Nitric oxide synthase and oxidative-nitrosative stress play a key role in placental infection by Trypanosoma cruzi.

PROBLEM: The innate immune response of the placenta may participate in the congenital transmission of Chagas disease through releasing reactive oxygen and nitrogen intermediates. METHOD OF STUDY: Placental explants were cultured with 1 × 106 and 1 × 105 trypomastigotes of Tulahuen and Lucky strains and controls without parasites, and with the addition of nitric oxide synthase inhibitor Nω-Nitro-l-arginine methyl ester (l-NAME) and N-acetyl cysteine (NAC) as the reactive oxygen species (ROS) scavenger. Detachment of the syncytiotrophoblast (STB) was examined by histological analysis, and the nitric oxide synthase, endothelial (eNOS), and nitrotyrosine expressions were analyzed by immunohistochemistry, as well as the human chorionic gonadotrophin (hCG) levels in the culture supernatant through ELISA assays. Parasite load with qPCR using Taqman primers was quantified. RESULTS: The higher number of T. cruzi (106 ) increased placental infection, eNOS expression, nitrosative stress, and STB detachment, with the placental barrier being injured by oxidative stress. CONCLUSION: The higher number of parasites caused deleterious consequences to the placental barrier, and the inhibitors (l-NAME and NAC) prevented the damage caused by trypomastigotes in placental villi but not that of the infection. Moreover, trophoblast eNOS played a key role in placental infection with the highest inoculum of Lucky, demonstrating the importance of the enzyme and nitrosative-oxidative stress in Chagas congenital transmission.

Chronic stress effects on adrenal cortex cellular proliferation in pregnant rats / Efectos del estrés crónico sobre la proliferación celular en la corteza suprarrenal en ratas preñadas

Chronic stress by immobilization during pregnancy may cause alterations in mechanisms maintaining homeostasis in the adrenal gland. The objective of this study was to quantify cellular proliferation index in the adrenal cortex during pregnancy second half and assess the effects of chronic stress on it. Adrenal cortex proliferation index in stressed rats showed a significant decrease at 12 and 17 days of gestation, while at day 21 it did not show differences with the control treatments. Moreover, proliferation index of reticular zones in control and experimental rats, exhibited a significant reduction in comparison to glomerular and fascicular zones of adrenal cortex during the three gestation days studied. In conclusion, chronic stress by immobilization produces a decrease in cellular proliferation index at 12 and 17 gestation days, which may be related to changes in plasmatic concentrations of corticosterone and prolactin and, to the reduction of specific growth factors. Furthermore, the observed proliferation diminishment in reticular zone regarding the other cortical zones would be consistent with the migration theory of adrenal cells.

El estrés crónico por inmovilización durante la gestación puede provocar alteraciones de los mecanismos que mantienen la homeostasis en la glándula adrenal. El objetivo de este trabajo fue cuantificar el índice de proliferación en la corteza adrenal durante la segunda mitad de la gestación y comprobar los efectos que produce el estrés crónico sobre el mismo. El índice de proliferación en la corteza adrenal de ratas estresadas presentó una disminución significativa a los 12 y 17 días de gestación, mientras que en el día 21 no presentó modificaciones con respecto a sus controles. Por otro lado, el índice de proliferación de la zona reticular en ratas controles y experimentales, presentó una disminución significativa con respecto a las zonas glomerular y fascicular de la corteza adrenal en los tres días de la gestación estudiados. Se puede concluir que el estrés crónico por inmovilización produce disminución del índice de proliferación celular a los 12 y 17 días de la gestación que podría estar en relación con las variaciones de las concentraciones plasmáticas de corticosterona, prolactina, y con la disminución de factores de crecimiento específicos. Asimismo, la disminución de la proliferación en la zona reticular en relación con las otras zonas corticales estaría en concordancia con la teoría de la migración celular adrenal.

