A Role for Adrenergic Receptors in the Uterotonic Effects of Ergometrine in Isolated Human Term Nonlaboring Myometrium.

BACKGROUND: Ergometrine is a uterotonic agent that is recommended in the prevention and management of postpartum hemorrhage. Despite its long-standing use, the mechanism by which it acts in humans has never been elucidated fully. The objective of this study was to investigate the role of adrenoreceptors in ergometrine's mechanism of action in human myometrium. The study examined the hypothesis that α-adrenoreceptor antagonism would result in the reversal of the uterotonic effects of ergometrine. METHODS: Myometrial samples were obtained from women undergoing elective cesarean delivery. The samples were then dissected into strips and mounted in organ bath chambers. After the generation of an ergometrine concentration-response curve (10 to 10 M), strips were treated with increasing concentrations of ergometrine (10 to 10 M) alone and ergometrine (10 to 10 M) in the presence of phentolamine (10 M), prazosin (10 M), propranolol (10 M), or yohimbine (10 M). The effects of adding ergometrine and the effect of drug combinations were analyzed using linear mixed effects models with measures of amplitude (g), frequency (contractions/10 min), and motility index (g×contractions/10 min). RESULTS: A total of 157 experiments were completed on samples obtained from 33 women. There was a significant increase in the motility index (adding 0.342 g × counts/10 min/µM; 95% confidence interval [CI], 0.253-0.431, P < .001), amplitude (0.078 g/µM; 95% CI, 0.0344-0.121, P = 5e-04), and frequency (0.051 counts/10 min/µM; 95% CI, 0.038-0.063, P < .001) in the presence of ergometrine. The α-adrenergic antagonist phentolamine and the more selective α1-adrenergic antagonist prazosin inhibited the ergometrine mediated increase in motility index, amplitude, and frequency (-1.63 g × counts/10 min/µM and -16.70 g × counts/10 min/µM for motility index, respectively). CONCLUSIONS: These results provide novel evidence for a role for α-adrenergic signaling mechanisms in the action of ergometrine on human myometrial smooth muscle in the in vitro setting. Information that sheds light on the mechanism of action of ergometrine may have implications for the development of further uterotonic agents.

Autoregulated paracellular clearance of amyloid-ß across the blood-brain barrier.

The blood-brain barrier (BBB) is essential for maintaining brain homeostasis and protecting neural tissue from damaging blood-borne agents. The barrier is characterized by endothelial tight junctions that limit passive paracellular diffusion of polar solutes and macromolecules from blood to brain. Decreased brain clearance of the neurotoxic amyloid-ß (Aß) peptide is a central event in the pathogenesis of Alzheimer's disease (AD). Whereas transport of Aß across the BBB can occur via transcellular endothelial receptors, the paracellular movement of Aß has not been described. We show that soluble human Aß(1-40) monomers can diffuse across the paracellular pathway of the BBB in tandem with a decrease in the tight junction proteins claudin-5 and occludin in the cerebral vascular endothelium. In a murine model of AD (Tg2576), plasma Aß(1-40) levels were significantly increased, brain Aß(1-40) levels were decreased, and cognitive function was enhanced when both claudin-5 and occludin were suppressed. Furthermore, Aß can cause a transient down-regulation of claudin-5 and occludin, allowing for its own paracellular clearance across the BBB. Our results show, for the first time, the involvement of the paracellular pathway in autoregulated Aß movement across the BBB and identify both claudin-5 and occludin as potential therapeutic targets for AD. These findings also indicate that controlled modulation of tight junction components at the BBB can enhance the clearance of Aß from the brain.