Ekaterina Maidji

Human Cytomegalovirus Transmission from the Uterus to the Placenta Correlates with the Presence of Pathogenic Bacteria and Maternal Immunity

ABSTRACT Prenatal cytomegalovirus infection may cause pregnancy complications such as intrauterine growth restriction and birth defects. How virus from the mother traverses the placenta is unknown. PCR analysis of biopsy specimens of the maternal-fetal interface revealed that DNA sequences from cytomegalovirus were commonly found with those of herpes simplex viruses and pathogenic bacteria. Cytomegalovirus DNA and infected cell proteins were found more often in the decidua than in the placenta, suggesting that the uterus functions as a reservoir for infection. In women with low neutralizing titers, cytomegalovirus replicated in diverse decidual cells and placental trophoblasts and capillaries. In women with intermediate to high neutralizing titers, decidual infection was suppressed and the placenta was spared. Overall, cytomegalovirus virions and maternal immunoglobulin G were detected in syncytiotrophoblasts, villus core macrophages, and dendritic cells. These results suggest that the outcome of cytomegalovirus infection depends on the presence of other pathogens and coordinated immune responses to viral replication at the maternal-fetal interface.

Viral and bacterial pathogens at the maternal-fetal interface

We studied the incidence of pathogenic bacteria and concurrent infections with human cytomegalovirus (CMV) and herpes simplex virus (HSV) type 1 and 2 in biopsy samples from the placenta and decidua of women with healthy pregnancies. By polymerase chain reaction analysis, we found that 38% of placental samples were positive for selected bacteria and viruses. CMV, HSV-1, and HSV-2 were detected in isolation or with bacteria in first- and second-trimester samples. Certain bacteria were detected more often during the second trimester than during the first--Ureaplasma urealyticum, Mycoplasma hominis, and Gardnerella/Bifidobacterium species. In paired samples from first-trimester tissues, the detection rate for viruses, compared with most bacteria, was higher in the decidua than in the adjacent placenta. In contrast, bacteria were more frequently detected in placenta. Analyses of immunoglobulin G isolated from the placenta support the hypothesis that immune responses suppress CMV reactivation in the presence of pathogenic bacteria at the maternal-fetal interface.

Antibody Treatment Promotes Compensation for Human Cytomegalovirus-Induced Pathogenesis and a Hypoxia-Like Condition in Placentas with Congenital Infection

Human cytomegalovirus (HCMV) is the major viral cause of birth defects worldwide. Affected infants can have temporary symptoms that resolve soon after birth, such as growth restriction, and permanent disabilities, including neurological impairment. Passive immunization of pregnant women with primary HCMV infection is a promising treatment to prevent congenital disease. To understand the effects of sustained viral replication on the placenta and passive transfer of protective antibodies, we performed immunohistological analysis of placental specimens from women with untreated congenital infection, HCMV-specific hyperimmune globulin treatment, and uninfected controls. In untreated infection, viral replication proteins were found in trophoblasts and endothelial cells of chorionic villi and uterine arteries. Associated damage included extensive fibrinoid deposits, fibrosis, avascular villi, and edema, which could impair placental functions. Vascular endothelial growth factor and its receptor fms-like tyrosine kinase 1 (Flt1) were up-regulated, and amniotic fluid contained elevated levels of soluble Flt1 (sFlt1), an antiangiogenic protein, relative to placental growth factor. With hyperimmune globulin treatment, placentas appeared uninfected, vascular endothelial growth factor and Flt1 expression was reduced, and sFlt1 levels in amniotic fluid were lower. An increase in the number of chorionic villi and blood vessels over that in controls suggested compensatory development for a hypoxia-like condition. Taken together the results indicate that antibody treatment can suppress HCMV replication and prevent placental dysfunction, thus improving fetal outcome.

Superior human leukocyte reconstitution and susceptibility to vaginal HIV transmission in humanized NOD-scid IL-2Rγ(-/-) (NSG) BLT mice.

Humanized Bone marrow/Liver/Thymus (BLT) mice recapitulate the mucosal transmission of HIV, permitting study of early events in HIV pathogenesis and evaluation of preexposure prophylaxis methods to inhibit HIV transmission. Human hematopoiesis is reconstituted in NOD-scid mice by implantation of human fetal liver and thymus tissue to generate human T cells plus intravenous injection of autologous liver-derived CD34(+) hematopoietic stem cells to engraft the mouse bone marrow. In side-by-side comparisons, we show that NOD-scid mice homozygous for a deletion of the IL-2Rγ-chain (NOD-scid IL-2Rγ(-/-)) are far superior to NOD-scid mice in both their peripheral blood reconstitution with multiple classes of human leukocytes (e.g., a mean of 182 versus 14 CD4(+) T cells per μl 12 weeks after CD34(+) injection) and their susceptibility to intravaginal HIV exposure (84% versus 11% viremic mice at 4 weeks). These results should speed efforts to obtain preclinical animal efficacy data for new HIV drugs and microbicides.

