Suren R. Sooranna

Nitric oxide synthase activities in placental tissue from normotensive, pre-eclamptic and growth retarded pregnancies

Objective To measure nitric oxide synthase activity in tissues from the placenta, placental bed and umbilical cord at delivery in normal and complicated pregnancies.

Potent activation of nitric oxide synthase by garlic: A basis for its therapeutic applications

Garlic (Allium sativum L.) is thought to have a variety of therapeutic applications including inhibition of platelet aggregation. Many of the therapeutic actions of garlic parallel the physiological effects of nitric oxide and may be explained by its ability to increase nitric oxide synthase activity intracellularly. Our studies showed that both water and alcoholic extracts of garlic are very potent inhibitors of platelet aggregation induced by epinephrine and ADP. Similar dilutions of garlic extract also activated nitric oxide synthase activity in isolated platelets in vitro. The same extract was also very effective in activating nitric oxide synthase activity in placental villous tissue. The addition of garlic extracts increased nitric oxide synthase activity in a dose-dependent manner. Nitrite levels in the supernatants of incubated placental villous tissue were similarly increased. Activation of calcium-dependent nitric oxide synthase and the subsequent production of nitric oxide is probably the most novel mechanism yet claimed by which garlic can exert its therapeutic properties.

Nitric oxide synthase activities in human myometrium and villous trophoblast throughout pregnancy.

Objective To study the changes in nitric oxide synthase activities in human myometrium and trophoblast throughout pregnancy and around delivery. Methods Samples of villous trophoblast were collected from women undergoing elective cesarean delivery at term (n = 12) or voluntary termination of pregnancy in the first (n = 27) or second (n = 11) trimesters of pregnancy. Myometrial samples were obtained from nonpregnant women undergoing hysterectomy (n = 5) and pregnant women both before (n = 7) and after (n = 7) the onset of spontaneous labor at term. Nitric oxide synthase activity was quantified for homogenized samples using the L-citrulline assay in the presence and absence of calcium. Results The highest levels of nitric oxide synthase activity were found in first-trimester villi (range 2–29 nmol L-citrulline/minute/g protein), with a significant fall in activity in the third trimester (range 2–10 nmol L-citrulline/minute/g protein; P ≤ .001 for both calcium-dependent and calcium-independent activity). Myometrial activities were relatively low compared with those in the trophoblast (0–2 nmol L-citrulline/minute/g protein), with no significant differences in calcium-dependent activities between subgroups. Myometrial calcium-independent activities were lower in pregnant than in nonpregnant women (P = .007), with those in labor having levels higher than those not in labor (P = .048). Conclusion Levels of nitric oxide synthase activity are relatively high in villous trophoblast, particularly during the first trimester. Although the contribution to total nitric oxide production in the uterus by myometrial nitric oxide synthase appears to be relatively small, nitric oxide produced by the trophoblast may play a role in maintaining uterine quiescence by a paracrine effect. Further work is needed to test this hypothesis and explore other possible roles for trophoblast-derived nitric oxide in early pregnancy.

Pro-labour myometrial gene expression: are preterm labour and term labour the same?

Preterm labour (PTL) is the most important cause of neonatal morbidity and mortality. While some causes have been identified, the mechanisms involved remain elusive. This study investigates whether term labour (TL) is an appropriate model for PTL by examining pro-labour gene expression, using quantitative rtPCR, and protein synthesis, using Western analysis, in preterm and term myometrial samples obtained from the upper and lower uterine segments before and after the onset of labour. In the lower segment, the levels of prostaglandin H synthase type-2 (PGHS-2), interleukin-1beta (IL-1beta), IL-6 and IL-8 mRNA expression were significantly higher in TL compared with PTL samples. Compared with non-labour controls, the expression of IL-1beta and IL-8 mRNA was increased in both PTL and TL samples and the expression of PGHS-2 and IL-6 mRNA was increased in TL samples only. In the upper segment, there were no differences between PTL and TL samples and the mRNA expression of PGHS-2 and IL-1beta was increased in TL compared with term no labour samples. No effect of PTL or TL was seen on either oxytocin receptor or connexin-43 mRNA expression or protein levels. The multiple regression analysis and studies in primary cultures of uterine myocytes suggest that the inflammatory cytokines, IL-1beta and tumour necrosis factor-alpha, are the most important regulators of PGHS-2 and IL-8. Our data show that preterm and term labouring myometrium are significantly different and that the most marked labour-induced changes in gene expression are in the lower segment. These changes may occur in response to the release of inflammatory cytokines by the labour-associated inflammatory infiltration.

