Magnesium Sulfate and Novel Therapies to Promote Neuroprotection.

Cerebral palsy occurs more often in preterm than in term deliveries and is one of the major neurologic injuries seen in preterm infants. Magnesium sulfate has been found to reduce the risk of cerebral palsy in patients at risk of delivery before 32 weeks' gestational age. Multiple large clinical trials have shown this effect. The authors recommend magnesium sulfate bolus followed by continuous dosing of magnesium sulfate in those at risk of delivery before 32 weeks' gestation until delivery occurs or is no longer imminent. This article also discusses novel and emerging therapies for the prevention of cerebral palsy.

HIV Infection: Antepartum Treatment and Management.

Human immunodeficiency virus (HIV) is a retrovirus which became pandemic in the early 1980s. Since its initial characterization, advancements in diagnosis and management have transformed HIV infection from a terminal diagnosis to a chronic, manageable condition. Effective antiretroviral therapy, acting at multiple steps in the viral lifecycle, durably suppresses viral replication, preserves maternal health and prevents mother to child HIV transmission. Here, we review the salient clinical and ethical considerations of managing HIV infection during pregnancy and delivery.

Hepatitis C in Pregnancy in the Era of Direct-acting Antiviral Treatment: Potential Benefits of Universal Screening and Antepartum Therapy.

Hepatitis C in pregnancy is on the rise, and new direct-acting antiviral agents are available that cure the disease. Published recommendations need to be reviewed and clinically evaluated for the care of pregnant women who are at risk for or have chronic hepatitis C. Available evidence and some of the medical and ethical reasons to consider universal screening and antepartum therapy for hepatitis C during pregnancy are presented. Universal screening and proactive treatment during pregnancy is on the horizon, and these measures should be quickly evaluated for safety and implemented if appropriate.

Magnesium sulfate increases intracellular magnesium reducing inflammatory cytokine release in neonates.

PROBLEM: Magnesium sulfate (MgSO4 ) exposure reduces the risk of cerebral palsy. As neonatal inflammatory cytokine levels strongly correlate with neurologic outcome, we hypothesize that MgSO4 decreases inflammatory cytokine production. METHOD OF STUDY: We assessed the effect of MgSO4 on cellular magnesium levels, cytokine production, and release within THP-1 and cord blood mononuclear cells. RESULTS: MgSO4 exposure increased intracellular magnesium levels, reducing the frequency of THP-1 cells producing IL-1ß, IL-8, and TNF-α following LPS stimulation. Significant reductions in the frequency of neonatal monocytes producing TNF-α (48%) and IL-6 (37%) were seen following LPS stimulation, and MgSO4 also significantly decreased the frequency of monocytes producing TNF-α (35%) under basal conditions. Decreased cytokine production was confirmed via ELISA, demonstrating a sustained effect and dose response. Magnesium also reduced cytokine production following stimulation with TLR ligands representing obstetrical infections (group B Streptococcus and Mycoplasma) and in preterm neonatal monocytes. CONCLUSION: MgSO4 increases intracellular magnesium, reducing inflammatory cytokine production and release, potentially elucidating the mechanism by which MgSO4 prevents cerebral palsy, eclampsia, and preterm birth.

Bidirectional NK/DC interactions promote CD4 expression on NK cells, DC maturation, and HIV infection.

Interactions between natural killer (NK) and dendritic cells (DCs) are integral to immune response development, potentially leading to bidirectional NK/DC activation. We demonstrate that autologous NK/DC interactions induce CD4 expression on NK cells, influencing degranulation. Cell contact is required, with high NK:DC ratios and mature DCs most effectively inducing CD4 expression. CD4(+) NK cells, in turn, mediate DC maturation via contact-dependent and independent pathways, more effectively maturing DCs than CD4(-) NK cells. Bidirectional NK/DC interactions also impact HIV infection, as NK-matured DCs effectively deliver infectious HIV to T cells, via trans-infection. DC-induced CD4 expression also renders NK cells susceptible to HIV infection. Focusing on NK/DC interactions, DCs can transfer infectious virus and enhance HIV infection of CD4(+) NK cells, strongly suggesting that these interactions influence HIV pathogenesis. Findings provide new insight regarding NK/DC interactions, defining a mechanism by which cellular interactions in the absence of pathogens promote DC-mediated amplification of HIV infection.

