Intrauterine and lactational exposure to fluoxetine enhances endothelial modulation of aortic contractile response in adult female rats.

The study aimed to evaluate if maternal exposure to fluoxetine (FLX) during pregnancy and lactation would result in altered aortic reactivity in adult offspring. We also sought to understand the role of endothelium derived relaxing factors in aortic response. Wistar rats (75­80 days old), whose progenitors had received FLX (5 mg/kg, FLX offspring) or tap water (control offspring) during pregnancy and lactation were anesthetized, after which the aorta was removed and cut into two rings, one with (Endo+) and the other without (Endo-) endothelium. Concentration-effect curves for acetylcholine (ACh), sodium nitroprusside (SNP), and phenylephrine (Phe) were performed. The vasodilation to ACh and SNP was similar between control and FLX groups in both male and female offspring. In male rats, the response to Phe was similar between the FLX and control groups on Endo+ and Endo- rings. The response to Phe was reduced on Endo+ rings from female FLX when compared with the control group. The endothelium removal, as well as L-NAME, indomethacin, and tranylcypromine incubation corrected the reduced Phe-induced contraction in the aorta from the female FLX group. On the other hand, catalase, NS-398, and L-NIL did not interfere with the vasoconstriction. The aortic level of nitric oxide (NO) was higher in the female FLX than the control group. Although endothelial NO synthase isoform and cyclooxygenase (COX)-1 expressions were similar between the groups, there was a notable increment in neuronal NO synthase expression in the aorta of FLX-exposed female rats, suggesting an important role of this enzyme in the higher levels of NO. Our results show that developmental exposure to FLX causes sex-specific alteration in aortic function through a mechanism involving endothelial factors, probably NO and COX-1 products.

Intrauterine and lactation exposure to fluoxetine blunted in the offspring the aortic adaptive response induced by acute restraint stress.

Selective serotonin reuptake inhibitors are the most widely prescribed antidepressants to women during pregnancy. Maternal treatment with fluoxetine can expose fetuses and neonates to higher levels of serotonin that plays a role in stress response. Thus, the aim of the study was to evaluate whether maternal treatment with fluoxetine interferes with aorta reactivity of adult male offspring after acute restraint stress. Wistar rats were gavaged with fluoxetine (5mg/kg/day) or water (control) during pregnancy and lactation. The experiments were performed in adult male offspring, treated or not with reserpine (4mg/Kg, ip, 28h before the experimental protocol). Fluoxetine and control rats were submitted to a single restraint stress session (ST) for 1h. Curves to phenylephrine were performed in thoracic aorta with endothelium. Aortic nitric oxide (NOx) were evaluated by the Griess method. The aortic contraction induced by phenylephrine was similar between control and fluoxetine rats. The acute stress reduced contraction in aorta of control ST compared to control, and L-NAME equaled this response. In fluoxetine rats, ST did not change the aortic constriction. Reserpine treatment restored the vasoconstriction in control ST, but did not interfere with aortic contraction in control, fluoxetine or fluoxetine ST. The NOx concentration was higher in aortas from control ST than control rats, and reserpine reduced NOx levels of control ST. The NOx concentration was similar between fluoxetine and fluoxetine ST rats, treated or not with reserpine. In conclusion, maternal treatment with fluoxetine blunted acute restraint stress-induced NO system activation and aortic adaptation in adult offspring.

Does fish oil or folic acid prevent vascular changes in female progeny caused by maternal exposure to fluoxetine?

AIMS: Fluoxetine (FLX) is an antidepressant worldwide prescribed throughout life stages, including pregnancy and breastfeeding. Out of pregnancy, the combination of FLX with fish oil (FO) and folic acid (FA) is carried to enhance the therapeutic activity and reduce the side effects of the antidepressant. During pregnancy, FO and FA have been used to promote fetal development, and reduce, in mother, the risk of gestational and post-pregnancy depression. To evaluate if maternal exposure during pregnancy and lactation to FLX associated with FO or FA would prevent the antidepressant side effects in aorta reactivity and nitric oxide metabolites (NOx) plasmatic levels. We also sought to understand, in female offspring, the vascular effects of intrauterine and lactation exposure to FO and FA monotherapy. MAIN METHODS: Wistar rats were treated with water (control group), FLX (5mg/kg/day), FO (1.3g/kg/day), FA (3mg/kg/day), FLX+FO and FLX+FA, throughout pregnancy and lactation. On adulthood, in female offspring were evaluated the vascular reactivity to phenylephrine (Phe), the NOx and homocysteine (HCY) plasmatic levels. KEY FINDINGS: The developmental exposure to the associations of FO or FA with FLX did not correct the aortic hyporreactivity and increased NOx levels induced by intrauterine and lactation exposure to FLX. Also, isolated exposure to FO and FA did not interfere with Phe-induced aortic contraction and neither interferes with NOx and HCY plasmatic levels. SIGNIFICANCE: The developmental exposure to FO and FA was safe for vascular function of female offspring but did not prevent the vascular effects of FLX-exposure.