Effects of glucocorticoid treatment on catecholamine content and ultrastructure of adult rat carotid body

Abstract

Carotid bodies of dexamethasone-treated (daily injections, 10 days) adult male rats were analyzed with respect to catecholamine content and ultrastructure. Gas chromatographic-mass spectrometric assays demonstrated that norepinephrine (NE) and dopamine (DA) concentrations more than doubled after dexamethasone treatment. The increase in NE was relatively greater than that of DA. No epinephrine (E) could be detected. Morphometry revealed, as for the control carotid bodies, two subclasses of type I cells on the basis of the diameters of their dense-cored vesicles. These groups of cells were termed small vesicle cells (SVC) and large vesicle cells (LVC). Dexamethasone treatment resulted in significantly increased volume densities and diameters of the dense-cored vesicles in both SVC and LVC. The greatest increase occurred in the SVC. If these morphological changes do reflect the change in amine concentrations then it is possible to speculate that the type of cells with the greatest increase of amine storage capacity may store the kind of catecholamine most increased. Thus NE may presumably be stored in the SVC and DA in the LVC. Furthermore, these effects of administered glucocorticoids may also indicate a regulatory function for endogenous glucocorticoids on the carotid body catecholamines.