Magnesium decreases inflammatory cytokine production: a novel innate immunomodulatory mechanism.

MgSO(4) exposure before preterm birth is neuroprotective, reducing the risk of cerebral palsy and major motor dysfunction. Neonatal inflammatory cytokine levels correlate with neurologic outcome, leading us to assess the effect of MgSO(4) on cytokine production in humans. We found reduced maternal TNF-α and IL-6 production following in vivo MgSO(4) treatment. Short-term exposure to a clinically effective MgSO(4) concentration in vitro substantially reduced the frequency of neonatal monocytes producing TNF-α and IL-6 under constitutive and TLR-stimulated conditions, decreasing cytokine gene and protein expression, without influencing cell viability or phagocytic function. In summary, MgSO(4) reduced cytokine production in intrapartum women, term and preterm neonates, demonstrating effectiveness in those at risk for inflammation-associated adverse perinatal outcomes. By probing the mechanism of decreased cytokine production, we found that the immunomodulatory effect was mediated by magnesium and not the sulfate moiety, and it was reversible. Cellular magnesium content increased rapidly upon MgSO(4) exposure, and reduced cytokine production occurred following stimulation with different TLR ligands as well as when magnesium was added after TLR stimulation, strongly suggesting that magnesium acts intracellularly. Magnesium increased basal IĸBα levels, and upon TLR stimulation was associated with reduced NF-κB activation and nuclear localization. These findings establish a new paradigm for innate immunoregulation, whereby magnesium plays a critical regulatory role in NF-κB activation, cytokine production, and disease pathogenesis.

Neonatal T-cell maturation and homing receptor responses to Toll-like receptor ligands differ from those of adult naive T cells: relationship to prematurity.

INTRODUCTION: Inflammation and infection are associated with premature birth and with activation of the fetal immune system. We hypothesized that exposure to microbial Toll-like receptor (TLR) ligands plays an important role in neonatal T-cell maturation and that early exposure to microbial products may result in early T-cell maturation and a tendency for these matured effector cells to change their homing receptor patterns. RESULTS: Expression of the CD45RO marker was induced in term neonatal T cells after in vitro exposure to TLR ligands for 7 days. Interestingly, naive T cells from adult blood were unaffected by TLR ligand exposure. In addition, neonatal T cells had more cells with decreased expression of the α4ß7 integrins and increased expression of CCR4 after in vitro exposure of TLR ligands-similar to the expression of these molecules in adult naive T cells. DISCUSSION: These findings are relevant for the understanding of neonatal T-cell maturation and may contribute to our understanding of multiorgan inflammatory complications of prematurity. METHODS: Cord blood was obtained from term and preterm infants. Using flow cytometry, we identified a mature (CD45RO(+)) phenotype in preterm infant cord blood (CB) T cells that had decreased expression of the α4ß7 integrins and increased expression of the C-C chemokine receptor 4 (CCR4) as compared with term infant CB.

Preterm labor and chorioamnionitis are associated with neonatal T cell activation.

BACKGROUND: Preterm parturition is characterized by innate immune activation and increased proinflammatory cytokine levels. This well established association leads us to hypothesize that preterm delivery is also associated with neonatal T lymphocyte activation and maturation. METHODOLOGY/PRINCIPAL FINDINGS: Cord blood samples were obtained following term, preterm, and deliveries complicated by clinical chorioamnionitis. Activation marker expression was quantitated by flow cytometric analysis. Infants born following preterm delivery demonstrated enhanced CD4(+) T lymphocyte activation, as determined by CD25 (Term 9.72% vs. Preterm 17.67%, p = 0.0001), HLA-DR (Term 0.91% vs. Preterm 1.92%, p = 0.0012), and CD69 expression (Term 0.38% vs. Preterm 1.20%, p = 0.0003). Neonates delivered following clinical chorioamnionitis also demonstrated increased T cell activation. Preterm neonates had an increased frequency of CD45RO(+) T cells. CONCLUSION/SIGNIFICANCE: Preterm parturition is associated with neonatal CD4(+) T cell activation, and an increased frequency of CD45RO(+) T cells. These findings support the concept that activation of the fetal adaptive immune system in utero is closely associated with preterm labor.

Impaired plasmacytoid dendritic cell (PDC)-NK cell activity in viremic human immunodeficiency virus infection attributable to impairments in both PDC and NK cell function.

