Decreased Fatty Acid Transporter FABP1 and Increased Isoprostanes and Neuroprostanes in the Human Term Placenta: Implications for Inflammation and Birth Weight in Maternal Pre-Gestational Obesity.

The rise in prevalence of obesity in women of reproductive age in developed and developing countries might propagate intergenerational cycles of detrimental effects on metabolic health. Placental lipid metabolism is disrupted by maternal obesity, which possibly affects the life-long health of the offspring. Here, we investigated placental lipid metabolism in women with pre-gestational obesity as a sole pregnancy complication and compared it to placental responses of lean women. Open profile and targeted lipidomics were used to assess placental lipids and oxidised products of docosahexaenoic (DHA) and arachidonic acid (AA), respectively, neuroprostanes and isoprostanes. Despite no overall signs of lipid accumulation, DHA and AA levels in placentas from obese women were, respectively, 2.2 and 2.5 times higher than those from lean women. Additionally, a 2-fold increase in DHA-derived neuroprostanes and a 1.7-fold increase in AA-derived isoprostanes were seen in the obese group. These changes correlated with a 70% decrease in placental FABP1 protein. Multivariate analyses suggested that neuroprostanes and isoprostanes are associated with maternal and placental inflammation and with birth weight. These results might shed light on the molecular mechanisms associated with altered placental fatty acid metabolism in maternal pre-gestational obesity, placing these oxidised fatty acids as novel mediators of placental function.

Effect of anti-IL17 and/or Rho-kinase inhibitor treatments on vascular remodeling induced by chronic allergic pulmonary inflammation.

BACKGROUND AND AIMS: Expansion and morphological dysregulation of the bronchial vascular network occurs in asthmatic airways. Interleukin (IL) -17 and Rho-kinase (ROCK) are known to act in inflammation control and remodeling. Modulation of Rho-kinase proteins and IL-17 may be a promising approach for the treatment of asthma through the control of angiogenesis. Our objective was to analyze the effects of treatment with anti-IL17 and/or Rho-kinase inhibitor on vascular changes in mice with chronic allergic pulmonary inflammation. METHODS: Sixty-four BALB/c mice, with pulmonary inflammation induced by ovalbumin were treated with anti-IL17A (7.5/µg per dose, intraperitoneal) and/or Rho-kinase inhibitor (Y-27632-10 mg/kg, intranasal), 1 h before each ovalbumin challenge (22, 24, 26, and 28/days). Control animals were made to inhale saline. At the end of the protocol, lungs were removed, and morphometric analysis was performed to quantify vascular inflammatory, remodeling, and oxidative stress responses. RESULTS: Anti-IL17 or Rho-kinase inhibitor reduced the number of CD4+, CD8+, dendritic cells, IL-4, IL-5, IL-6, IL-10, IL-13, IL-17, Rho-kinase 1 and 2, transforming growth factor (TGF-ß), vascular endothelial growth factor (VEGF), nuclear factor (NF)-KappaB, iNOS, metalloproteinase (MMP)-9, MMP-12, metalloproteinase inhibitor-1 (TIMP-1), FOXP-3, signal transducer and activator of transcription 1 (STAT1) and phospho-STAT1-positive cells, and actin, endothelin-1, isoprostane, biglycan, decorin, fibronectin and the collagen fibers volume fraction compared with the ovalbumin group (p < 0.05). The combination treatment, when compared with anti-IL17, resulted in potentiation of decrease in the number of IL1ß- and dendritic cells-positive cells. When we compared the OVA-RHO inhibitor-anti-IL17 with OVA-RHO inhibitor we found a reduction in the number of CD8+ and IL-17, TGF-ß, and phospho-STAT1-positive cells and endothelin-1 in the vessels (p < 0.05). There was an attenuation in the number of ROCK 2-positive cells in the group with the combined treatment when compared with anti-IL17 or Rho-kinase inhibitor-treated groups (p < 0.05). CONCLUSION: We observed no difference in angiogenesis after treatment with Rho-kinase inhibitor and anti-IL17. Although the treatments did not show differences in angiogenesis, they showed differences in the markers involved in the angiogenesis process contributing to inflammation control and vascular remodeling.The reviews of this paper are available via the supplemental material section.

Oxidative Imbalance, Nitrative Stress, and Inflammation in C6 Glial Cells Exposed to Hexacosanoic Acid: Protective Effect of N-acetyl-L-cysteine, Trolox, and Rosuvastatin.

