Neutralizing anti-interleukin-1ß antibodies reduce ischemia-related interleukin-1ß transport across the blood-brain barrier in fetal sheep.

Hypoxic ischemic insults predispose to perinatal brain injury. Pro-inflammatory cytokines are important in the evolution of this injury. Interleukin-1ß (IL-1ß) is a key mediator of inflammatory responses and elevated IL-1ß levels in brain correlate with adverse neurodevelopmental outcomes after brain injury. Impaired blood-brain barrier (BBB) function represents an important component of hypoxic-ischemic brain injury in the fetus. In addition, ischemia-reperfusion increases cytokine transport across the BBB of the ovine fetus. Reducing pro-inflammatory cytokine entry into brain could represent a novel approach to attenuate ischemia-related brain injury. We hypothesized that infusions of neutralizing IL-1ß monoclonal antibody (mAb) reduce IL-1ß transport across the BBB after ischemia in the fetus. Fetal sheep were studied 24-h after 30-min of carotid artery occlusion. Fetuses were treated with placebo- or anti-IL-1ß mAb intravenously 15-min and 4-h after ischemia. Ovine IL-1ß protein expressed from IL-1ß pGEX-2T vectors in Escherichia coli (E. coli) BL-21 cells was produced, purified, and radiolabeled with 125I. BBB permeability was quantified using the blood-to-brain transfer constant (Ki) with 125I-radiolabeled-IL-1ß. Increases in anti-IL-1ß mAb were observed in the brain of the mAb-treated group (P<0.001). Blood-to-brain transport of 125I-IL-1ß was lower (P<0.04) across brain regions in the anti-IL-1ß mAb-treated than placebo-treated ischemic fetuses. Plasma 125I-IL-1ß counts were higher (P<0.001) in the anti-IL-1ß mAb- than placebo-treated ischemic fetuses. Systemic infusions of anti-IL-1ß mAb reduce IL-1ß transport across the BBB after ischemia in the ovine fetus. Our findings suggest that conditions associated with increases in systemic pro-inflammatory cytokines and neurodevelopmental impairment could benefit from an anti-cytokine therapeutic strategy.

Ketamine decreases inflammatory and immune pathways after transient hypoxia in late gestation fetal cerebral cortex.

Transient hypoxia in pregnancy stimulates a physiological reflex response that redistributes blood flow and defends oxygen delivery to the fetal brain. We designed the present experiment to test the hypotheses that transient hypoxia produces damage of the cerebral cortex and that ketamine, an antagonist ofNMDAreceptors and a known anti-inflammatory agent, reduces the damage. Late gestation, chronically catheterized fetal sheep were subjected to a 30-min period of ventilatory hypoxia that decreased fetal PaO2from 17 ± 1 to 10 ± 1 mmHg, or normoxia (PaO217 ± 1 mmHg), with or without pretreatment (10 min before hypoxia/normoxia) with ketamine (3 mg/kg, i.v.). One day (24 h) after hypoxia/normoxia, fetal cerebral cortex was removed andmRNAextracted for transcriptomics and systems biology analysis (n = 3-5 per group). Hypoxia stimulated a transcriptomic response consistent with a reduction in cellular metabolism and an increase in inflammation. Ketamine pretreatment reduced both of these responses. The inflammation response modeled with transcriptomic systems biology was validated by immunohistochemistry and showed increased abundance of microglia/macrophages after hypoxia in the cerebral cortical tissue that ketamine significantly reduced. We conclude that transient hypoxia produces inflammation of the fetal cerebral cortex and that ketamine, in a standard clinical dose, reduces the inflammation response.

Fetal asphyctic preconditioning in rats results in a preserved placental inflammatory phenotype at birth.