Human immunodeficiency virus (HIV) and hepatitis C virus (HCV) infections impair plasmacytoid dendritic cell (PDC) and natural killer (NK) cell subset numbers and functions, though little is known about PDC-NK cell interactions during these infections. We evaluated PDC-dependent NK cell killing and gamma interferon (IFN-gamma) and granzyme B production, using peripheral blood mononuclear cell (PBMC)-based and purified cell assays of samples from HCV- and HIV-infected subjects. CpG-enhanced PBMC killing and IFN-gamma and granzyme B activity (dependent on PDC and NK cells) were impaired in viremic HIV infection. In purified PDC-NK cell culture experiments, CpG-enhanced, PDC-dependent NK cell activity was cell contact and IFN-alpha dependent, and this activity was impaired in viremic HIV infection but not in HCV infection. In heterologous PDC-NK cell assays, impaired PDC-NK cell killing activity was largely attributable to an NK cell defect, while impaired PDC-NK cell IFN-gamma-producing activity was attributable to both PDC and NK cell defects. Additionally, the response of NK cells to direct IFN-alpha stimulation was defective in viremic HIV infection, and this defect was not attributable to diminished IFN-alpha receptor expression, though IFN-alpha receptor and NKP30 expression was closely associated with killer activity in viremic HIV infection but not in healthy controls. These data indicate that during uncontrolled HIV infection, PDC-dependent NK cell function is impaired, which is in large part attributable to defective IFN-alpha-induced NK cell activity and not to altered IFN-alpha receptor, NKP30, NKP44, NKP46, or NKG2D expression.

CD4+ NK cells can be productively infected with HIV, leading to downregulation of CD4 expression and changes in function.

NK cells mediate the innate immune response, and HIV-infected individuals demonstrate altered NK cell phenotype and function. We find that CD4+ NK cells are susceptible to HIV infection; this could account for the NK cell dysfunction seen in HIV-infected individuals. CD4+ NK cells express CXCR4 and can be infected with X4-tropic viruses and some primary R5-utilizing viral isolates. Treatment with the CXCR4 ligands AMD3100 and SDF-1alpha partially blocks infection with X4-tropic virus, treatment with anti-CCL Igs upregulates CCR5 surface expression and enables infection with HIV-Bal. HIV infection of NK cells results in CD4 downregulation and the production of infectious virus. HIV-infected CD4+ NK cells mediate NK cell cytotoxicity, however, HIV infection is associated with decreased chemotaxis towards IL-16. Thus, HIV infection of CD4+ NK cells could account for the NK cell dysfunction observed in HIV-infected individuals. Furthermore infected NK cells could serve as a viral reservoir of HIV in vivo.

Fetal allostimulation of maternal cells: a potential mechanism for perinatal HIV transmission following obstetrical hemorrhage.

Our aim was to elucidate the mechanism by which HIV transmission is increased following obstetrical hemorrhage. We investigated whether fetal allostimulation of maternal cells, which could occur following fetal-to-maternal hemorrhage, increases proliferation, HIV replication, and cellular activation. Peripheral blood mononuclear cells (PBMCs) were collected from HIV-infected mothers and their infants to assess maternal-fetal allostimulation. Responses were compared to allostimulation with unrelated donors. Maternal and fetal cells were cocultured to assess allogeneic stimulation. Cell proliferation was measured by [(3)H]thymidine incorporation and cell activation was assessed via fluorochrome-labeled antibody staining and flow cytometric analysis. Virus production from HIV-infected maternal cells was quantitated by p24 enzyme-linked immunosorbent assay or by branched chain DNA assay. Allostimulation with fetal cells led to maternal cell proliferation. In women with unsuppressed viral loads, virus release was also enhanced following allostimulation of maternal cells with fetal cells. Fetal cells are capable of allogeneically stimulating maternal cells, with responses comparable to those seen following allostimulation with unrelated donors. Allostimulation of maternal cells by fetal cells results in statistically significant increases in proliferation and enhanced HIV replication, suggesting a possible physiological mechanism for mother-to-child transmission of HIV in women with obstetrical hemorrhage.

CD4 expression on activated NK cells: ligation of CD4 induces cytokine expression and cell migration.

