Differential expression of MHC class I antigens on the placenta of the rat. A mechanism for the survival of the fetal allograft

Uterine Natural Killer Cell Heterogeneity: Lessons From Mouse Models

Natural killer (NK) cells are the most abundant lymphocytes at the maternal-fetal interface. Epidemiological data implicate NK cells in human pregnancy outcomes. Discoveries using mouse NK cells have guided subsequent advances in human NK cell biology. However, it remains challenging to identify mouse and human uterine NK (uNK) cell function(s) because of the dynamic changes in the systemic-endocrinological and local uterine structural microenvironments during pregnancy. This review discusses functional similarities and differences between mouse and human NK cells at the maternal-fetal interface.

Seminal fluid and reproduction: much more than previously thought

The influence of seminal plasma on the cytokine and immune uterine environment is well characterised in mice and humans, while the effects of disruption to uterine seminal plasma exposure on pregnancy and offspring health is becoming more clearly understood. The cellular and molecular environment of the uterus during the pre- and peri-implantation period of early pregnancy is critical for implantation success and optimal foetal and placental development. Perturbations to this environment not only have consequences for the success of pregnancy and neonatal health and viability, but can also drive adverse health outcomes in the offspring after birth, particularly the development of metabolic disorders such as obesity, hypertension and insulin resistance. It is now reported that an absence of seminal plasma at conception in mice promotes increased fat accumulation, altered metabolism and hypertension in offspring. The evidence reviewed here demonstrates that seminal plasma is not simply a transport medium for sperm, but acts also as a key regulator of the female tract environment providing optimal support for the developing embryo and benefiting future health of offspring.

The use and misuse of animal analog models of human pregnancy disorders

It has been suggested that the differences between placentation in humans and rodents, such as mice, are sufficient to render human pregnancy unique and to justify ignoring data generated using mice. Detailed examination of the placenta-decidua interaction and decidual NK cell composition in humans, and mice, show that the principles are the same. Indeed, the rat placenta is useful in showing an intermediary arrangement between humans and mice. This is consistent with the thesis of Darwin that structures of older species evolve with development of new species to provide a survival advantage. Molecular details may differ between species, but also between individuals given gene polymorphisms. Human data on interaction of HLA-C2 with NK cell KIR receptors has been used to suggest that human pregnancy problems such as recurrent miscarriage, fetal growth retardation, and pre-eclampsia are due to lack of activation of true uterine NK cell (TuNK) functions that promote trophoblast cell growth and invasion which prevents such problems. But when TuNKs bear certain KIR phenotypes, pathology results. It is shown that such mechanisms could only be pertinent in less than one-third of recurrent miscarriage patients. Activated blood-type NK cells that enter the uterus (BuNKs) remain the major effector of pregnancy loss in humans, and this is consistent with data from the mouse. The importance of activated BuNKs in pre-eclampsia and fetal growth retardation merits further investigation as pre-eclampsia and fetal growth restriction are also manifest in the CBAxDBA/2 mouse model where activated NK cells are the initiator of abortions.

Polymorphism of thePaGene

PROBLEM

This study was undertaken to identify the number of alleles of the Pa gene at the DNA level and to correlate the presence of the different alleles with the ability of a strain to elicit an anti-Pa antibody response when mated with a WF female. The Pa gene is present in both Pa+ and Pa- strains of rats, but it has unique restriction fragment length polymorphisms (RFLP) in the two types of strains: 1.7 kb in Pa- and 1.8 kb in Pa+XbaI digests using a probe derived from the Pa gene.

RESULTS

Examination of DNA from a variety of strains using different enzymes showed that there were characteristic RFLP patterns for Pa+ and Pa- strains. Strains of the b haplotype, however, had an intermediate RFLP pattern, and all of these strains had a relatively low level of reactivity with anti-Pa antibody.

CONCLUSIONS

Thus, there are three alleles of the Pa gene based on their level of expression: Paa, high; Pab, low; and Pa-, none.

Review; Immune Status: Normal Expression of MHC Class I in the Placenta and What Is Expected in Clones

Major histocompatibility complex (MHC) class I genes are highly polymorphic, widely expressed genes that play a vital role in immune responses. Because of their involvement in tissue transplant rejection there has been much interest in their expression during pregnancy. This review examines the evidence for their role in livestock reproduction, and speculates that the process of creating clones may modify their expression with deleterious results.