Role of apical and basolateral membranes in replication of human cytomegalovirus in polarized retinal pigment epithelial cells.

Human retinal pigment epithelial (RPE) cells, which are permissive for human cytomegalovirus (HCMV) replication, were used to evaluate virus infection from apical and basolateral membranes of polarized cells. Tests of HCMV infectivity showed that the apical membrane was 20-30-fold more susceptible to infection than the basolateral membrane; in contrast, both membranes were equally susceptible to infection by herpes simplex virus type 1 (HSV-1). Neutralizing monoclonal antibodies (MAbs) to HCMV glycoprotein B (gB) blocked penetration of virions into polarized RPE cells. This indicated that gB has a function in fusion of the virion envelope with the apical membrane of these cells, as it has with the cell membrane of unpolarized human fibroblasts. In contrast to HSV-1-infected RPE cells, the paracellular permeability of polarized RPE cells changed slowly following infection with HCMV. Confocal microscopy examination of HCMV-infected RPE cells revealed that the pattern of ZO-1 staining was altered at late times. Addition of gB-specific neutralizing MAbs to the apical and basolateral membranes of HCMV-infected RPE cells failed to inhibit plaque development; this indicated that progeny virions infect adjacent cells before disassembly of tight junctions and are sequestered from neutralization during spread across lateral cell membranes. The finding that progeny HCMV virions cross lateral cell membranes, which differ substantially in protein composition from apical membranes, suggests that polarized RPE cells contain multiple receptors for HCMV.

Developmental Regulation of Human Cytomegalovirus Receptors in Cytotrophoblasts Correlates with Distinct Replication Sites in the Placenta

ABSTRACT Cytomegalovirus (CMV), the major viral cause of congenital disease, infects the uterus and developing placenta and spreads to the fetus throughout gestation. Virus replicates in invasive cytotrophoblasts in the decidua, and maternal immunoglobulin G (IgG)-CMV virion complexes, which are transcytosed by the neonatal Fc receptor across syncytiotrophoblasts, infect underlying cytotrophoblasts in chorionic villi. Immunity is central to protection of the placenta-fetal unit: infection can occur when IgG has a low neutralizing titer. Here we used immunohistochemical and function-blocking methods to correlate infection in the placenta with expression of potential CMV receptors in situ and in vitro. In placental villi, syncytiotrophoblasts express the virion receptor epidermal growth factor receptor (EGFR) but lack integrin coreceptors, and virion uptake occurs without replication. Focal infection can occur when transcytosed virions reach EGFR-expressing cytotrophoblasts that selectively initiate expression of αV integrin. In cell columns, proximal cytotrophoblasts lack receptors and distal cells express integrins α1β1 and αVβ3, enabling virion attachment. In the decidua, invasive cytotrophoblasts expressing coreceptors upregulate EGFR, thereby dramatically increasing susceptibility to infection. Our findings indicate that virion interactions with cytotrophoblasts expressing receptors in the placenta (i) change as the cells differentiate and (ii) correlate with spatially distinct sites of CMV replication in maternal and fetal compartments.

A role for cytomegalovirus-specific CD4+CX3CR1+ T cells and cytomegalovirus-induced T-cell immunopathology in HIV-associated atherosclerosis.

Objective:HIV-infected individuals are at increased risk for myocardial infarction. Given observations that cytomegalovirus (CMV) infection, CMV-specific T cells, and CX3CR1 have each been associated with atherosclerosis, we hypothesized that CMV-induced T-cell immunopathology could contribute to HIV-associated atherosclerosis. Methods:We measured the expression of CX3CR1 on peripheral blood mononuclear cells and its association with carotid artery intima–media thickness (IMT) in 29 HIV-infected individuals and 48 uninfected controls. We analyzed the phenotype and specificity of CX3CR1+CD4+ T cells, the production of CX3CL1 (the ligand of CX3CR1) by CMV-infected endothelial cells in vitro, and the migration of CD4+ T cells induced by CX3CL1. Results:The progression of atherosclerosis in HIV-infected individuals, as assessed by longitudinal measurements of carotid IMT, was associated with a high frequency of CD4+ T cells that express the chemokine receptor CX3CR1. Such CD4+CX3CR1+ T cells were antigen-primed, produced high levels of pro-inflammatory cytokines, and composed the majority of the CMV-specific CD4+ T cells. CMV-stimulated CD4+ T cells were also found to induce the production of CX3CL1 (the ligand for CX3CR1) by human arterial endothelial cells, driving the transendothelial migration of pro-inflammatory CD4+ T cells. Finally, we observed that CD4+CX3CR1+ T cells could be localized to the coronary arterial wall in HIV disease. Conclusion:HIV-associated atherosclerosis may be driven by a positive feedback pathway in which a high frequency of antigen-stimulated, CMV-specific CD4+CX3CR1+ T cells induce endothelial cells to secrete CX3CL1, which itself drives progressive infiltration of the arterial wall by pro-inflammatory cells.