INTRODUCTION: Perinatal asphyxia (PA) is a major cause of neonatal mortality and morbidity. Research has shown that in rats fetal asphyxia (FA) can provoke neuroprotection against a subsequent more severe perinatal asphyctic insult. This is called fetal asphyctic preconditioning (PC). Our objective was to investigate alterations in the placental inflammatory phenotype associated with PC. METHODS: FA was induced in the rat at embryonic day 17 by reversibly clamping the uterine circulation and PA was induced at birth by submersion of the uterine horns in a saline bath for 19 min. The effect of PC was studied by inducing FA at E17, followed by PA at E21. Placental TNF-α, IL-1ß, IL-6 and IL-10 mRNA and protein levels were measured by qPCR and ELISA. RESULTS: IL-1ß mRNA increased in the labouring FA group, but IL-1ß protein decreased after both FA and PA. In the PC group, IL-1ß mRNA and protein levels were similar to controls. IL-6 protein increased 6 h after FA, however decreased 24 h after FA. IL-6 mRNA was higher in the labouring PA group. IL-10 protein decreased 24 h after FA. At birth, IL-10 mRNA increased in the PA group; however, IL-10 protein decreased in both the PA and the FA group. In the PC group, IL-10 mRNA and protein were similar to control levels. DISCUSSION: Depleted protein concentrations of IL-10 and IL-1ß after one single asphyctic insult were reversed after fetal asphyctic PC. In addition, PC placentas showed less up-regulation of IL-6 mRNA compared to the PA ones. This modulated placental inflammatory phenotype might contribute to the improved neonatal outcome showed after fetal asphyctic PC.

The Ovine Fetal and Placental Inflammatory Response to Umbilical Cord Occlusions With Worsening Acidosis.

We hypothesized that repetitive umbilical cord occlusions (UCOs) leading to severe acidemia will stimulate a placental and thereby fetal inflammatory response which will be exacerbated by chronic hypoxemia and low-grade bacterial infection. Chronically instrumented fetal sheep served as controls or underwent repetitive UCOs for up to 4 hours or until fetal arterial pH was <7.00. Normoxic-UCO and hypoxic-UCO fetuses had arterial O2 saturation pre-UCOs of >55% and <55%, respectively, while lipopolysaccharide (LPS)-UCO fetuses received LPS intra-amniotic (2 mg/h) starting 1 hour pre-UCOs. Fetal plasma and amniotic fluid were sampled for interleukin (IL) 6 and IL-1ß. Animals were euthanized at 48 hours of recovery with placental cotyledons processed for measurement of macrophage, neutrophil, and mast cell counts. Repetitive UCOs resulted in severe fetal acidemia with pH approaching 7.00 for all 3 UCO groups. Neutrophils, while unchanged within the cotyledon fetal and intermediate zones, were ∼2-fold higher within the zona intima for all 3 UCO groups. However, no differences were observed in macrophage counts among the treatment groups and no cotyledon mast cells were seen. Fetal plasma and amniotic fluid cytokines remained little changed post-UCOs and/or at 1 and 48 hours of recovery in the normoxic-UCO and hypoxic-UCO groups but increased several fold in the LPS-UCO group with IL-6 plasma values at 1 hour recovery highly correlated with the nadir pH attained (r = -.97). As such, repetitive UCOs with severe acidemia can induce a placental inflammatory response and more so with simulated low-grade infection and likely contributing to cytokine release in the umbilical circulation.

The immune response after hypoxia-ischemia in a mouse model of preterm brain injury.

BACKGROUND: Preterm brain injury consists primarily of periventricular leukomalacia accompanied by elements of gray-matter injury, and these injuries are associated with cerebral palsy and cognitive impairments. Inflammation is believed to be an important contributing factor to these injuries. The aim of this study was to examine the immune response in a postnatal day (PND) 5 mouse model of preterm brain injury induced by hypoxia-ischemia (HI) that is characterized by focal white and gray-matter injury. METHODS: C57Bl/6 mice at PND 5 were subjected to unilateral HI induced by left carotid artery ligation and subsequent exposure to 10% O2 for 50 minutes, 70 minutes, or 80 minutes. At seven days post-HI, the white/gray-matter injury was examined. The immune responses in the brain after HI were examined at different time points after HI using RT-PCR and immunohistochemical staining. RESULTS: HI for 70 minutes in PND 5 mice induced local white-matter injury with focal cortical injury and hippocampal atrophy, features that are similar to those seen in preterm brain injury in human infants. HI for 50 minutes resulted in a small percentage of animals being injured, and HI for 80 minutes produced extensive infarction in multiple brain areas. Various immune responses, including changes in transcription factors and cytokines that are associated with a T-helper (Th)1/Th17-type response, an increased number of CD4+ T-cells, and elevated levels of triggering receptor expressed on myeloid cells 2 (TREM-2) and its adaptor protein DNAX activation protein of 12 kDa (DAP12) were observed using the HI 70 minute preterm brain injury model. CONCLUSIONS: We have established a reproducible model of HI in PND 5 mice that produces consistent local white/gray-matter brain damage that is relevant to preterm brain injury in human infants. This model provides a useful tool for studying preterm brain injury. Both innate and adaptive immune responses are observed after HI, and these show a strong pro-inflammatory Th1/Th17-type bias. Such findings provide a critical foundation for future studies on the mechanism of preterm brain injury and suggest that blocking the Th1/Th17-type immune response might provide neuroprotection after preterm brain injury.