Lack of class I major histocompatibility antigens on trophoblast of periimplantation blastocysts and term placenta in the pig

In this study, the pattern of expression of class I major histocompatibility (MHC) antigens and mRNA on periimplantation blastocysts and term placental tissue was determined for the pig. Class I MHC antigens could not be detected immunohistochemically either on extra-embryonic membranes or on the embryonic portion of Day 14, 16, 22, and 25 blastocysts. Nor could class I MHC antigens be detected on the outer trophoblast epithelium and inner endodermal surface of the chorioallantoic membrane or on the outer and inner surfaces of the amnion at term. However, MHC class I antigens were detected on the vascular mesoderm found in both the chorion and amnion at term, and in Day 25 extra-embryonic membranes. Uterine endometrial cells and tissues and maternal peripheral blood leukocytes stained strongly for class I MHC antigens. There was a large difference in the intensity of class I MHC mRNA signal, detected by Northern blot analysis, in embryo/fetus-derived tissues compared to that in maternal tissues. The embryos appeared to express even less class I MHC mRNA than did the extra-embryonic membranes. In addition, in situ hybridization of Day 16 blastocysts indicated class I MHC mRNA to be ubiquitously expressed at low levels in embryos and extra-embryonic tissues compared to uterine endometrial tissue controls. Taken together, these results indicate that class I MHC antigens are either not expressed on the surface of the extra-embryonic/fetal membranes during gestation in the pig or are expressed at very low levels, and that specific mRNA is expressed at correspondingly low levels.

Mechanisms of action of major-histocompatibility-complex-linked genes affecting reproduction

PROBLEM

To provide insight into the mechanisms of action of the major-histocompatibility-complex (MHC)-linked genes affecting reproduction.

METHOD OF STUDY

The data were obtained using a variety of cellular and molecular techniques in experimental animals and from population genetic studies in humans.

RESULTS

In the mouse, the preimplantation embryonic development (Ped) locus, whose functional gene is Q9, regulates fast and slow cleavage of the early embryo. There is also evidence for a growth and reproduction complex (Grc)-like region from serologic, molecular, and cytogenetic studies. In the human, the human leukocyte antigen (HLA)-G gene has been associated with an increased rate of embryonic cleavage in those embryos that express the HLA-G antigen. Sharing of HLA antigens in couples has been associated with recurrent spontaneous abortions, gestational trophoblastic tumors, and unexplained infertility. Detailed mapping studies showed that the genes responsible are not the HLA genes themselves, but genes closely linked to the HLA-DR-DQ-B genes. The HLA region genes can interact epistatically with the C3 allele of transferrin to increase the incidence of fetal loss. In the rat, the Grc region, which is closely linked to the MHC, has been associated with embryonic loss, growth defects, and susceptibility to chemical carcinogens. The Grc can interact epistatically with the tail anomaly lethal (Tal) gene or the hood restriction (Hre) gene to enhance these effects.

CONCLUSIONS

There are two basic mechanisms for the effects of MHC-linked genes on reproduction and development: individual gene effects (Ped [Q9], HLA-G) and extended genetic effects (MHC-linked genes in the rat [Grc] and in the human). The nature of these genetic effects, particularly the MHC-linked effects, can also provide some insight into the different theories of human origins: These effects are most consistent with the monogenic theory.

Expression of allogeneic MHC class I antigens by transgenic mouse trophoblast does not interfere with the normal course of pregnancy

Mammalian embryos express paternal histocompatibility antigens which make them potential targets for maternal immune responses. Yet, the histoincompatible fetus survives and develops normally. Down regulation of classical MHC antigen expression by trophoblast cells which are in direct contact with maternal circulation has been repeatedly shown. The trophoblast cells are unable to function properly in antigen presentation and do not induce allogeneic rejection reactions. In the present study we have created transgenic mice that express an allogeneic class I transgene whose transcription is controlled by the transferrin receptor promoter. The expression patterns of the transgene product mice from a single transgenic line were studied in each of the typical placental subpopulations. The allogeneic class I antigen was expressed in the allantoic plate region of the trophoblast, and this expression was not restricted to the endothelial region but extended also to the spongiotrophoblast, as well as the major blood vessels and in the endodermal sinuses. In contrast to the normal class I expression, prominent levels of allogeneic H-2 antigens were detected in the labyrinthine trophoblast. The fetal resorption rate in females mated with these transgenic males was not higher then the normal rate, and the embryos survived and developed normally. These data imply that the unusual expression of allogeneic class I antigens in certain trophoblast subpopulations does not affect fetal development.

Effect of rat placental culture supernatants on cellular and humoral immune responses

PROBLEM

To evaluate the effect of rat placental culture supernatants (PS) on spontaneous, mitogen- and alloantigen-induced lymphoproliferation, antibody synthesis regulation, and symmetric/asymmetric antibody ratio.

METHOD OF STUDY

The effect of PS was determined: (a) on cell proliferation of murine hybridoma cells and on spontaneous or ConA-induced proliferation of murine and rat splenocytes by thymidine incorporation; (b) on rat or mouse cell-mediated cytotoxicity (CMC) by 51Cr release; and (c) on antibody synthesis by enzyme-linked immunoadsorbent assay (ELISA).