Intrauterine growth restriction caused by underlying congenital cytomegalovirus infection

BACKGROUND Human cytomegalovirus (HCMV) is the major viral etiology of congenital infection and birth defects. Fetal transmission is high (30%-40%) in primary maternal infection, and symptomatic babies have permanent neurological, hearing, and vision defects. Recurrent infection is infrequently transmitted (2%) and largely asymptomatic. Congenital infection is also associated with intrauterine growth restriction (IUGR). METHODS To investigate possible underlying HCMV infection in cases of idiopathic IUGR, we studied maternal and cord sera and placentas from 19 pregnancies. Anti-HCMV antibodies, hypoxia-related factors, and cmvIL-10 were measured in sera. Placental biopsy specimens were examined for viral DNA, expression of infected cell proteins, and pathology. RESULTS Among 7 IUGR cases, we identified 2 primary and 3 recurrent HCMV infections. Virus replicated in glandular epithelium and lymphatic endothelium in the decidua, cytotrophoblasts, and smooth muscle cells in blood vessels of floating villi and the chorion. Large fibrinoids with avascular villi, edema, and inflammation were significantly increased. Detection of viral proteins in the amniotic epithelium indicated transmission in 2 cases of IUGR with primary infection and 3 asymptomatic recurrent infections. CONCLUSIONS Congenital HCMV infection impairs placental development and functions and should be considered as an underlying cause of IUGR, regardless of virus transmission to the fetus.

Cytomegalovirus Infection in the Human Placenta : Maternal Immunity and Developmentally Regulated Receptors on Trophoblasts Converge

During human pregnancy, CMV infects the uterine-placental interface with varied outcomes from fetal intrauterine growth restriction to permanent birth defects, depending on the level of maternal immunity and gestational age. Virus spreads from infected uterine blood vessels, amplifies by replicating in decidual cells, and disseminates to the placenta in immune complexes. Cytotrophoblasts--epithelial cells of the placenta--differentiate along two distinct pathways. In the first, cells fuse into syncytiotrophoblasts covering the surface of chorionic villi that transport substances from the maternal to fetal bloodstream. In the second, cells invade the uterine interstitium and blood vessels, remodel the vasculature and form anchoring villi. CMV initiates replication in cytotrophoblast progenitor cells of floating villi, whereas syncytiotrophoblasts are spared. This extraordinary pattern of focal infection in underlying cells hinges on virion receptors being upregulated as villous cytotrophoblasts begin to differentiate. Expression of developmentally regulated receptors could explain viral replication in spatially distinct maternal and fetal compartments. Reduced invasiveness of infected cells could impair remodeling of the uterine vasculature, restrict maternal blood flow and access of the fetus to nutrients causing intrauterine growth restriction.

Induction of an epithelial integrin αVβ6 in human cytomegalovirus-infected endothelial cells leads to activation of transforming growth factor-β1 and increased collagen production

Human cytomegalovirus (CMV) infection is a major cause of morbidity in immunosuppressed individuals, and congenital CMV infection is a leading cause of birth defects in newborns. Infection with pathogenic viral strains alters cell-cell and cell-matrix interactions, affecting extracellular matrix remodeling and endothelial cell migration. The multifunctional cytokine transforming growth factor (TGF)-beta1 regulates cell proliferation, differentiation, and extracellular matrix remodeling. Secreted as a latent protein complex, TGF-beta1 requires activation before binding to receptors that phosphorylate intracellular effectors. TGF-beta1 is activated by integrin alphavbeta6, which is strongly induced in the epithelium by injury and inflammation but has not previously been found in endothelial cells. Here, we report that CMV infection induces integrin alphavbeta6 expression in endothelial cells, leading to activation of TGF-beta1, signaling through its receptor ALK5, and phosphorylation of its intracellular effector Smad3. Infection of endothelial cells was also found to stimulate collagen synthesis through a mechanism dependent on both TGF-beta1 and integrin alphavbeta6. Immunohistochemical analysis showed integrin alphavbeta6 up-regulation in capillaries proximal to foci of CMV infection in lungs, salivary glands, uterine decidua, and injured chorionic villi of the placenta, demonstrating both its induction in endothelium and up-regulation in epithelium in vivo. Our results suggest that activation of TGF-beta1 by integrin alphavbeta6 contributes to pathological changes and may impair endothelial cell functions in tissues that are chronically infected with CMV.