Locus coeruleus electrophysiological activity and responsivity to corticotropin-releasing factor in inbred hypertensive and normotensive rats

Abstract

The spontaneously hypertensive rat (SHR) and its normotensive progenitor, the Wistar–Kyoto rat (WKY), have been shown to be differentially responsive to the behavioral and endocrine effects of both stress and corticotropin-releasing factor (CRF), both of which increase locus coeruleus (LC) electrophysiological activity. However, the effect of central administration of CRF in these rat strains has yet to be examined. In the present studies, LC electrophysiological responsivity to intracerebroventricular infusions of CRF was assessed in SHR, an inbred strain of WKY rats (the WKY LJ rat), and an outbred normotensive rat strain, Sprague-Dawley (SD) rats. Spontaneous LC discharge rate, mean arterial blood pressure and heart rate were also examined. LC activity was increased to the same extent in the three rat strains in response to a 3 μg dose of CRF. However, WKY LJ rats showed an exaggerated LC in response to a 1 μg dose of CRF in comparison to the other rat strains tested at this dose. Spontaneous discharge rates of individual LC neurons were lower in both SHR and WKY LJ rats than in SD rats. Further, the variability of the discharge rates of LC neurons was greater in WKY LJ rats than in the other two strains. These results indicate that the WKY LJ rat may provide a useful model for assessing the role of sensitivity to CRF in stress responsiveness.