The patient was treated with ipilimumab on a compassionate-use program and dexamethasone, celecoxib, and levetiracetam to treat the symptoms and seizures. Postoperative stereotactic radiosurgery was initiated.
One of the most fascinating immunologic questions is how the genetically distinct fetus is able to survive and develop within the mother without provoking an immune rejection response. The pregnant uterus undergoes rapid morphological and functional changes, and these changes may influence the nature of local immune responses at the maternal/fetal interface at different stages of gestation. We hypothesized that specialized mechanisms exist to control access of maternal leukocyte subsets to the decidua and that these mechanisms are modulated during the course of pregnancy. At the critical period of initial placenta development, the maternal/fetal interface displays an unparalleled compartmentalization of microenvironmental domains associated with highly differentiated vessels expressing vascular addressins in nonoverlapping patterns and with recruitment of specialized leukocyte subsets (monocytes, granulated metrial gland cells, and granulocytes) thought to support, modulate, and regulate trophoblast invasion. One of the most striking observations at this time of gestation is the almost complete exclusion of lymphocytes from the maternal/fetal interface. The second half of pregnancy is characterized by a partial loss of microenvironmental specialization and different switches in vascular specificity within the decidua basalis, paralleling dramatic changes in the populations of recruited leukocytes (e.g., a striking influx of lymphocytes, especially T cells). In the term pregnant uterus, the expression of all vascular addressins decreased dramatically; only weakly staining maternal vascular segments remained. These segments may define sites of extremely low residual traffic in the term decidua, which contains remarkably few maternal leukocytes overall. Our results suggest that the maternal/fetal interface represents a situation in which leukocyte trafficking is exquisitely regulated to allow entry of specialized leukocyte subsets that may play a fundamental role in immune regulation during pregnancy.
In normal pregnancy, the maternal immune system fails to reject the fetus or the placenta as an allogeneic graft. We hypothesize that specialized mechanisms of leukocyte recruitment might limit access of circulating maternal immune cells to the maternal/fetal interface. During the critical period of initial trophoblast invasion there is an elegantly orchestrated progression of leukocyte homing events in the decidua basalis, associated with highly regulated expression of vascular addressins and segregation of specialized leukocyte subsets into well-defined decidual microdomains. Neutrophils are limited to the region of necrosis associated with enzymatic digestion at the leading edge of the invading trophoblast, where an almost linear array of maternal blood vessels displays the neutrophil ligand E-selectin. Cells with the phenotype of monocytes but expressing alpha4beta7 integrin are localized in the blood vessels of the specialized "vascular zone", which display the unusual combination of P-selectin (partially associated with platelets) and the alpha4beta7 ligand mucosal vascular addressin-1 (MAdCAM-1). Granulated metrial gland cells (alpha4+beta7-, probably alpha4beta1+) constitute a well-defined cluster positioned in the central decidua basalis around venules prominently expressing the alpha4beta1 ligand VCAM-1 (but not MAdCAM-1). T and B lymphocytes are rare. Our results suggest that selective mechanisms for regulating leukocyte access, associated with microdomain specialization within the decidua basalis, may play a fundamental role in immune regulation during the invasive period of placental development.
Successful mammalian pregnancy relies on the action of sophisticated regulatory mechanisms that allow the fetus (a semi-allograft) to grow and develop in the uterus in spite of being recognized by maternal immune cells. Among several immunocompetent cells present at the maternal fetal interface, dendritic cells (DC) seem to be of particular relevance for pregnancy maintenance given their unique ability to induce both antigen-specific immunity and tolerance. Thus, these cells would be potentially suitable candidates for the regulation of local immune responses within the uterus necessary to meet the difficult task of protecting the mother from infection without compromising fetal survival. Current evidence on decidual DC phenotype and function, and their role in the regulation of the maternal immune system during mouse and human pregnancy are discussed and reviewed herein; highlighting novel DC functions that seem to be of great importance for a successful pregnancy outcome.
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