Acute and chronic immunomodulatory changes in rat liver after fetal and perinatal asphyxia.

Hypoxic-ischemic encephalopathy (HIE) caused by fetal and perinatal asphyxia is an important cause of mortality in the neonatal period. Not only will asphyxia affect the brain but also other organs such as the liver and kidneys. Interestingly, it has been shown that liver damage is proportional to the severity of the asphyctic insult, implying an association between liver impairment and HIE. Accordingly, we investigated in an established rat model the acute and chronic hepatic response to both fetal (FA) and perinatal asphyxia (PA). In addition, we assessed whether fetal asphyctic preconditioning (PC) would have any beneficial effect on the liver. Inflammation, ceramide signaling and hepatocellular damage were analyzed in the livers of newborn and adult rats at several short- and long-term time points after both FA and PA. We found that although FA induced an acute inflammatory response, apoptotic mRNA levels and oxidative DNA damage were decreased at 96 h post FA. Whereas increased IL-6 and IL-10 mRNA levels were observed after PA, the combination of FA and PA (PC) attenuated the inflammatory response. Moreover, 6 h after PA anti-apoptotic genes were downregulated and associated with less lipid peroxidation, while preconditioned animals were comparable to controls. In summary, asphyctic PC seems to have an acute protective effect on the liver by modulating the inflammatory, apoptotic and anti-oxidative response. More insight into the hepatic response to asphyxia is necessary, as disturbed hepatic function is associated with metabolic diseases in later life.

Pulmonary innate immune response and melatonin receptors in the perinatal stress.

OBJECTIVE: To analyze the cytokines of the innate immune pulmonary response and the capacity for local response to melatonin according to the perinatal stress. METHODS: 49 cases of pediatric autopsies were evaluated, divided according to cause of death, perinatal stress, gestational age, and birth weight. The percentages of IL-6, C-reactive protein (CRP), IL-1ß, TNF-α, and melatonin receptor were evaluated by immunohistochemistry. RESULTS: The IL-6 expression was higher in the children showing chronic stress, anoxia, and infection. The IL-6 expression showed a progressive increase according to the relation between weight and GA. There was no significant difference in the expression of IL-1ß and TNF-α. The CRP expression was higher in the cases showing chronic stress and premature cases. The expression of melatonin receptors was significantly higher in the cases showing chronic stress, being more evident in the cases showing infection. CONCLUSION: The cause of death and the type of stress influence the expression in situ of melatonin and cytokines of the innate immune pulmonary response. The evaluation of IL-6 and CRP may contribute to the understanding of the evolution of neonates with chronic stress. The greater sensitivity of the lung to melatonin in these cases may indicate an attempt at controlling the immunological response, in an attempt to diminish the harmful effects of stress.

Effect of the umbilical cord blood acid-base status and gas values on the yield of mononuclear cells and CD34⁺ cells.