RESULTS

With 20% PS, hybridoma cell inhibition was 37% and that of splenocytes up to 60%, whereas it was 75 and 43%, respectively, in the presence of ConA. Despite marked cell death, hybridoma proliferation index increased significantly. There was a drop in total antidinitrophenylated (DNP) immunoglobulin G1 (IgG1) antibody production and an increase in asymmetric antibody percentage, correlating with placental supernatant concentration.

CONCLUSIONS

Rat placental culture supernatants inhibit cell proliferation in all cases, diminish total antibody production, and increase the percentage of asymmetric antibodies by the hybridoma, and they increase antibody production by rat splenocytes.

Genetic factors in reproduction and their evolutionary significance

PROBLEM

The reproductive process is a major driving force in human evolution. An evolutionary perspective was brought to bear on some aspects of reproduction and its aberrations, and, conversely, some of the insights of modern reproductive genetics were used to investigate problems in evolution.

METHOD

The data used were obtained from the literature in evolution, anthropology, archeology, linguistics, and genetics.

RESULTS

The evolutionary line leading to modern humans diverged from that leading to the chimpanzees approximately 5-7 million years ago (Mya). Archaic Homo sapiens emerged ca. 0.3 Mya, and modern Homo sapiens and the development of language ca. 0.1 Mya; thus, modern humans occupy approximately 2% of the evolutionary history of the hominid line. During all of this time, the ancestors of modern humans were migratory hunter-gatherers. It was only during the Neolithic transition ca. 0.01 Mya (approximately 0.2% of hominid evolutionary history) that agriculture was developed, and with it a settled lifestyle that allowed a more stable existence and the development of a different reproductive pattern. Various estimates indicate that the human population increased from 0.05 million at the time of the emergence of modern Homo sapiens to 6,000 million at the present time (120,000-fold increase).

CONCLUSIONS

These evolutionary considerations were used to explore three areas: (1) the extinction of the Neanderthals, who coexisted for ca. 65,000 years with modern humans; (2) the relatively low and stable rate of human conceptions (20-35% of ova fertilized naturally or fertilized in vitro); and (3) the long postnatal period required for the full maturation of the immune response. From these considerations, a broad view of the human reproductive process was obtained that may provide some insight into the rationale for the development of effective reproductive technologies.

Decidual natural killer cytotoxicity decreased in normal pregnancy but not in anembryonic pregnancy and recurrent spontaneous abortion

PROBLEM

The natural killer (NK) cell activity is depressed in the decidua of early normal pregnancy. Recently Morii et al. (Am J Reprod Immunol 1993;29:1-4) found that all early intradecidual CD3+ T cells expressed either T cell receptor (TCR) alpha/beta or gamma/delta but that the expression of the CD3+/TCR complex was down-regulated.

METHOD

To test whether these changes in decidual cellular immunity are different among normal pregnancy, anembryonic pregnancy and recurrent spontaneous abortion, we examined the immune cell subpopulations in the decidua from these three types of pregnancy using flow cytometry and an NK cytotoxicity assay.

RESULTS

Intradecidual CD3+ T cells expressed either TCR alpha/beta or gamma/delta, and the level of expression of the CD3/TCR complex was down-regulated in normal pregnancy, anembryonic pregnancy, and recurrent spontaneous abortion. Although the relative proportion of decidual NK cells was increased to approximately the same extent in all three types of pregnancy, decidual NK activity was higher in anembryonic pregnancies and in recurrent spontaneous abortions than it was in normal pregnancies.

CONCLUSION

Decidual NK cell responses are different in anembryonic pregnancies and in recurrent spontaneous abortions than in normal pregnancies. Whether this difference is pathogenic or is the response to a dead embryo remains to be elucidated.

Reproductive failure and the major histocompatibility complex

The association between HLA sharing and recurrent spontaneous abortion (RSA) was tested in 123 couples and the association between HLA sharing, and the outcome of treatment for unexplained infertility by in vitro fertilization (IVF) was tested in 76 couples, by using a new shared-allele test in order to identify more precisely the region of the major histocompatibility complex (MHC) influencing these reproductive defects. The shared-allele test circumvents the problem of rare alleles at HLA loci and at the same time provides a substantial gain in power over the simple chi 2 test. Two statistical methods, a corrected homogeneity test and a bootstrap approach, were developed to compare the allele frequencies at each of the HLA-A, HLA-B, HLA-DR, and HLA-DQ loci; they were not statistically different among the three patient groups and the control group. There was a significant excess of HLA-DR sharing in couples with RSA and a significant excess of HLA-DQ sharing in couples with unexplained infertility who failed treatment by IVF. These findings indicate that genes located in different parts of the class II region of the MHC affect different aspects of reproduction and strongly suggest that the sharing of HLA antigens per se is not the mechanism involved in the reproductive defects. The segment of the MHC that has genes affecting reproduction also has genes associated with different autoimmune diseases, and this juxtaposition may explain the association between reproductive defects and autoimmune diseases.