Does endothelial cell activation occur with intrauterine growth restriction

It is possible that in fetal growth restriction without pre‐eclampsia endothelial cell activation does not occur. This might be either because there is no release of ‘factor X’ or because of maternal resistance to its effects. To test this hypothesis, we took blood samples from 26 women with pre‐eclampsia (without fetal growth restriction), 13 women with fetal growth restriction (without pre‐eclampsia) and 24 normal pregnant controls, and measured the circulating levels of three markers of endothelial cell activation (soluble VCAM, ICAM and E‐selectin) and three cytokines [tumour necrosis factor‐α (TNF‐α), interleukin‐6 (IL‐6) and ‐8 (IL‐8)]. The levels of the markers of endothelial cell activation were raised in both pre‐eclampsia and fetal growth restriction pregnancies compared with controls; however, the levels of TNF‐α, IL‐6 and IL‐8 were significantly raised in pregnancies complicated by pre‐eclampsia, but not in fetal growth restriction, compared with controls. These data show that endothelial cell activation is common to both pre‐eclampsia and fetal growth restriction, but that the circulating levels of cytokines are elevated only in pre‐eclampsia. Thus, it seems likely that endothelial cell activation is a consequence of a failure of trophoblast invasion and that a further step is required, possibly involving cytokine release, for the expression of the full clinical picture of pre‐eclampsia.

Microvascular permeability is related to circulating levels of tumour necrosis factor-α in pre-eclampsia

INTRODUCTION The mechanism for the increased microvascular permeability which, underline many of the complications of pre-eclampsia, remain unexplained. It has been suggested that a factor present in the maternal circulation in pregnancies complicated by the disease may be responsible for increased microvascular permeability. In this study, we have investigated the relationship between filtration capacity (K(f)), an index of microvascular permeability, and maternal levels of VEGF, leptin and TNF-alpha, all of which are known permeability factors whose plasma levels are increased in pre-eclampsia. METHODS We used a small cumulative pressure step venous congestion plethysmography protocol to compare K(f), an index of microvascular permeability, during the third trimester of 20 women with pre-eclampsia, 18 normal pregnant women and 18 non-pregnant female matched controls. Blood samples were obtained to measure plasma levels of VEGF, leptin, TNF-alpha plasma protein concentrations and full blood count. RESULTS Microvascular filtration capacity (K(f)) was significantly increased in pre-eclampsia compared to the other groups (P<<0.0001, ANOVA). K(f) was also increased in the normal pregnant group when compared to the non-pregnant controls (P=0.02). Plasma levels of VEGF, leptin and TNF-alpha were significantly greater in pre-eclampsia compared to normal pregnancy and non-pregnant controls (P<0.0001, ANOVA, for all three analyses). Total plasma protein and albumin concentrations were significantly lower in the normal pregnant and pre-eclamptic groups, compared to the non-pregnant controls (P<0.0001, ANOVA). K(f) was significantly related to TNF-alpha in pre-eclampsia (r=0.53, P=0.018), and with VEGF in the non-pregnant controls (r=0.6, P=0.02). No significant relationship was observed between K(f) and VEGF, leptin and TNF-alpha during normal pregnancy. There was a significant inverse correlation between plasma albumin concentration and filtration capacity in the normal pregnant (r=-0.94, P<0.0001) and non-pregnant (r=-0.87, P<0.0001) groups but not in the women with pre-eclampsia (r=-0.18, P=0.8). CONCLUSIONS These data show that that microvascular filtration capacity is significantly increased in pre-eclampsia, and correlates with circulating levels of TNF-alpha but not leptin or VEGF.

Stretch and Inflammatory Cytokines Drive Myometrial Chemokine Expression Via NF-κB Activation

Both human preterm labor (PTL) and term labor are consistently associated with a chemokine-induced inflammatory infiltration of the myometrium. However, what regulates myometrial chemokine expression and whether the increase in expression precedes the onset of labor, and so may have a role in its causation, or occurs after, and is simply a consequence of labor, is uncertain. Therefore, we assessed 1) chemokine expression in nonlaboring and laboring myometrial samples obtained at and before term and 2) the factors that regulate myometrial chemokine expression. We found that term labor was characterized by an increase in CXCL8 and CCL2 in both upper and lower segments, whereas PTL was associated with a distinct pattern of chemokine expression, with increases in CCL5, CXCL5, and CCL20 in the lower segment myometrium only. Further, we found that chemokine expression in myometrial cell cultures was increased by stretch and inflammatory cytokines and reduced by prostglandins and oxytocin and that the primary mediator of stretch and cytokine effects was nuclear factor κB (NF-κB) and to a lesser extent MAPK. These data show that PTL appears to be associated with a distinct pattern of chemokine expression, that stretch and cytokines both drive myometrial chemokine expression primarily via activation of NF-κB. These data suggest that the modulation of NF-κB activity may be of potential benefit in the management of PTL.