NK cells play an important role in the innate immune response. We have isolated NK cells from human lymphoid tissues and found that these cells express the CD4 molecule on their surface at levels higher than those found on peripheral blood NK cells. To study the functional role of the CD4 molecule on NK cells, we developed an in vitro system by which we are able to obtain robust CD4 expression on NK cells derived from blood. CD4+ NK cells efficiently mediate NK cell cytotoxicity, and CD4 expression does not appear to alter lytic function. CD4+ NK cells are more likely to produce the cytokines gamma-IFN and TNF-alpha than are CD4- NK cells. Ligation of CD4 further increases the number of NK cells producing these cytokines. NK cells expressing CD4 are also capable of migrating toward the CD4-specific chemotactic factor IL-16, providing another function for the CD4 molecule on NK cells. Thus, the CD4 molecule is present and functional on NK cells and plays a role in innate immune responses as a chemotactic receptor and by increasing cytokine production, in addition to its well-described function on T cells as a coreceptor for Ag responsive cell activation.

Neonatal natural killer cells produce chemokines and suppress HIV replication in vitro.

The innate immune system may be critical in the prevention of perinatal HIV infection. Since neonates have limited immunological experience, they may rely more on the ability of the innate immune system to defend against infection than their adult counterparts. To assess the potential of human neonatal natural killer (nNK) cells to suppress HIV infection in a noncytolytic manner, we evaluated their ability to secrete chemokines and inhibit HIV replication in vitro. nNK cells were cocultured with autologous, HIV-infected CD4(+) T cells and their suppressive activity against HIV was compared to nCD8(+) T cells and adult NK cells. We found that nNK cells could suppress HIV replication in autologous CD4(+) T cells infected with a CCR5-utilizing virus, but were unable to suppress replication by a CXCR4-utilizing virus. nNK cell-mediated suppression of HIV replication was comparable to that of nCD8(+) T cells and greater than that of NK cells from adults. Suppression was mediated by soluble factors, and was abrogated by the addition of an excess of anti-CC-chemokine Ab directed at CCR5 ligand chemokines. In contrast, inhibition of HIV replication by autologous nCD8(+) T cells was not fully abrogated with anti-CC-chemokine Abs indicating, as previously reported in HIV-infected adults, that other factors in addition to chemokines play a role in CD8(+) T cell-mediated suppression of HIV replication. Our results show that nNK cells can inhibit HIV replication via a chemokine-mediated mechanism, and support a potential role for the innate immune system in preventing perinatal transmission of HIV in a noncytolytic manner.

The effect of elective cesarean delivery and intrapartum infection on fetal lymphocyte activation and susceptibility to HIV infection.

OBJECTIVE: Mother-to-child transmission of the human immunodeficiency virus may be reduced with elective cesarean delivery before labor. Because immune activation enhances the human immunodeficiency virus infection, we hypothesized that fetal lymphocytes that are obtained at elective cesarean delivery may be less activated, therefore less susceptible to human immunodeficiency virus infection than cells that are obtained after normal spontaneous vaginal delivery at term. A second hypothesis was that intrapartum infection correlates with increased lymphocyte activation and susceptibility to human immunodeficiency virus infection. STUDY DESIGN: Samples were obtained after normal spontaneous vaginal delivery (n = 13), elective cesarean delivery (n = 12), chorioamnionitis (n = 5), and preterm labor (n = 6). Activation markers were measured by flow cytometry, and cord blood mononuclear cells were infected with the human immunodeficiency virus. RESULTS: Cell activation was comparable within the normal spontaneous vaginal delivery and elective cesarean delivery groups; there was no difference in susceptibility to in vitro human immunodeficiency virus infection. Intrapartum infection (chorioamnionitis, preterm labor) was associated with increased cell activation. Chorioamnionitis/preterm labor also tended to increase cord blood mononuclear cell susceptibility to human immunodeficiency virus infection. CONCLUSION: Labor did not activate fetal lymphocytes or alter susceptibility to human immunodeficiency virus infection compared with elective cesarean delivery. Intrapartum infection was associated with cell activation, and there was a trend toward increased susceptibility to human immunodeficiency virus infection. These data suggest that fetal lymphocyte activation correlates with susceptibility to human immunodeficiency virus infection and may account for the increased mother-to-child transmission of the human immunodeficiency virus that has been seen in association with chorioamnionitis and preterm labor.