Relationship among sensitivity to adrenaline, plasma corticosterone level; and estrous cycle in rats

The dose–response curves to the chronotropic effect of adrenaline obtained in right atria isolated from female rats indicated an order of increasing sensitivity to adrenaline, at the pD2 level, according to the estrous cycle, as follows: estrus ≤ metestrus ≤ diestrus ≤ proestrus. Inhibition of neuronal and extraneuronal uptake shifted the dose–response curves to adrenaline to the left only in right atria isolated from rats during estrus or metestrus. Moreover, under these experimental conditions, right atria were subsensitive to adrenaline during proestrus, in contrast to metestrus. Plasma corticosterone levels were lower during estrus and higher at proestrus. There was a positive correlation between right atria sensitivity to adrenaline and plasma corticosterone levels and estrous cycle phases. Our results also suggest that in the rat right atria during proestrus, as opposed to the other phases of the estrous cycle, there was an endogenous inhibition of extraneuronal uptake together with some alteration at the adrenoceptor level and (or) at intracellular mechanisms beyond receptors.Key words: adrenergic response, female, adrenaline, chronotropism, right atria.

Maturation of catecholamine response and extraneuronal uptake in rabbit trachea

The present study investigated whether maturational changes in extraneuronal catecholamine clearance accounted for the ontogenetic attenuation of isoproterenol responsiveness in rabbit tracheal segments. Following half-maximal contraction with acetylcholine (ACh) or KCl, tracheal ring segments (TS) isolated from newborn, 1-mo, and adult rabbits were relaxed with cumulative administration of isoproterenol. With postnatal maturation, there occurred a significant decrease in both maximal relaxation and sensitivity to isoproterenol in both ACh- and KCl-contracted TS. Inhibition of extraneuronal catecholamine uptake with methylprednisolone resulted in enhanced sensitivity to isoproterenol in 1-mo and adult, but not in newborn tracheal segments. In separate studies, extraneuronal catecholamine uptake was directly assayed in tracheal segments isolated from rabbits of similar age and pretreated with neuronal uptake and monoamine oxidase inhibitors. Maximal extraneuronal uptake of [3H]norepinephrine significantly decreased with age in tracheal tissues. In contrast, the sensitivity of the uptake process to norepinephrine increased with age. The relative catecholamine reserve markedly decreased with age in rabbit tracheal segments and was directly related to the maximal degree of relaxation elicited with the beta-adrenergic catecholamine, isoproterenol, in age-matched TS precontracted with either ACh or KCl. These findings suggest that, with maturation, extraneuronal uptake more effectively competes with beta-adrenoreceptor stimulation and, accordingly, may contribute to the ontogenetic attenuation of beta-adrenergic responsiveness in rabbit tracheal tissues.