Susceptibility of MHC class I expressing extravillous trophoblast cell lines to killing by natural killer cells.

Purified human first trimester extravillous trophoblast (EVT) cell lines HTR-8 and HT-116 were examined for susceptibility to natural killer (NK) cell-mediated lysis. Based upon nucleic acid sequencing of an amplified fragment of cDNA, Western blot analysis and immunostaining of fixed and live cells, it was shown that both EVT cell lines expressed HLA-G mRNA and protein within the cytoplasm when cultured on laminin-coated plates. Very weak HLA-G expression was detectable on the cell surface under these conditions. However, strong cell surface expression of a classical MHC class I molecule (most likely HLA-C) was exhibited by these EVT cell lines when grown on laminin, as indicated by W6/32 FACS analysis (Ab recognizing pan MHC class I), and Western immunoblotting with HC10 (Ab recognizing HLA-B/C). When these EVT cells, cultured on laminin, were used as targets for peripheral blood natural killer (NK) cells in a standard chromium release assay, both HTR-8 and HT-116 cells were lysed by NK cells in a dose-dependent manner. The respective percentage specific lysis at an effector to target (E/T) ratio of 100 was 28+/-7, and 48+/-14. The choriocarcinoma cell lines JAR and JEG-3 which were respectively MHC class I negative and HLA-G positive were resistant to NK cell lysis. Thus, there was no clear relationship between the MHC class I expression and NK cell resistance or susceptibility among the EVT cell lines and choriocarcinoma cells. These findings raise the possibility that NK cells may take part in the surveillance of the invasive EVT cells during normal placentation.

Engraftment of bone marrow from severe combined immunodeficient (SCID) mice reverses the reproductive deficits in natural killer cell-deficient tg epsilon 26 mice.

A large, transient population of natural killer (NK) cells appears in the murine uterine mesometrial triangle during pregnancy. Depletion of uterine (u) NK cells, recently achieved using gene-ablated and transgenic mice, results in pathology. Pregnancies from matings of homozygous NK and T cell-deficient tg epsilon 26 mice have <1% of normal uNK cell frequency, no development of an implantation site-associated metrial gland, and an edematous decidua with vascular pathology that includes abnormally high vessel walls/lumens ratios. Fetal loss of 64% occurs midgestation and placentae are small. None of these features are seen in pregnant T cell-deficient mice. To confirm the role of the NK cell deficiency in these reproductive deficits, transplantation of tg epsilon 26 females was undertaken using bone marrow from B and T cell-deficient scid/scid donors. Engrafted pregnant females have restoration of the uNK cell population, induced metrial gland differentiation, reduced anomalies in the decidua and decidual blood vessels, increased placental sizes, and restoration of fetal viability at all gestational days studied (days 10, 12, and 14). Thus, uNK cells appear to have critical functions in pregnancy that promote decidual health, the appropriate vascularization of implantation sites, and placental size.

Uterine natural killer cells do not require interleukin-2 for their differentiation or maturation.

PROBLEM: Natural Killer lymphocytes (NK cells) from the pregnant uterus and from other tissues in pregnant and nonpregnant mammals can be stimulated by interleukin-2 (IL-2) during culture to become Lymphokine Activated Killer (LAK) cells. The susceptibility of cultured trophoblast cells to lysis by LAK cells raises the enigma of why uterine (u) NK cells that are characterized by morphology and by surface phenotyping as "activated," and thus potentially damaging to the placenta, become localized to implantation sites during normal rodent gestation. METHOD: uNK cells migrating from explant cultures of the metrial gland were assessed for expression (mRNA and protein) of each chain of the IL-2 receptor (IL-2R). Implantation sites from transgenic mice lacking a functional IL-2 gene were examined histologically for the differentiation of mature, granulated uNK cells. RESULTS AND CONCLUSION: Early post-implantation, mRNA from migrating uNK cells contains transcripts for all three chains of the IL-2R. Only IL-2Rgamma was expressed at day 12 of gestation; expression of this gene was also lost by day 16. Loss of IL-2R transcription did not result in loss of protein expression; however, it did coincide with loss of uNK cell viability in vivo. Apparently normal differentiation of uNK cells occurred in IL-2(-/-) mice and in doubly mutant IL-2(-/-).beta2m(-/-) mice. Thus, despite uNK cell expression of the full IL-2R at day 8 of gestation, IL-2 is not required for the maturation of uNK cells to their fully granulated form or for normal placental development.

Absence of natural killer cells during murine pregnancy is associated with reproductive compromise in TgE26 mice.