AIM: To investigate the influence of umbilical cord blood (CB) acid-base status and gas values on the yield of mononuclear cells and CD34⁺ cells, pH, pCO2, pO2, HCO3⁻ and base excess were measured in arterial CB samples obtained from normal full-term deliveries. The relationship of these values with the yield of mononuclear cells and CD34⁺ cells detected in venous CB was analyzed. MATERIAL AND METHODS: A total of 145 CB units were collected from full-term vaginal deliveries at a single hospital. Immediately after delivery, a segment of the umbilical cord was double clamped, and arterial CB was analyzed to determine the acid-base status and gases. Venous CB was collected in a sterile collection bag and processed for cell separation within 24 h of collection. The relationship between umbilical arterial acid-base status, each gas value, and the yield of mononuclear cells and CD34⁺ cells was analyzed. RESULTS: Statistically significant correlations were observed between the net weight of CB and the total mononuclear and CD34⁺ cell counts. In addition, there was a negative correlation between the mononuclear cell counts and pH, but a positive correlation between the mononuclear cell counts and pCO2. However, no significant differences were observed between the primipara and multipara groups in terms of the net weight of CB, total mononuclear cell counts and total CD34⁺ cell counts. CONCLUSION: The findings of the present study show that the mononuclear cell counts are correlated with arterial CB pH and pCO2, suggesting the involvement of fetal hypoxia on the yield of mononuclear cells.

Apoptotic cell death correlates with ROS overproduction and early cytokine expression after hypoxia-ischemia in fetal lambs.

Despite advances in neonatology, the hypoxic-ischemic injury in the perinatal period remains the single most important cause of brain injury in the newborn, leading to death or lifelong sequelae. Using a sheep model of intrauterine asphyxia, we evaluated the correlation between reactive oxygen species (ROS) overproduction, cytokine expression, and apoptotic cell death. Fetal lambs were assigned to sham group, nonasphyctic animals; and hypoxia-ischemia (HI) group, lambs subjected to 60 minutes of HI) by partial cord occlusion and sacrificed 3 hours later. Different brain regions were separated to quantify the number of apoptotic cells and the same territories were dissociated for flow cytometry studies. Our results suggest that the overproduction of ROS and the early increase in cytokine production after HI in fetal lambs correlate in a significant manner with the apoptotic index, as well as with each brain region evaluated.

Hypoxia upregulates the expression of the O-linked N-acetylglucosamine containing epitope H in human ependymal cells.

Epitope H contains an O-linked N-acetylglucosamine (O-GlcNAc) residue in a specific conformation and/or environment recognized by mouse IgM monoclonal antibody H (mabH). Epitope H is present in several types of cells and in several polypeptides outside the CNS. Previous results have shown that in the adult human brains, epitope H is confined mostly to a minority of fibrous astrocytes, and it is greatly upregulated in the reactive astrocytes. Post-translational modification with O-GlcNAc occurs on many proteins involved in several cell processes, such as cell cycle progression, apoptosis, proteasome degradation pathways, and modulation of cellular function in response to nutrition and stress. Hypoxia is one of the major causes of cellular stress. Therefore, in this study, we used the mAbH and the indirect immunoperoxidase method to investigate the expression of epitope H in ependymal cells in brains of persons who died with signs of hypoxic encephalopathy. The results of the present study showed that practically all ependymal cells showed cytoplasmic staining for epitope H in supranuclear cytoplasm in the brain of two premature neonates and in ten infants who died with signs of hypoxic encephalopathy. However, the overwhelming majority of ependymal cells of the nine human embryos taken from legal abortions, ranging from 26 days until 13 weeks of gestational age, and of the ten infants' brains without any sign of hypoxic encephalopathy remained negative. Only occasionally did the ependymal cells show weak cytoplasmic staining in some foci. In addition, the reactive astrocytes in the hypoxic brains showed strong cytoplasmic staining, confirming previous results.

Changes in beta(1) integrin in renal tubular epithelial cells after intrauterine asphyxia of rabbit pups.