X-linked adrenoleukodystrophy (X-ALD) is an inherited neurometabolic disorder caused by disfunction of the ABCD1 gene, which encodes a peroxisomal protein responsible for the transport of the very long-chain fatty acids from the cytosol into the peroxisome, to undergo ß-oxidation. The mainly accumulated saturated fatty acids are hexacosanoic acid (C26:0) and tetracosanoic acid (C24:0) in tissues and body fluids. This peroxisomal disorder occurs in at least 1 out of 20,000 births. Considering that pathophysiology of this disease is not well characterized yet, and glial cells are widely used in studies of protective mechanisms against neuronal oxidative stress, we investigated oxidative damages and inflammatory effects of vesicles containing lecithin and C26:0, as well as the protection conferred by N-acetyl-L-cysteine (NAC), trolox (TRO), and rosuvastatin (RSV) was assessed. It was verified that glial cells exposed to C26:0 presented oxidative DNA damage (measured by comet assay and endonuclease III repair enzyme), enzymatic oxidative imbalance (high catalase activity), nitrative stress [increased nitric oxide (NO) levels], inflammation [high Interleukin-1beta (IL-1ß) levels], and induced lipid peroxidation (increased isoprostane levels) compared to native glial cells without C26:0 exposure. Furthermore, NAC, TRO, and RSV were capable to mitigate some damages caused by the C26:0 in glial cells. The present work yields experimental evidence that inflammation, oxidative, and nitrative stress may be induced by hexacosanoic acid, the main accumulated metabolite in X-ALD, and that antioxidants might be considered as an adjuvant therapy for this severe neurometabolic disease.

Daño a células endoteliales en cultivo inducido por el isoprostano 8-iso-PGF2a / Damage to cultured endothelial cells induced by isoprostane 8-iso PGF2

INTRODUCCIÓN: el endotelio vascular posee un papel esencial en los procesos asociados a la enfermedad cardiovascular. Existe estrecha relación entre el desbalance redox de estas células y la aparición y evolución de estas enfermedades. Entre los marcadores de daño oxidativo a los lípidos de membranas se encuentra el isoprostano 8-iso-PGF2a, que aumenta en estos pacientes. OBJETIVO: evaluar el efecto del isoprostano 8-iso-PGF2a sobre células endoteliales en cultivo y la protección con la proteína de estrés térmico a-cristalina. MÉTODOS: se cultivaron células endoteliales de la línea H5V y se evaluó el efecto del isoprostano 8-iso-PGF2a y del análogo del tromboxano A2, U46619, sobre la supervivencia celular. Se evaluó el efecto protector de la proteína de estrés térmico a-cristalina a través de la incubación de los cultivos con 1 mg/ml de la proteína previo a la inducción del daño con los compuestos en estudio. RESULTADOS: la supervivencia celular disminuyó proporcional al aumento de la concentración del isoprostano y del U46619. La a-cristalina aumentó la supervivencia celular en un 20 % al preincubar los cultivos sometidos al efecto de ambos compuestos. CONCLUSIONES: el isoprostano 8-iso-PGF2a, además, de ser un marcador de daño oxidativo puede ser considerado un inductor directo de daño a las células del endotelio vascular, efecto mediado a través, de la generación de tromboxano A2 o la activación de su receptor. La proteína de estrés térmico a-cristalina, añadida de forma exógena, puede considerarse un protector endotelial.

INTRODUCTION: the vascular endothelium plays an essential role in processes associated with cardiovascular disease. There is a close relationship between redox imbalance in these cells and the appearance and evolution of such diseases. Increased isoprostane 8-iso PGF2 is among the markers of oxidative damage to membrane lipids in these patients. OBJECTIVE: evaluate the effect of isoprostane 8-iso PGF2 on cultured endothelial cells and the protection provided by -crystallin heat-shock stress protein. METHODS: endothelial cells from line H5V were cultured to evaluate the effect of isoprostane 8-iso PGF2 and thromboxane A2 analog U46619 on cell survival. An evaluation was conducted of the protective effect of -crystallin heat-shock stress protein by incubation of the cultures with 1 mg/ml of the protein prior to damage induction with the study compounds. RESULTS: cell survival decreased as isoprostane and U46619 concentration increased. -Crystallin increased cell survival by 20% upon preincubation of the cultures subjected to both compounds. CONCLUSIONS: besides being an oxidative damage marker, isoprostane 8-iso PGF2 may be considered a direct inducer of damage to vascular endothelial cells. This effect is mediated by the generation of thromboxane A2 or the activation of its receptor. Added exogenously, -crystallin heat-shock stress protein may be considered to be an endothelial protector.

Inducible nitric oxide synthase inhibition attenuates lung tissue responsiveness and remodeling in a model of chronic pulmonary inflammation in guinea pigs.

We evaluated the influence of iNOS-derived NO on the mechanics, inflammatory, and remodeling process in peripheral lung parenchyma of guinea pigs with chronic pulmonary allergic inflammation. Animals treated or not with 1400 W were submitted to seven exposures of ovalbumin in increasing doses. Seventy-two hours after the 7th inhalation, lung strips were suspended in a Krebs organ bath, and tissue resistance and elastance measured at baseline and after ovalbumin challenge. The strips were submitted to histopathological measurements. The ovalbumin-exposed animals showed increased maximal responses of resistance and elastance (p<0.05), eosinophils counting (p<0.001), iNOS-positive cells (p<0.001), collagen and elastic fiber deposition (p<0.05), actin density (p<0.05) and 8-iso-PGF2alpha expression (p<0.001) in alveolar septa compared to saline-exposed ones. Ovalbumin-exposed animals treated with 1400 W had a significant reduction in lung functional and histopathological findings (p<0.05). We showed that iNOS-specific inhibition attenuates lung parenchyma constriction, inflammation, and remodeling, suggesting NO-participation in the modulation of the oxidative stress pathway.