Effect of venlafaxine on scavenging free radicals in vitro.

UNLABELLED: O BJECTIVE: Venlafaxine (VLF) was examined as a potential donor of H atom(s) to scavenge hydroxyl and peroxy-type radicals generated under aerobic conditions by catalytic oxidation of ascorbate with Cu²âº ions. Kinetics of the electron-donor property of VLF was investigated by standard ABTS and DPPH assays. Electron paramagnetic resonance measurements were applied to prove/disprove the VLF ability to scavenge superoxide anion radical. RESULTS: Results indicated that the drug venlafaxine was slightly capable of donating ·H, this way VLF scavenged the in situ generated hydroxyl radicals. Under the experimental conditions VLF was not able to inhibit/retard the propagation of the peroxy-type radicals. Regarding to the drug electron donating property, VLF did not show any ABTS·âº or DPPH· radical quenching property. Venlafaxine was not effective in scavenging O2·â». CONCLUSION: Results of ABTS and DPPH assay showed a negligible redox activity of venlafaxine to both DPPH· and ABTS·âº. Venlafaxine was not capable of scavenging the superoxide anion radical generated in KO2/DMSO system, which indicates that VLF is not an efficient electron/proton donor molecule.

Neuroendocrine and behavioral consequences of untreated and treated depression in pregnancy and lactation.

Depression during pregnancy and in the post partum period is a significant health issue in modern society. The estimated prevalence of depression in pregnancy ranges from 13-20%. The major dilemma for gynecologists is to treat or not to treat depression during gestation and lactation. Consequences of untreated depression can be so serious that the benefit of antidepressant therapy may overweigh the possible risk for injury of fetal/neonatal development. Currently, selective serotonin re-uptake inhibitors (SSRIs) and serotonin and noradrenaline re-uptake inhibitors (SNRIs) are commonly used for treatment of maternal depression. The review article brings up-to-date knowledge on effects of maternal adversity (depression) and/or antidepressants on the development of the hypothalamus-pituitary-adrenal axis of the offspring in relation to postnatal behavior and reactivity to stressful stimuli. Treated as well as untreated maternal depression presents a risk for the developing fetus and neonate. The authors stress the need to evaluate the relative safety of SNRIs/SNRIs by means of relevant experimental models to assess if these drugs can be assigned to treat pregnant and lactating depressive women.

Modulation of microglial function by the antidepressant drug venlafaxine.

An increasing amount of data suggests that depression is an inflammatory disease. Depressed patients have higher peripheral blood levels of inflammatory markers which have been shown to access the brain and interact with the pathophysiological domain known to be involved in depression. Furthermore, microglia activation may play an important role in the inflammatory pathophysiology of depression. In BV-2 microglia cell line, the present study investigated the potential anti-inflammatory effects of venlafaxine, along with its potential influence on injury of lipopolysaccharide (LPS)-stimulated cells. Although venlafaxine showed only marginal influence on the majority of the pro-inflammatory parameters assessed (in particular NO release, phagocytosis and proliferation), it significantly suppressed superoxide production by the stimulated cells. In addition, venlafaxine exerted also a protective effect on mitochondrial membrane potential and lysosomes of the stimulated microglia. In conclusion, our results suggest that although VEN might have only a marginal effect on major pro-inflammatory parameters of microglia, its inhibitory effect on superoxide generation can contribute to the prevention of harmful effects of oxidative and nitrosative stress involved in the pathogenesis of depression. Moreover, the protective effect of VEN on viability of microglia can prevent a rapid reduction of these cells, thus avoiding limitations of several physiological processes in the brain and possibly also the progression of depression.