NF-κB regulates a cassette of immune/inflammatory genes in human pregnant myometrium at term

The onset of human labour resembles inflammation with increased synthesis of prostaglandins and cytokines. There is evidence from rodent models for an important role for nuclear factor‐κB (NF‐κB) activity in myometrium which both up‐regulates contraction‐associated proteins and antagonizes the relaxatory effects of progesterone. Here we show that in the human, although there are no differences in expression of NF‐κB p65, or IκB‐α between upper‐ or lower‐segment myometrium or before or after labour, there is nuclear localization of serine‐256‐phospho‐p65 and serine‐536‐phospho‐p65 in both upper‐ and lower‐segment myometrium both before and after the onset of labour at term. This shows that NF‐κB is active in both upper and lower segment prior to the onset of labour at term. To identify the range of genes regulated by NF‐κB we overexpressed p65 in myocytes in culture. This led to NF‐κB activation identical to that seen following interleukin (IL)‐1β stimulation, including phosphorylation and nuclear translocation of p65 and p50. cDNA microarray analysis showed that NF‐κB increased expression of 38 genes principally related to immunity and inflammation. IL‐1β stimulation also resulted in an increase in the expression of the same genes. Transfection with siRNA against p65 abolished the response to IL‐1β proving a central role for NF‐κB. We conclude that NF‐κB is active in myocytes in both the upper and lower segment of the uterus prior to the onset of labour at term and principally regulates a group of immune/inflammation associated genes, demonstrating that myocytes can act as immune as well as contractile cells.

Regional Expression of Prostaglandin E2 and F2alpha Receptors in Human Myometrium, Amnion, and Choriodecidua with Advancing Gestation and Labor

Abstract The change from uterine quiescence to enhanced contractile activity may be due to the differential expression of prostaglandin receptors within the myometrium and fetal membranes, in a temporal and topographically distinct manner. To address this question, we determined the localization and expression of the PGE2 receptor subtypes (PTGER1–4) and the PGF2alpha receptor (PTGFR) in paired upper and lower segment myometrium, amnion, and choriodecidual samples throughout human pregnancy, with and without labor. All receptor subtypes were found throughout the muscle layers in both the upper and lower uterine segments, colocalizing with alpha smooth muscle actin. A change in intracellular localization was observed at term labor, where PTGER1 and PTGER4 were predominately associated with the nucleus. Minimal changes in the expression of the PGE2 and PGF2alpha receptor subtypes were observed with gestational age, labor, or between the upper and lower myometrial segments. Receptor expression in maternal and fetal tissues differed between the receptor subtypes; PTGER1 and PTGER4 were predominately expressed in the fetal membranes, PTGER2 was greatest in the myometrium, whereas PTGER3 and PTGFR were similarly expressed in the myometrium and fetal membranes. Myometrial activation through the prostaglandin receptors is perhaps more subtle and may be mediated by a balance between one or several of the prostaglandin receptor subtypes together with other known contraction associated proteins. Lack of coordination in receptor expression between the myometrium and fetal membranes may indicate different regulatory mechanisms between these tissues, or it may suggest a function for these receptors in the amnion and choriodecidua that is independent of that seen in the myometrium.

Progesterone Acts via the Nuclear Glucocorticoid Receptor to Suppress IL-1β-Induced COX-2 Expression in Human Term Myometrial Cells

Progesterone is widely used to prolong gestation in women at risk of preterm labour (PTL), and acts at least in part via the inhibition of inflammatory cytokine-induced prostaglandin synthesis. This study investigates the mechanisms responsible for this inhibition in human myometrial cells. We used reporter constructs to demonstrate that interleukin 1beta (IL-1β) inhibits progesterone driven PRE activation via p65 activation and that IL-1β reduced progesterone driven gene expression (FKBP5). Conversely, we found that the activity of a p65-driven NFκB reporter construct was reduced by overexpression of progesterone receptor B (PRB) alone and that this was enhanced by the addition of MPA and that both MPA and progesterone suppressed IL-1β-driven cyclo-oxygenase-2 (COX-2) expression. We found that over-expressed Halo-tagged PRB, but not PRA, bound to p65 and that in IL-1β-treated cells, with no overexpression of either PR or p65, activated p65 bound to PR. However, we found that the ability of MPA to repress IL-1β-driven COX-2 expression was not enhanced by overexpression of either PRB or PRA and that although the combined PR and GR antagonist Ru486 blocked the effects of progesterone and MPA, the specific PR antagonist, Org31710, did not, suggesting that progesterone and MPA act via GR and not PR. Knockdown using siRNA confirmed that both MPA and progesterone acted via GR and not PR or AR to repress IL-1β-driven COX-2 expression. We conclude that progesterone acts via GR to repress IL-1β-driven COX-2 activation and that although the interaction between p65 and PRB may be involved in the repression of progesterone driven gene expression it does not seem to be responsible for progesterone repression of IL-1β-induced COX-2 expression.