1. Cholestatic liver disease is associated with nitric oxide (NO) overproduction and bradycardia. Nitric oxide has a dual effect on sinoatrial node and its effects depend on its concentration. Nitric oxide can increase heart rate by activating hyperpolarization-activated pacemaker current (If) but, at high concentrations, it can potentially decrease heart rate by inhibition of L-type calcium current. In the present study, the responsiveness of isolated atria to CsCl (an inhibitor of the If current) and acetylcholine (ACh; which decreases L-type calcium current through a NO-dependent pathway) were evaluated in bile duct-ligated and sham-operated control rats. 2. Bile duct ligation induced a significant decrease in the negative chronotropic effect of CsCl (0.2-5 mmol/L), but increased the responsiveness of isolated atria to ACh (10-8 to 10-3 mol/L). These effects were restored after incubation of the atria in the presence of the NO synthase inhibitor NG-nitro-l-arginine methyl ester (0.1 mmol/L). 3. Anaesthetized bile duct-ligated rats showed bradycardia and the plasma levels of NO2-/NO3- were significantly higher in bile duct-ligated rats compared with sham-operated animals. 4. Different and opposite responses of atria of cholestatic rats to CsCl and ACh can be explained by NO overproduction in bile duct-ligated animals. A dual role of NO in the regulation of the sinoatrial node may be responsible for this opposite effect and may have a role in the pathophysiology of cholestasis-induced bradycardia.
Studies show that gender plays an important role in stress-related disorders, and women are more vulnerable to its effect. The present study was undertaken to investigate differences in the change in expression of brain-derived neurotrophic factor (BDNF), and its tyrosine intracellular kinase-activating receptor (TrkB) genes in the male and female rats' hippocampus (HPC) under chronic mild repeated stress (CMRS) conditions. In this experiment, male and female Wistar rats were randomly divided into two groups: the CMRS and the control group. To induce stress, a repeated forced swimming paradigm was employed daily for adult male and female rats for 21 days. At the end of the stress phase, elevated plus maze (EPM) was used for measuring the stress behavioral effects. Serum corticosterone level was measured by ELISA. BDNF and TrkB gene methylation and protein expression in the HPC were detected using real-time PCR and Western blotting. Chronic stress in the adolescence had more effects on anxiety-like behavior and serum corticosterone concentration in female rats than males. Furthermore, stressed female rats had higher methylation levels and following reduced protein expression of BDNF but not TrkB compared to stressed male rats. These findings suggest that in exposure to a stressor, sex differences in BDNF methylation may be root cause of decreased BDNF levels in females and may underlie susceptibility to pathology development.
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