of PGE2 remains to be determined. Here, we performed patch clamp recordings to evaluate the acute and prolonged effects of PGE2 on sodium currents in trigeminal ganglionic (TG) neurons from male Sprague–Dawley rats. We found that 24-h treatment with PGE2 (10 μM) increased the peak sodium current density by approximately 31% in a voltage-dependent manner and shifted the activation curve in a hyperpolarized direction but did not affect steady-state inactivation. Furthermore, treatment with PGE2 for 24 h increased the current density of tetrodotoxin-sensitive (TTX-S) but not TTX-resistant (TTX-R) channels significantly. Interestingly, TTX-S current was increased mostly in medium-sized, but not in small-sized, neurons after 24 h of treatment with PGE2. Moreover, the mRNA level of TTX-S Nav1.1 but not TTX-R Nav1.8 or Nav1.9 was significantly increased after 24 h of treatment with PGE2. In contrast, 5-min treatment with PGE2 (10 μM) increased the peak sodium current density by approximately 29% and increased TTX-R sodium currents, but not TTX-S currents, in both small- and medium-sized TG neurons. Our results presented a differential regulation of subtypes of sodium channels by acute and prolonged treatments of PGE2, which may help to better understand the mechanism of PGE2-mediated orofacial pain development.