OBJECTIVE: We investigated the role of beta(1) integrin in acute renal tubular injury caused by intrauterine asphyxia of neonatal rabbits by exploring the distribution and expression changes in beta(1) integrin and its mRNA in renal tubular epithelial cells. METHODS: A catheter was used to temporarily block the abdominal aortas of New Zealand pregnant rabbits in order to set up the intrauterine asphyxia animal model. The rabbit pups were randomly divided into control, asphyxia, and calpain inhibitor intervention groups and their renal tubular tissues were examined at 2 h after asphyxia. Immunofluorescence and in situ hybridization were used to examine the expression of beta(1) integrin and its mRNA, respectively. Western blot analysis was used to show the proteolysis of beta(1) integrin. Calpain inhibitor I was used to show the protective effect of keeping beta(1) integrin from being hydrolyzed after asphyxia. RESULTS: (1) Normally, beta(1) integrin was located exclusively at the basal surface of renal tubular epithelial cells. After asphyxia a large amount of beta(1) integrin shifted from the basal surface to the cytoplasma and the lateral and apical surfaces and its expression decreased significantly, with simultaneous damage to renal tubular integrity and structure, many exfoliated cells and cell fragments obstructed the tubular lumen. (2) The mRNA of beta(1) integrin was mainly expressed in the cytoplasma. After asphyxia its expression increased significantly. (3) Proteolysis of beta(1) integrin was evident after asphyxia, but was significantly reduced in the calpain inhibitor intervention group. Calpain inhibitor I prevented the decrease and dislocation of beta(1) integrin and protected renal tubular integrity and structure. CONCLUSION: Intrauterine asphyxia caused proteolysis of beta(1) integrin, with reduced expression and depolarized distribution, leading to tubular lumen obstruction and renal tubule destruction. Damage to beta(1) integrin and the renal tubule was related to the activation of calpain, and calpain inhibitor curtailed these effects.

Placental cytokines and preeclampsia.

Preeclampsia is a serious and life-threatening pregnancy complication. Reduced uteroplacental perfusion and oxygen tension, impaired trophoblast differentiation and invasion, and altered placental production of immunomodulators and growth factors are all considered to be important aspects in the aetiology of the condition. The placenta expresses a variety of pro and anti-inflammatory cytokines, adipokines and cytokine-like angiogenic growth factors, production of which is altered in preeclampsia, driven (at least in part) by hypoxia. Altered levels of cytokines have been measured in the circulation of women with preeclampsia, although for reasons that are not always apparent much of the data are disturbingly inconsistent. While the placenta undoubtedly makes an important contribution to plasma cytokine levels, production by maternal peripheral blood mononuclear cells (PBMCs) and other tissues is also likely to be significant, although to what extent remains undetermined. Increased placental expression of soluble receptors occurs with preeclampsia, resulting in elevated circulating concentrations which confer impaired angiogenesis, deficient placental vascularisation, increased placental apoptosis and endothelial dysfunction. The extent to which these changes reflect a response to the disorder, as opposed to being a causative factor in the development of maternal disease, is a matter of some debate. Nevertheless, convincing evidence is now accruing that autocrine/paracrine interactions between placental cytokines/growth factors and the maternal endothelium play a central role in the pathogenesis of preeclampsia.

[Membrane and immunological aspects of perinatal nervous system disorders in newborns]. / Membrannye i immunologicheskie aspekty perinatal'nogo porazheniia nervnoi sistemy u novorozhdennykh detei.

Results of clinical, biochemical, and immunological studies in 157 full-term newborns with perinatal hypoxic damage to the nervous system are analyzed. Activation of lipid peroxidation processes in platelet membranes (increased levels of dienic conjugates and Schiff bases), activation of endogenous phospholipases and lysosomal enzymes (cathepsin D and acid phosphatase) were revealed. Free-radical and enzymatic aggression led to stabilization of the lipid bilayer, which manifested by increase of enzymatic lysoforms and decrease in the total phospholipid content of membranes. Study of lymphocyte subpopulations by means of monoclonal antibodies and measurements of immunoglobulin concentrations showed that perinatal hypoxia impaired the formation of immune status. Acute hypoxia promoted the formation of transitory "stress immunodeficiency", while chronic hypoxia induced more stubborn immune disorders.

Effects of prenatal hypoxia on the formation of immune deficiency in newborn mice.

Fetal hypoxia in the II trimester of pregnancy caused immunodeficiency in newborn mice: inhibition of antibody production to sheep erythrocytes and disturbances in migration of early hemopoietic precursors from the bone marrow to the spleen.