Strategies of cell depletion were pursued to extend understanding of the functions of natural killer (NK) cell-like large granulated lymphocytes found in the rodent uterus during pregnancy. Repeated infusions of antibody to Ly-49G2, a surface marker thought to be expressed by the progenitor forms of these cells, removed Ly-49G2+ cells from the virgin but not the pregnant uterus. Large granulated uterine lymphocytes also differentiated during pregnancy in transgenic mice that carried a deletion in the IL-2 gene. This cell population was absent in two strains of mice, p56lck-/lck-.IL-2Rbeta-/IL-2Rbeta- and TgE26. Implantation sites in both of these strains had histopathological anomalies in the zone of decidualization. In TgE26 mice, a sudden onset of fetal loss began at Day 10 of gestation. Fetal death was associated with progressive changes in the maternal uterine arterioles, suggestive of localized arteriosclerosis associated with hypertension. TgE26 females carried immune-competent fetuses to term, apparently through preventive or compensatory mechanisms that may modify the uterine vasculature after the onset of vascular pathology. These studies are the first to suggest a vital role for large granulated lymphocytes in the promotion of fetal survival and pregnancy success.

Histological studies of gene-ablated mice support important functional roles for natural killer cells in the uterus during pregnancy.

Maternal lymphocytes having a large and granulated morphology accumulate at healthy implantation sites in normal mice. Insight into the functions of these cells has come from a previous study of two independent lines of mice deficient in natural killer (NK) cells. In pregnant Tg epsilon 26 mice, vascular pathology was found that led to the major complications of either fetal death or intrauterine growth retardation. In pregnant p56lck null x IL-2R beta null mice, extensive distension of the decidua was observed that separated the placenta from the myometrium and appeared to be interstitial edema. To strengthen assignment of uterine large granulated lymphocytes to the NK cell lineage and to understand which aspects of NK cell biology may be important for a uterine-based, pregnancy-associated subset, mid-gestation implantation sites from a new series of mice having gene deletions which alter NK cells (IL-2R gamma null, Stat4 null, IL-12 p40 null, beta 7 integrin null and Muc-1 null) have been examined histologically. The findings support the assignment of pregnancy-associated large granulated cells of mice to the NK cell lineage and suggest that the primary functions of these tissue-based NK cells are to support normal development of the decidua and/or its vasculature using pathways that involve IL-12 mediated signal transduction.

Pregnancy-associated uterine granulated metrial gland cells in mutant and transgenic mice.

PROBLEM: Granulated metrial gland (GMG) cells are pregnancy-specific uterine lymphocytes found in rodents. The lineage relationships of GMG cells are incompletely defined, although genetic and immunophenotyping studies suggest membership in the natural killer (NK) cell lineage. Pregnancy-specific functions have been postulated for GMG cells, but no successful depletion of these cells has been achieved that would permit assessment of any critical roles that might influence gestational outcome. METHOD: Routine histological methods for light microscopy were used to assess implantation sites from wild-type mice and mice of the following genotypes: tgE26, mi/mi, and p53 knockout. RESULTS: GMG cells are transient, histamine-negative cells found in the pregnant uteri of most mice. Pregnancies in the NK and T-cell-deficient tgE26 were characterized by infrequent GMG cells, very small placentae, and an elevated rate of fetal and perinatal mortality. In term placentae of mi/mi with dystocia. GMG cells were found in a new location along the plane of placental separation, and they appeared degranulated. A normal life-history was observed for GMG cells in p53 knockout mice. CONCLUSION: Pregnancies in mutant and transgenic mice indicate that GMG cells are natural killer cells and have critical roles in placental development and pregnancy success. The disappearance of GMG cells at term is independent of p53 gene expression.

Uterine natural killer cells: insights into lineage relationships and functions from studies of pregnancies in mutant and transgenic mice.

Mice expressing genetic alterations have been extremely valuable in providing insights into both the lineage relationships and functions of lymphohematopoietic cells. This approach has been applied to granulated lymphocytes that localize to implantation sites in the rodent uterus during pregnancy. Histological analyses of implantation sites collected from various mutant and transgenic mice over the course of gestation strongly support the conclusions that these granulated lymphocytes, previously named granulated metrial gland (GMG) cells, are natural killer (NK) cells and that they are essential for normal development of the placenta. Pregnancy-associated uterine NK (uNK) cells have limited lytic activity suggesting that their secretory products, particularly cytokines and matrix proteins, may be critical for normal placental maturation. This review will highlight information collected from pregnancies in mutant and transgenic mice that have contributed to the current understanding of functions of uNK cells during gestation.

Branhamella catarrhalis pathogenesis in SCID and SCID/beige mice. Brief report.

SCID and SCID/beige mice were used to study the pathogenesis of B. catarrhalis administered by intranasal, intraperitoneal or intravenous routes. Challenged adult animals did not appear overtly clinically ill. Similar symptoms were observed regardless of the challenge route, and pretreatment of mice with human transferrin did not enhance clinical virulence. Susceptibility to B. catarrhalis appeared to be age-dependent as some mice under one week of age died following challenge. Postmortem findings included circumscribed pale foci on the liver, splenomegaly and mineralization of the myocardium. Presence of lesions did not correlate with the assessment of clinical well being, and severity of the lesions was found to be challenge strain-dependent. Liver lesions and splenomegaly were not observed in animals challenged with heat-killed bacteria or placebo. SCID/beige mice were more affected than SCID mice both clinically and pathologically, suggesting that natural killer cell and polymorphonuclear cell functions may be important in resolving B. catarrhalis challenge.