Chronic stress effects on NPY neuronal population during rat development / Efectos del stress crónico sobre la población neuronal NPY durante el desarrollo de ratas

The aim of this work was to determine the chronical stress effects on the encephalic NPY neurons population during the fetal Central nervous system development. Immunocytochemical techniques were used for this purpose: NPY neurons presented a similar morphology during the gestation days studied but their distribution varied in the anterior, medium and posterior brain. Statistical Highly significant differences in number of NPY positive neurons (p<0.01) among anterior, medium and posterior brain of stressed fetus (SF) were determined depending on the gestation period and the brain area. The NPY neurons were increased in ARC (Arcuate Hypothalamic Nucleus), PH (Posterior Hypothalamic Area) and DM (Dorsomedial Hypothalamic Nucleus) in stressed fetuses (SF) of 17 days, and in ARC of 19 days SF (p< 0.01) were detected in the different brain nucleus. The NPY population increased in PnO (Pontine Reticular Nu, Oral Part) and RITg (Reticulotegmental Nu of the Pons) of 17 days SF, while they were detected in posterior brain at Pyx (Pyramidal Decussation), Rob (Raphe Obscurus Nucleus) and RPA (Raphe Pallidus Nucleus) in SF of 19 days. They also increased in number (p<0.05) in DPGI (Dorsal Paragigantocellular Nu), CGPn (Central Gray of Pons) and PrH (Prepositus Hypoglossal Nucleus) of 17 days SF. Finally, any statistical differences were found among CF and SF in the following nuclei: anterior brain, AH (Anterior Hypothalamic Nucleus), DM (Dorsomedia L Hypothalamic Nucleus) of 17 days; ME (Median Eminence)., VMH (Ventromedial Hypothalamic Nucleus) of 19 days; medium brain in CG (Central Periaqueductal Gray), DR (Dorsal Raphe Nucleus) of 17 days and posterior brain in PnC (Pontine Reticular Nu, Caudal Part), PrH (Prepositus Hypoglossal Nucleus), RMgG (Raphe Magnus Nucleus), IO (Inferior Olive) of 17 days. The increase number of NPY neurons found in the stressed rat fetuses in all periods studied would indicate the participation of the NPY System in...

El propósito del presente estudio fue determinar los efectos del estrés crónico en la población de neuronas NPY encefálicas durante el desarrollo del S.N.C. fetal mediante técnicas inmunocitoquímicas. Se demostró que las neuronas NPY presentan un morfología similar en los días de gestación estudiados, pero su distribución varía en el cerebro anterior, medio y posterior. Se comprobaron diferencias altamente significativas entre el cerebro anterior, medio y posterior (p<0,01) de fetos estresados (FE), variando dicha significación dependiendo del día de la gestación y del área estudiada. En los diferentes núcleos cerebrales del cerebro anterior se detectaron aumentos en ARC (Arcuate Hypothalamic Nucleus), PH (Posterior Hypothalamic Area) de 17 días y DM (Dorsomedia L Hypothalamic Nucleus) y en ARC (Arcuate Hypothalamic Nucleus) de 19días (p<0,01) de F.E. En el cerebro medio se detectaron aumentos en DR (Dorsal Raphe Nucleus) (p<0,01) y PN (Pontine Nucleus) (p<0,05) de 19 F.E. En el cerebro posterior se detectaron aumentos en PnO (Pontine Reticular Nu, Oral Part) y RITg (Reticulotegmental Nu of the Pons) de 17 F. E. y Pyx, (Pyramidal Decussation), Rob (Raphe Obscurus Nucleus) y RPA (Raphe Pallidus Nucleus) de 19 F.E. Asimismo se comprobaron aumentos (p<0,05) en DPGI (Dorsal Paragigantocellular Nu.) de 17 F.E, CGPn (Central Gray of Pons) y PrH (Prepositus Hypoglossal Nucleus), de 19 F.E. Finalmente, no se comprobaron diferencias entre F. C. (fetos controles) y F. E. en los siguientes núcleos del cerebro anterior: AH (Anterior Hypothalamic Nucleus), DM (Dorsomedia L Hypothalamic Nucleus), de 17 días; y EM, (Median Eminence), VMH (Ventromedial Hypothalamic Nucleus) de 19 días. En el cerebro medio CG, (Central Periaqueductal Gray), DR (Dorsal Raphe Nucleus) de 17 días. En el cerebro posterior el PnC, (Pontine Reticular Nu, Caudal Part), PrH (Prepositus Hypoglossal Nucleus), RMgG (Raphe Magnus Nucleus), IO (Inferior Olive) de 17 días del cerebro posterior...