Seminal fluid and the expression of MHC class I antigens in the placenta of the rat

PROBLEM

To determine whether seminal fluid influences the expression of MHC class I antigens on the surface of basal trophoblast cells in the placenta of the rat.

METHODS

Transfer of DA x DA embryos into a WF (allogeneic) or DA (syngeneic) recipient made pseudopregnant by hormonal treatment followed by mating with a vasectomized male (seminal fluid) or by mechanical stimulation (no seminal fluid). Antigen expression was determined by electron microscopic immunocytochemistry using the appropriate gold-labeled monoclonal antibodies.

RESULTS

Seminal fluid did not affect the expression of MHC class I antigens on the surface of the basal trophoblast in either allogeneic or syngeneic matings.

CONCLUSIONS

The suppression of the expression of paternal class I antigens on the surface of the basal trophoblast cells in allogeneic pregnancies most likely occurs at the genome level shortly after fertilization.

Paternal and maternal major histocompatibility complex class I antigens are expressed co-dominantly by equine trophoblast

Invasive equine trophoblast cells of the chorionic girdle express high levels of paternally inherited Major Histocompatibility Complex (MHC) class I antigens prior to migration into the endometrium to form the so-called endometrial cups. Three groups of experiments were performed to determine if maternally inherited MHC class I antigens are expressed on chorionic girdle cells. Results indicated that maternally and paternally inherited MHC class I antigens are co-dominantly expressed by cells of the invasive equine trophoblast, and therefore, that the expression of polymorphic equine MHC class I genes does not appear to be affected by genomic imprinting in this tissue. The demonstration that cells of the chorionic girdle were immunogenic supports the hypothesis that invasion of the maternal endometrium by chorionic girdle cells stimulates the production of anti-paternal alloantibodies normally observed in early horse pregnancy. The co-dominant expression of MHC class I antigens by invasive chorionic girdle cells has important implications for the mechanism of recognition of allogeneic fetal MHC class I antigens by the maternal immune system.

Heterogeneity of HLA-G genes identified by polymerase chain reaction/single strand conformational polymorphism (PCR/SSCP)

A genomic HLA-G clone named 7.0E was isolated from a Japanese placenta. The deduced amino acid sequence of the 7.0E was identical to two HLA-G genomic clones and two cDNA clones previously described. The DNA sequences of alpha 1 and alpha 2 domains of the HLA-G gene from 5 cell lines also encoded the same amino acids. However, a 14 bp insertion, ATTTGTTCATGCCT, was present in the 3' untranslated region of 7.0E compared with the originally described HLA-G clone (HLA 6.0). Polymerase chain reaction (PCR)/single strand conformational polymorphism (SSCP) analysis of exon 8 allowed the HLA-G gene to be classified into two alternative types, G6.0 and 7.0 E, those correlated to the absence or the presence of the 14 bp stretch. Each group had minor sequence variant(s), and the alleles of the 7.0E-type were more heterogeneous than those of the G6.0-type. The 14 bp deletion is present only in the G6.0-type of HLA-G alleles among HLA class I genes. Thus it was suggested that G6.0 alleles were generated after diversification of the HLA-G.

Developmental regulation of class I major histocompatibility complex antigen expression by equine trophoblastic cells

Between days 36-38 of pregnancy equine trophoblastic cells of the chorionic girdle migrate and form endometrial cups. Just prior to invasion, the chorionic girdle cells express high levels of polymorphic, paternally inherited, major histocompatibility complex (MHC) class I antigens. Their descendents, the mature, invasive trophoblast cells of the endometrial cups, however, express low or undetectable levels of MHC class I antigens by day 44 of pregnancy. Experiments with MHC compatible pregnancies, the study of residual chorionic girdle cells that had failed to invade the endometrium and remained on the surface of a conceptus, and the study of chorionic girdle cells recovered on days 34-36 of pregnancy and then maintained in vitro for up to 24 days strongly suggest that the reduction of MHC class I antigen expression by mature invasive trophoblast cells of the endometrial cups is developmentally regulated. This phenomenon does not appear to be induced by a maternal antibody response or by other uterine factors acting after the chorionic girdle trophoblast cells invade the endometrium.

On the nature and function of human uterine granular lymphocytes

The 'foetal allograft' concept of the maternal-foetal relationship is currently being questioned. This is partly due to the increasing awareness of uterine large granular lymphocytes, a subset of natural killer cells found in the human endometrium at the time of placentation. Analogous cells are present in several species. The possible role of these cells in the regulation of the trophoblast-maternal interface is discussed here by Ashley King and Yung Wai Loke.

