Smooth muscle contraction of the fundus of stomach, duodenum and bladder from mice exposed to a stress-based model of depression.

Several reports have demonstrated that depressive disorder is related to somatic symptoms including gastrointestinal or genitourinary alterations. The pathophysiological mechanisms underlying the gastrointestinal or genitourinary alterations associated with the depression are still not fully understood. Therefore, this study aimed to evaluate the motor activity of gastrointestinal (fundus of stomach and duodenum) and genitourinary tract (bladder) in a stress-based animal model of depression. Adult male mice were submitted to uncontrollable and unpredictable stress (learned helplessness model), controllable stress and non-stressful situations (control). Then, animals were euthanized and the fundus of stomach, duodenum segments or whole bladder were isolated and mounted in a standard organ bath preparation. We evaluated the contractile effects induced by KCl 80 mM for 5 min or carbachol (acetylcholine receptor agonist). The relaxant effects of isoproterenol (ß-adrenoceptor agonist) were also checked. Animals submitted to the learned helplessness model developed a helpless (depressive-like behavior) or resilient (does not exhibit depressive-like behavior) phenotype. The contractions induced by carbachol were diminished in fundus of stomach isolated from helpless and resilient animals. The isoproterenol-induced fundus of stomach relaxation was reduced in resilient but not helpless mice. The contractions/relaxation of duodenum segments isolated from helpless or resilient animals were not altered. Both helpless and resilient animals showed an increase in the bladder contractions induced by carbachol while the relaxant effects of isoproterenol were reduced when compared to control. Conversely, mice underwent a controllable stress situation did not exhibit alterations in the fundus of stomach or duodenum contraction/relaxation induced by pharmacological agents although a decrease in the bladder contraction induced by carbachol was found. In conclusion, incontrollable and unpredictable stress and not depressive phenotype (helpless animals) or controllable stress could be related to the alterations in motor activity of the fundus of stomach and bladder.

Effects of histamine on the contractility of the rat distal cauda epididymis.

The motor activity of the epididymis duct is an essential process for male fertility and it is regulated by hormonal, neuronal and epithelial mechanisms. However, although there is evidence for the presence of histamine in the epididymis, its effects on epididymal motor activity are unknown. This study sought to evaluate the contractile effects of histamine on the rat distal cauda epididymis duct. Segments of the distal cauda epididymis duct from male Wistar rats were isolated and used in isolated organ bath experiments to evaluate the contractile effects of histamine in the absence or presence of antagonists of histamine receptors, α1-adrenoceptors and muscarinic acetylcholine receptors. The effects of histamine on noradrenaline induced contractions were also investigated. Histamine was able to induce phasic contractions on rat distal cauda epididymis duct which were prevented by promethazine 10-1000 nM (H1 receptor antagonist), ranitidine 1-100 µM (H2 receptor antagonist), atropine 100 nM (muscarinic antagonist), and prazosin 100 nM (α1-adrenoceptor antagonist). In addition, histamine was also able to modify noradrenaline-induced contractions possibly via activation of H1 and H2 receptors. In conclusion, this study demonstrates that histamine can induce phasic contractions of rat distal cauda epididymis via H2 receptors and autonomic neurotransmitters. Histamine may also exert modulatory actions on contractions of rat distal cauda epididymis duct induced by adrenergic receptor agonists. Further studies are necessary to unveil the localization of histamine receptors within the epididymal duct and the consequences of manipulation of the histaminergic system on epididymal function and male fertility.

Fluoxetine and sertraline effects on rat distal cauda epididymis contraction, sperm count and sperm transit time trough epididymis.

Fluoxetine and sertraline are antidepressants drugs capable to impair male fertility by decreasing the number of sperm cells in the ejaculate. However, the mechanism underlying these effects is still not fully understood. It is also reported that alterations in epididymis contraction induced by different drugs affect the number of sperm cells, leading to male fertility alterations. Therefore, this study aimed to investigate if both fluoxetine and sertraline could affect the rat epididymis contraction, altering the sperm transit and/or sperm count trough rat epididymis. In vitro effects of fluoxetine and sertraline (1, 3 and 10 µM) were evaluated in isolated distal cauda epididymis of rats by pharmacological experiments. The effects of long-term treatment with fluoxetine and sertraline (20 mg/kg, i.p., 21 days) were also checked on distal cauda epididymis contractions, serum testosterone levels, sperm production, sperm reserves and sperm transit time trough rat epididymis. In vitro fluoxetine and sertraline (>3 µM) impaired the contractions induced by KCl, phenylephrine or carbachol although fluoxetine 1 µM potentiate the phenylephrine-induced contractions. Long-term in vivo treatment with fluoxetine and sertraline promoted: (a) an enhancement of rat distal cauda spontaneous contractions; (b) a potentiation of phenylephrine-induced contractions; (c) a decreased in serum testosterone levels; and (d) a diminished daily sperm production, sperm reserves trough epididymis and sperm transit time in rat cauda epididymis. In conclusion, the alteration in the motor activity of epididymis could be associated to the low sperm count in this organ and accelerated transit time trough epididymal cauda of rats.