Ontogeny of the fetal immune system: study on pregnancies with Rh-isoimmunization and nonimmune fetal hydrops.

This study aims at observing and comparing the antigen expression of some fetal T- and B-lymphocyte subpopulations in Rh-isoimmunization, which determines anemic hypoxia in the fetus, and nonimmune fetal hydrops (NIFH) which, even if there are some etiological factors involved, causes hipoxic hypoxia in the fetus. Twelve fetuses were studied by way of 30 fetal blood samples obtained by ultrasound-guided cordocentesis between the 20th and 36th gestational week. Twenty-four blood samples in all where taken from the eight fetuses with Rh-isoimmunization. Six blood samples were obtained from the four fetuses with NIFH. The lymphocyte phenotypes studied by monoclonal antibodies and flow cytometry were the following: CD3, CD4, CD8, expression of T-lymphocyte subpopulations; BsIg, CD19, expression of B-lymphocyte subpopulations. We observed a near-normal maturation process in fetuses with Rh isoimmunization, whereas in fetuses with NIFH we observed inhibition and/or delayed expression of T-lymphocytes. An early and increased B-lymphocyte activation marked a cooperation between the two systems in the early gestational periods.

Complement and contact activation in term neonates after fetal acidosis.

AIMS: To evaluate complement and contact activation after fetal acidosis. METHODS: Fifteen term neonates with hypoxic-ischaemic encephalopathy after umbilical arterial pH < 7.10 were compared with 15 healthy neonates with umbilical arterial pH > 7.20. Determinations of the complement function and C1-inhibitor activity were performed as kinetic tests 22-28 hours after birth. C1q, C1-inhibitor, and factor B concentrations were determined by radial immunodiffusion and those of C3a, C5a, and factor XIIa by enzyme immunoabsorbent assay. RESULTS: Median complement function (46 vs 73%), C1q (4.3 vs 9.1 mg/dl), and factor B (5.2 vs 7.7 mg/dl) decreased after fetal acidosis. The activated split products C3a (260 vs 185 micrograms/l), C5a (5.0 vs 0.6 micrograms/l), and factor XIIa (3.2 vs 1.3 micrograms/l) increased in the neonates after fetal acidosis. No differences were found in the concentration and activity of C1-inhibitor. CONCLUSIONS: Complement and contact activation occurred in the newborns with hypoxic-ischaemic encephalopathy. Activation of these systems generates mediators which can trigger inflammation and tissue injury.

Perinatal hypoxia suppresses immune response of adult rats.

We tested the effect of perinatal (one week prenatal and one week postnatal) normobaric hypoxia on the immune response of rats in their 9th week of life. We found that perinatally hypoxic rats produced less serum antibodies after sequential immunization with ovalbumin and sheep red blood cells. Also phagocytosis of HEMA microparticles by neutrophil leukocytes from perinatally hypoxic rats was depressed as well as the oxidative burst of their peritoneal macrophages and neutrophils. These results demonstrate that perinatal hypoxia has an important effect on the immune system of the rat.

[An immunochemical analysis of the function of the hemato-encephalic barrier in acute fetal hypoxia and asphyxia neonatorum]. / Immunokhimicheskii analiz sostoianiia gematoéntsefalicheskogo bar'era pri ostroi gipoksii plodov i asfiksii novorozhdennykh.

The neurospecific protein alpha 1-globulin has been assayed in serum in order to evaluate the blood-brain barrier in newborns with acute intrapartum hypoxia. The study involved 35 term newborns with birth asphyxia of variable severity. The alpha 1-globulin levels correlated with severity of condition at birth, duration of intrauterine exposure to hypoxia and the presence of obstetric complications and clinical severity of cerebral circulatory disorders. A normal early adaptation and effective therapy reduced serum alpha 1-globulin levels 4-8-fold on the 3rd postnatal day and 6-16-fold on the 5th day. Deterioration of neurological symptoms was parallelled by a significant increase in protein levels (to 6400 ng/ml) at day 5. This evidence may confirm the fact that permeability of the blood-brain barrier is impaired by intrapartum hypoxia.