Analysis of the expression and immunostimulatory capacity of class I major histocompatibility antigens on rat trophoblast cell lines

In rat strains expressing the a and other major histocompatibility complex (MHC) haplotypes, subpopulations of placental trophoblast cells synthesize the nonclassical class I Pa antigen in preference to the classical RT1.Aa antigen. In this study, a rat trophoblast cell line, R8RP.3, which was derived from midgestation placentas of PVG.R8 (RT1.Aa) rats, was shown to express class I antigens similarly to those of trophoblast cells in situ. Both unstimulated and IFN-gamma-exposed metabolically labeled R8RP.3 cells synthesized more Pa than RT1.Aa antigen. The reverse was true for labeled spleen cells from PVG.R8 rats. The R8RP.3 cells failed to stimulate allogeneic lymphocyte proliferation even when high levels of both classical and nonclassical class I MHC antigens were expressed on their membranes after incubation with IFN-gamma. These experiments thus supply the first evidence that the inductive phase of the immune response is not promoted by trophoblast cell class I MHC antigens, which could explain the failure of mothers to mount immune responses to class I MHC positive trophoblast cells.

Morphologic changes in the rat uterus following natural mating and embryo transfer

In order to gain some insight into the putative immune suppression that may be induced at the placental implantation sites, the morphological changes at these sites following natural matings and following the transfer of embryos fertilized in vivo were studied. The only histologic parameter that showed a significant difference was the number of granulated metrial gland (GMG) cells. More GMG cells were present in allogeneic than in syngeneic pregnancies, and more GMG cells were present following embryo transfer into an allogeneic female than following the comparable natural mating. The role of the GMG cells in pregnancy is, however, still unresolved.

Evasive strategies of trophoblast cells: selective expression of membrane antigens

Contemporary experimental tools, particularly those of molecular biology, have allowed some insights on the selective display of membrane antigens by trophoblast cells. The unique observations offered by reproduction immunologists may have wider application than expected inasmuch as tumor cells may use some of the same mechanisms to avoid recognition and destruction by host immune cells and antibodies. Thus, further pursuit of the conditions that prevail in pregnancy may lead to a better understanding of the mechanisms used by "foreign" cells to coexist peaceably with host cells, bypassing immune mechanisms designed for their destruction.

Expression and analysis of the rat placental class I cDNA clone encoding the Pa antigen

The previously sequenced cDNA clone pARI.5 was recloned into the mammalian expression vector pcEXV3, and transient and permanent transfectants were prepared in COS7 green monkey kidney fibroblasts. The transfectants were analyzed by indirect immunofluorescence using monoclonal and polyclonal antibodies raised in specifically selected rat strain combinations. These studies showed that pARI.5 encodes the Pa antigen and that the Pa molecule is distinct from the Aa molecule. Probes were derived from the pARI.5 clone and used to study the genomic DNA from Pa-positive and Pa-negative strains. Two probes derived from the 3' untranslated region (3'apARI.5 and 3'bpARI.5) and one probe derived from the 5' region (5'pARI.5) hybridized nonspecifically in all strains under moderate stringency conditions. By contrast, an Xba I restriction fragment unique to the Pa gene was detected with the 5'pARI.5 probe under high stringency conditions. This probe hybridized with a 1.8 kilobase (kb) fragment in the Pa-positive strains and with a 1.7 kb band in the Pa-negative strains. These studies suggest that the gene encoding the Pa antigen, or a fragment thereof, is present in both Pa-positive and Pa-negative strains but may not be expressed in the latter.

A class I antigen, HLA-G, expressed in human trophoblasts

The alpha chain of the human histocompatibility antigen HLA-G was identified as an array of five 37- to 39-kilodalton isoforms by the use of two-dimensional gel electrophoresis. Both cell-associated and secreted HLA-G antigens are prominent in first trimester villous cytotrophoblasts and are greatly reduced in third trimester cytotrophoblasts. Allelic variation was not detected, an indication that HLA-G is not obviously polymorphic in cytotrophoblasts. Among the following choriocarcinoma cell lines studied, HLA-G is expressed in JEG but not in Jar or BeWo. Expression of endogenous HLA-G genes has not been found in normal lymphoid cells. Thus, HLA-G is subject to both cell type-specific and developmental regulation and is expressed in early gestation human cytotrophoblasts.

