Differetial sensitivity of spontaneously hypertensive rats to the hypothermic effect of dopaminergic drugs

The dopaminergic agonist apomorphine produces dose-related hypothermia in naive rats as does L-DOPA in carbidopa-pretreated rats. The hypothermic responses to these two dopaminergic drugs were significantly more pronounced and prolonged in the spontaneously hypertensive rat than in normotensive Wistar control rats. The greater sensitivity of the SHR to these drugs was reflected as a leftward shift of the dose-response curves for apomorphine- and L-DOPA-induced hypothermias.     

Differences in chemical composition of plants grown at constant relative growth rates with stable mineral nutrition

Summary Leaf chemistry of a willow clone (Salix aquatica Smith) differed significantly when grown at constant relative growth rates depending upon the relative availability of nutrients and light. Concentration of amino acids and nitrate were high in plants grown with a relative surplus of nutrients. Concentrations of starch, tannin, and lignin, on the other hand, were high in plants grown with a relative surplus of carbon. Photosynthetic rates, expressed per unit leaf area, were similar when plants were grown under high light conditions, regardless of nutrient availability. Dark respiration was much higher in plants supplied with abundant nutrients than in those with a more limited supply, reflecting differences in nitrogen concentration of the tissue. The experimental approach allows plants to be grown to a standard size with differing, but highly uniform chemistry. Plants grown in such a manner may provide good experimental material to evaluate interactions between herbivores or pathogens and their hosts.     

Ultrasonographic assessment of the endometrium in rhesus monkeys during the normal menstrual cycle

This study was undertaken to determine whether cyclical changes in the endometrium of the rhesus monkey could be observed by using ultrasound. Three indices of endometrial size were examined: the antero-posterior (or ventro-dorsal), longitudinal, and transverse diameters. Changes in the ultrasonic reflectivity of the endometrium were also assessed. We have attempted to correlate these endometrial parameters with the hormonal status of the animal. Ultrasonography was performed for an average of 12 consecutive days during 19 menstrual cycles. All ultrasonic recordings were normalized to the day of the estradiol (E2) peak (Day 0). We found that the reflectivity of the endometrium was dependent on the stage of the cycle: during the follicular phase, the endometrium appeared less echogenic (darker) compared to the myometrium; in the luteal phase, the endometrium was more echogenic (lighter). During the follicular phase (Days -9 to 0), there was a linear increase in the antero-posterior (p less than 0.001), longitudinal (p less than 0.05), and transverse (p less than 0.001) diameters. In the luteal phase (Days 1-15), no significant changes were observed in these diameters. An estimated endometrial volume (EEV) was obtained by the product of the antero-posterior, longitudinal, and transverse diameters. Each animal observed during the follicular phase (n = 14) exhibited a peak in the EEV, which correlated with the day of the E2 peak (p less than 0.01). From this study, we conclude that the sonographic appearance of the endometrium of the rhesus monkey reflects the cyclical changes that occur during the menstrual cycle.(ABSTRACT TRUNCATED AT 250 WORDS)     

Pulmonary vasodilatory response to neurohypophyseal peptides in the rat.

Experiments were performed on isolated salt-perfused rat lungs to determine the receptor type(s) responsible for the pulmonary vascular effects of the neurohypophyseal peptides arginine vasopressin (AVP) and oxytocin. Bolus administration of AVP to lungs preconstricted with the thromboxane mimetic U-46619 resulted in a dose-dependent vasodilatory response (approximately 65% reversal of U-46619-induced vasoconstriction at the highest dose tested) that was blocked by pretreatment with a selective V1- but not by a selective V2-vasopressinergic receptor antagonist. Administration of a selective V1-agonist to the preconstricted pulmonary vasculature resulted in a vasodilatory response similar to that observed with AVP (approximately 55% reversal of U-46619 vasoconstriction), which was blocked by prior administration of the selective V1-receptor antagonist. Administration of the selective V2-receptor agonist desmopressin to the preconstricted pulmonary vasculature resulted in a small (approximately 8% reversal of U-46619 vasoconstriction) vasodilatory response that was, nevertheless, greater than that produced by addition of vehicle alone and was attenuated by pretreatment with a selective V2-receptor antagonist. Finally, oxytocin also caused vasodilation in the preconstricted pulmonary vasculature; however, the potency of oxytocin was approximately 1% of AVP, and the vasodilation produced by oxytocin was blocked by prior administration of a selective V1-receptor antagonist, suggesting that oxytocin acts via V1-vasopressinergic receptor stimulation. We conclude from these experiments that AVP and oxytocin dilate the preconstricted pulmonary vasculature primarily via stimulation of V1-vasopressinergic receptors. V2-receptor stimulation results in a minor vasodilatory response, although its physiological significance is unclear.