Maternal Chronic Stress Induces Premature Telencephalic Vesicles Development / El Estrés Crónico Materno Induce el Desarrollo Prematuro de la Vesícula Telencefálica

Exposure to physical or psychological stress causes brain damage ranging from minimal behavioural alterations to different neurodegeneration degrees implying the overproduction of oxidative-nitrosative compounds, apoptosis and cell proliferation. In the present investigation, we have analysed the effect of the chronic stress by immobilisation applied to pregnant rats over the forebrain development of the embryos. The morphometric analyses showed an accelerated evagination of the telencephalic vesicles in 12 days old fetus from stressed mothers. The forebrain perimeter and the thickness showed significative differences in relation to age-matched controls. This stress effect seemed reversible during subsequent gestational stages. This is the first work showing a transient acceleration in the development induced by the gestational stress. Our model provides a new tool for studying the effect of the stress on the development.

La exposición a diferentes estresantes físicos y/o psicológicos causa daño cerebral, que se manifiesta en alteraciones comportamentales mínimas hasta diferentes grados de neurodegeneración, y que implican la sobreproducción de compuestos nitrosativos-oxidativos, apoptosis y proliferación celular. En el presente trabajo hemos analizado el efecto del estrés crónico por inmovilización, sobre el desarrollo embriológico del cerebro anterior en fetos de ratas preñadas. El análisis morfométrico estereológico demostró que en los fetos de 12 días de gestación de madres estresadas muestran un aumento del tamaño de la vesícula telencefálica. El perímetro y el espesor del cerebro anterior demostraron diferencias significativas en relación a los controles de la misma edad gestacional, pero, no fue así con su forma. Este efecto provocado por el estrés crónico se podría considerar reversible en los estadíos gestacionales subsecuentes. Es el primer trabajo que demuestra una considerable aceleración del desarrollo del sistema nervioso central inducido por el estrés gestacional. Nuestro modelo provee una nueva herramienta para los estudios de los efectos del estrés durante el desarrollo embriológico.

Chronic stress effects on the apoptotic index of the adrenal cortex of pregnant rats.

Chronic stress by immobilization during gestation can alter several mechanisms that maintain homeostasis in adrenal gland. The aim of this work was to quantify the apoptotic index of adrenal cortex during mid-pregnancy and to prove cytological characteristics by electron microscopy. The apoptotic index did not present significant differences between the adrenal cortex areas of control and experimental rats in any of the three ages studied. The day of gestation influenced significantly on the apoptotic index in both groups. This index increased as gestation progressed. It may be concluded that chronic stress by immobilization might induce the increase of apoptotic index in adrenal cortex as gestation progresses which might be related variations of plasmatic corticosterone and prolactin, and to the decrease of specific growth factors. On the other hand, it might be concluded that each zone of adrenal cortex behaves independently in regards to apoptosis and cellular proliferation via paracrine and/or autocrine regulatory mechanisms without being affected by other zones.

Modulatory effect of leptin on nitric oxide production and lipid metabolism in term placental tissues from control and streptozotocin-induced diabetic rats.

Leptin production by placental tissues contributes to its circulating levels and functions. The diabetic pathology induces alterations in leptin levels. In the present study, leptin levels were evaluated in placental tissue from control and neonatal streptozotocin-induced (n-STZ) diabetic rats during late gestation. The effects of leptin levels on the generation of nitric oxide (NO), prostaglandin (PG) E(2) production and lipid metabolism were examined. Leptin levels were diminished in placentas from n-STZ diabetic rats compared with controls (P < 0.01). These differences were also evident when leptin was evaluated immunohistochemically. Addition of leptin (1 nM) in vitro enhanced NO production in control (66%) and diabetic placentas (134%) by stimulating NO synthase activity (by 38% and 54%, respectively). The addition of leptin increased PGE(2) production in placentas from control (173%) and diabetic rats (83%) and produced a 50% decrease in placental lipid levels (phospholipids, triacylglycerides, cholesterol and cholesteryl ester) without involving a reduction in de novo lipid synthesis. These data indicate that leptin enhances the production of placental NO and PGE(2), vasoactive agents that modify placental blood flow, and that leptin stimulates placental lipid metabolism, probably generating more lipids for transfer to the fetus. In the diabetic rat, placental leptin was reduced, probably as a response to the maternal environment to locally regulate the transfer of nutrients to the developing fetus.