Membrane-bound and water-soluble nonclassical class I MHC antigens on rat placenta

We have used mouse monoclonal antibodies to different determinants on rat class I major histocompatibility complex (MHC) antigens in order to identify water-soluble and membrane-bound nonclassical (i. e., non-RT1.A) class I MHC antigens on the spongiotrophoblast and labyrinthine trophoblast of rat placenta. Initial immunohistological studies with monoclonal antibodies reacting with a determinant restricted to classical (RT1.A) rat class I antigens confirmed the presence of these antigens on spongiothrophoblast, but not on labyrinthine trophoblast. Staining with another monoclonal antibody, which reacts with both classical and at least some nonclassical rat class I antigens, gave strong staining of both the labyrinthine and spongiotrophoblast. To distinguish membrane-bound from water-soluble class I molecules, quantitative absorption analyses were carried out using both placental cell membranes and ultracentrifuged aqueous extracts of placenta. The aqueous placental extract had no absorptive capacity for the RT1.A-specific antibodies, but it had very strong absorptive capacity for the more broadly reactive antibody. This strongly suggests the presence of large quantities of a soluble nonclassical class I MHC antigen in rat placenta. The placental cell membranes had four to fivefold greater absorptive capacity for the broadly reactive antibody when compared to the antibodies to classical class I antigens, a result that was consistent with the presence of membrane-bound nonclassical class I antigens on rat placenta. The membrane-bound nonclassical class I antigen was purified from detergent extracts of DA rat placental membranes using monoclonal antibody affinity and lentil lectin affinity chromatography. The putative nonclassical class I antigen had a heavy chain of Mr 43,000, which is 2000 smaller than the classical (RT1.A) class I antigen. N-terminal amino acid sequence analysis demonstrated that the nonclassical placental antigen differed at three amino acid residues from the classical RT1.A class I molecule and also from the Q10-like class I molecule of the DA strain. It differed also from the pAR 1.5 cDNA sequence, the only full-length rat class I DNA sequence available so far.

Biochemical analysis of the rat MHC class I antigens RT1.Aa, RT1.Fa and Pa

In DA strain rats, there are two other MHC class I loci (Pa and RT1.Fa) in the vicinity of the classical class I locus RT1.Aa. The Pa antigen is the pregnancy-associated antigen, and it was detected by antibodies elicited in WF females pregnant by DA males without any other immunization. The Fa antigen was detected by a monoclonal antibody raised by alloimmunization. In the present work, the Aa, Fa and the Pa antigens have been compared by HPLC peptide mapping and by isoelectric focusing after their isolation by appropriate monoclonal antibodies. All the three antigens are identical in primary structure with respect to lysine, methionine, asparagine and the aromatic amino acid residues, but they differ from one another with respect to glutamic acid and/or aspartic acid residues. The pI values of the antigens differ slightly. All three antigens have two identical N-linked glycans, but the Fa antigen has an additional N-linked glycan. Based on the available amino acid sequence of the Pa antigen, it can be concluded that both Aa and Pa antigens are devoid of glycosylation in the second domain. This lack of glycosylation of the classical antigen Aa is unique for the rat, since classical class I antigens of the mouse show glycosylation in the first and second, and sometimes in the third domain, and those in the human, in the first domain only. The high degree of similarity among the Aa, Fa, and Pa molecules that this study indicates is also unique for the rat, since antigens encoded by different class I genes of the same haplotype are quite disparate in the mouse and human.

Gene imprinting and major histocompatibility complex class I antigen expression in the rat placenta

Ultrastructural immunocytochemical studies of the expression of major histocompatibility complex class I antigens in the placentas of inbred rats were performed using placentas derived from natural matings and from embryo transfers into females made pseudopregnant by mechanical stimulation. The studies utilized the WF (u) and DA (a) strains and monoclonal antibodies to all of the class I antigens involved. All four mating combinations of the two strains showed that only paternal antigens were expressed in the placenta and that they were limited to the basal trophoblast. This conclusion was confirmed using embryo transfer experiments. In allogeneic natural matings, the allele-specific class I transplantation antigens were not expressed on the membrane of the basal trophoblast but they were expressed in embryo transfers involving embryos of the same genotype. In both types of pregnancies, the pregnancy-associated (Pa) antigen was present on the membrane of the basal trophoblast. The antibody response to DA X DA and to WF X DA embryos transferred into pseudopregnant WF females was against the allele-specific RT1.Aa antigen and the Pa antigen, whereas the antibody response to the heterozygous embryo in the natural WF (female) X DA (male) mating was against the Pa antigen only. These results are consistent with the hypothesis that the suppression of the expression of the allele-specific major histocompatibility complex class I antigens occurs shortly after fertilization and that it requires the uterine environment of a natural mating.

Major histocompatibility complex class I antigens expressed on rat trophoblast cells

There is controversy about the size of the major histocompatibility complex antigens of trophoblast cells from placenta. There are some reports that the heavy chains of these molecules are smaller (39-43 kd) than those of the classical class I antigens (45-46 kd), while there are others which show that both the light and the heavy forms of class I antigens occur in the trophoblast cells. In order to investigate this problem, we studied the classical class I antigen (RT1.Aa) and the pregnancy-associated class I antigen (Pa) of the rat from 125I-labeled basal trophoblast cells, isolated from the placenta of WF females pregnant by DA males, using very mild conditions. These antigens were compared with those of the syngeneic (DA x DA) trophoblast cells or paternal (DA) lymphocytes by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Both the Aa and Pa antigens, precipitated from the two trophoblast preparations, showed a heavy chain of 46 kd associated with a 12 kd beta 2-microglobulin component, as did the same molecules precipitated from the lymphocytes. Heavy chains in the range of 39-43 kd could not be detected in any of the samples. The results suggest that the smaller molecular weight heavy chains are methodological artifacts and could arise from loss of a glycan(s) during isolation.

