Oxytocin (OT) and arginine vasopressin (AVP), in their capacities as neuromodulators, are believed to play an important role in mood control, including regulation of the anxiety response. In the present study, the contributions of oxytocin and vasopressin receptor modulation to anxiety-like behaviors were examined in male Sprague-Dawley rats. The behavioral effects of the OT receptor agonist, carbetocin (intracerebroventricular, intravenous and intraperitoneal routes), the AVP receptor agonist desmopressin (intravenous route), and the OT/AVP(1A) receptor antagonist atosiban (intravenous route) were evaluated in the elevated plus maze. The benzodiazepine diazepam was included as a positive control. Central but not systemic administration of carbetocin produced pronounced anxiolytic-like behavioral changes comparable to those measured following systemic diazepam treatment. The anxiolytic efficacy of carbetocin was maintained following 10 days of once-daily treatment, contrasting with the effects of diazepam which were no longer distinguishable from saline treatment. Systemic administration of desmopressin produced anxiogenic-like effects whereas systemic atosiban produced anxiolytic-like effects. Co-administration of desmopressin with atosiban resulted in saline-like behavioral responses, implicating an AVP(1A) receptor mechanism in the anxiolytic and anxiogenic effects of these neuropeptides following systemic administration. A peripherally-mediated antidiuretic effect of desmopressin on water consumption was also demonstrated. These results highlight the potential therapeutic utility of AVP(1A) receptor blockade in the modulation of anxiety-related behaviors; AVP(1A) receptor blockade appears to be a more promising pharmacological target than does OT receptor activation following systemic drug administration.
Carbetocin produced antidepressant-like changes in behavior via activation of oxytocin receptors in the CNS. The similarities between imipramine and carbetocin in the forced swim test suggest that drugs which target the oxytocinergic system may aid both the understanding and pharmacological treatment of depressive illness.
This is the first preclinical study to use a model of neuropathic pain to demonstrate the utility of the BK procedure for delivering a long-lasting reduction in hyperalgesia and improved antinociceptive responsiveness to opioids.
A two-pool model is proposed as a first approximation of the dynamics of thyroid hormone dissolution and absorption in the human gut. It is shown that this model, or any more complex one of the same process, must be imbedded in a larger whole-body model for the purpose of quantifying its parameters. Parameter identification experiments are designed with the aid of identifiability analysis and a complete quantification is obtained, for both triiodothyronine (T3) and thyroxine (T4) absorption, using kinetic data obtained from the literature. The average percent absorption of oral dosages calculated from the model for T3 (95.8%) and for T4 (49.3%) are exceptionally close to reported measured values. Other data not used in model development also serve to validate the results, for use in applications not demanding greater physiological detail, such as for determining the bioavailability of orally administered hormones, or for the "inverse problem," computing optimal dosage regimens for hormone therapy.
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