Altered placental morphology associated with murine trisomy 16 and murine trisomy 19

The morphology of placentas from trisomy 16 and trisomy 19 mouse conceptuses aged 12 to 18 gestational days was studied at the light microscopic level. Comparisons were made with placentas from normal littermate animals. Trisomy 16 placentas showed marked changes from normal: 1) the junctional zone showed little indication of normal morphologic differentiation throughout gestation; 2) clusters of germinal trophoblast cells persisted in the labyrinth throughout gestation, whereas these cells disappeared by gestational day 16 in the normal littermate placentas; 3) the labyrinth was reduced in size in the trisomic placentas, and the differentiation of the interhemal membranes was delayed. The size of the labyrinths from trisomy 19 placentas appeared to be decreased, but otherwise the placentas appeared to have normal morphology. These observations and others from the literature show that placental development is affected by the presence of a trisomic genome, and that different trisomies influence the development of the placenta differently. For trisomy 16, we propose that the striking changes of the junctional zone may be associated with the trisomy 16-related gene dosage effect for alpha- and beta-interferon cell surface receptors. Because of the homology for this and other genes on mouse chromosome 16 with genes on human chromosome 21, findings related to the altered development of the trisomy 16 mouse may be relevant to understanding some of the phenotypic variations associated with human trisomy 21, the Down syndrome.

Immunoregulatory effects of a suppressor factor from healthy pregnant women's lymphocytes after progesterone induction

Progesterone-treated pregnancy lymphocytes release an immunologic blocking factor. The mode of action of this substance was investigated. The supernatant of progesterone-treated pregnancy lymphocytes was highly suppressive of natural cytotoxicity toward human embryonic fibroblast target cells as well as of natural killer cell activity. The effect was not observed when progesterone induction was performed in the presence of RU 486, a progesterone receptor blocking agent. The factor was able to inhibit mixed lymphocyte reactions (MLRs), and transfer coculture experiments revealed that this effect was dependent on major histocompatibility complex nonspecific, nonrestricted suppressor T cells. The activation/expansion of suppressor inducer and suppressor effector T cells was further proved by fluorescence-activated cell sorter analysis of the populations from MLRs cultured in the presence of the inhibitory factor. These changes were not observed with MLRs performed in the presence of supernatants from progesterone + RU 486-treated peripheral blood lymphocytes. The inhibitory material, on the other hand, did not affect either production or function of IL-2. We conclude that in the presence of high local concentrations of progesterone, a suppressive pathway dependent on specific progesterone-CD8+ lymphocyte interaction might be established. This mechanism might play an important role in the maintenance of pregnancy.

The rat as an experimental animal

The development and characterization of many inbred, congenic, and recombinant strains of rats in recent years has led to the detailed genetic description of this species, especially in regard to its major histocompatibility complex. This information has contributed substantially to the study of comparative genetics and has greatly enhanced the utility of the rat in a variety of areas of biomedical research. This article focuses on the use of the rat in immunogenetics, transplantation, cancer-risk assessment, cardiovascular diseases, and behavior.

PGE2-mediated immunosuppression by first trimester human decidual cells blocks activation of maternal leukocytes in the decidua with potential anti-trophoblast activity

We have earlier shown that first trimester human decidual cells and decidual macrophages suppress T lymphocyte alloreactivity in an MHC-unrestricted manner by secreting PGE2, which blocks the generation of IL-2 receptors (IL-2R) and production of IL-2 by lymphocytes but does not interfere with the interaction between IL-2 and IL-2R or the lytic function of CTL, once generated. The present study examined whether these events constituted a physiological, immunoprotective mechanism in situ against the activation of maternal decidua-infiltrating leukocytes with potential anti-trophoblast cytocidal function. We examined (1) whether there was IL-2R expression, IL-2 production, or anti-trophoblast killer activity in short-term (0-3 day) cultures of collagenase-dispersed first trimester human decidua inclusive of leukocytes; (2) if not, whether any of these parameters could be stimulated in these cultures by blocking PGE2 synthesis with indomethacin, or neutralizing PGE2 with anti-PGE2 antibody; (3) whether exogenously added recombinant IL-2 in the presence or absence of indomethacin stimulated IL-2R expression or anti-trophoblast killer function in these cultures. IL-2R (as defined by Tac antigen) was measured in the whole cell population by a radioimmunoassay and further examined at the cellular level with radioautography. IL-2 production in culture supernatants was measured from the proliferative response (3HTdR uptake) of an IL-2-dependent (CTLL) cell line. Killer activity in fresh or cultured decidua-associated cells as well as PBL of normal or pregnant subjects was measured against 51Cr-labeled targets inclusive of autologous cytotrophoblast cells or long-term human trophoblast cell lines, K562 and Daudi cells. Results revealed a complete absence of IL-2R expression, IL-2 production, or anti-trophoblast killer activity in the untreated cultures of the decidua, but all these parameters were significantly stimulated in the presence of indomethacin or anti-PGE2 antibody. The indomethacin-stimulated killer cells had NK-like activity. Presence of high dose exogenous IL-2 alone in these cultures strongly stimulated IL-2R expression and anti-trophoblast killer function, which were augmented further in the additional presence of indomethacin. The resultant killer cells had LAK cell-like activity. These findings suggest that PGE2 secretion by first trimester human decidual cells blocks activation of maternal leukocytes in the decidua with potential anti-trophoblast killer function, by inhibiting IL-2 receptor generation and IL-2 production in situ.

Suppression of lymphocyte alloreactivity by early gestational human decidua. I. Characterization of suppressor cells and suppressor molecules

We examined the immunosuppressor role of the first trimester human decidua on lymphocyte alloreactivity in vitro in order to identify (1) the major cell classes in the decidua mediating the suppressor effect; (2) the stages in the lymphocyte alloreactive responses susceptible to the suppressor effects of the decidua; and (3) the precise nature of the suppressor molecules. Irradiated (2800 R), Ficoll-Paque-separated nucleated cells of the collagenase-dispersed early gestational (6.5-9.5 weeks menstrual age) decidua containing 70-94% typical decidual cells (identified on the basis of distinctive morphology and numerous cytoplasmic or surface markers) or their plastic-nonadherent fractions further enriched for decidual cells (approximately 96% pure) caused a strong dose-dependent suppression of the one way mixed lymphocyte reaction (MLR, i.e., proliferative response measured on Days 3, 4, or 5), when added at the onset of the mixed lymphocyte cultures (MLC). As few as 10(3) decidual cells caused a detectable inhibition of the MLR exhibited by 10(5)-1.5 X 10(5) responder lymphocytes. A smaller degree of suppression was noted with the plastic-adherent fractions of the early decidua (which retained all macrophages and granulocytes, but still included many decidual cells) or unfractionated cells of later gestational (10-13 weeks) decidua containing a higher incidence of leukocytes, granulocytes, and macrophages in particular, or the plastic-adherent fraction thereof, enriched for macrophages. Thus, decidual cells seem to represent an important suppressor cell class in the early gestational human decidua; however, suppression by decidual leukocytes, macrophages in particular, was also evident. The suppressor effect was unrelated to the major histocompatibility phenotype of the responder or the stimulator cells. It was not caused by cell crowding, since an equivalent number of irradiated K562 erythroleukemia cells had little effect on the MLR. The effect was exerted during both the initiation and the progression of the MLR. A delay in the addition of regulator cells progressively minimized the effect on the Day 4 MLR, but did not abolish it completely even when added as late as on Day 3. The major class of mediator molecules was identified as prostaglandins, primarily PGE2, on the basis of the following results: (1) the presence of indomethacin (10(-5) M) or varying dilutions of an anti-PGE2 antibody abrogated this suppression substantially or completely. (2) Addition of pure PGE2 (3 X 10(-7) to 1.1 X 10(-5) M), but not PGF2 alpha, reproduced a dose-dependent suppressor effect.(ABSTRACT TRUNCATED AT 400 WORDS)

Isolation and characterization of rat trophoblast cells

Previous immunohistochemical studies of the rat placenta using specific alloantisera and/or monoclonal antibodies showed that the basal zone trophoblasts stained for Pa and Aa class I major histocompatibility complex (MHC) antigens and for the human SP1-related antigen. In an effort to isolate the basal zone trophoblast cells from the rat placenta, we used these markers to assess the degree of purification of the cells separated by density gradient centrifugation using either Ficoll-Hypaque or Percoll as the gradient medium. The cells were put either on the top or at the bottom of discontinuous density gradients in the range of 1.005-1.10 g/ml. The cell separation profiles for the two media were different. With Percoll, most of the trophoblast cells (80-95%) were collected at the density gradients 1.04/1.06 and 1.06/1.08, whereas with Ficoll-Hypaque, these gradients separated only a small fraction (4-23%) of the trophoblast cells, and most of them pelleted at the bottom of the tube. The trophoblast cells separated by Ficoll-Hypaque, however, showed fewer contaminant cells than those separated by the Percoll gradients.