Hybrid resistance to precursor cells of bone marrow stroma]

A focusl of hemopoiesis appearing after the transplantation of a bone marrow fragment of C57BL mice to syngeneic mice (under the kidney capsule) contained more hemopoietic cells than in transplantation to the semisyngeneic (CBA X C57BL) FI recipient. Experiments were conducted with a secondary seeding by intravenous injection of hemopoietic cells of the C57BL transplant genotype into the transplant depopulated by irradiation; it was shown that these differences were caused by lesser dimensions of the hemopoietic microenvironment in the focus in the hybrid organism in comparison with such in the syngeneic system. Thus, the hybrid resistance was expressed not only to the hemopoietic cells, but also to the stromal precursors transferring the hemopoietic microenvironment.     

F1 hybrid resistance: Long-term systemic effects sensitive to irradiation and age

In contrast to the usual rapid growth of transplanted syngeneic marrow cells in spleens of lethally irradiated recipients, the growth of parental marrow cells from certain inbred strains of mice is resisted by their F_l hybrids, other strains or both. The full complexity of this well known natural resistance is demonstrated here by using three inbred strains and their three Fl hybrids in all parent-hybrid combinations of donor and recipient. A similar resistance to parental marrow grafts is reported here in W-anemic F₁ hybrid recipients that are cured and repopulated without irradiation. Rather than resistance to short-term growth in spleens, F₁-hybrid resistance to permanent repopulation of the entire hemopoietic system is studied here. This manifestation of hybrid resistance is radiosensitive and declines in recipients over the age of 12 months. Long-term hemopoietic repopulation is measured quantitatively by injecting mixtures of two marrow-cell types with distinguishable hemoglobins into stem-cell-deficient recipients. A very high degree of resistance is detected against WB but not 136 parental marrow when mixed with WBB6F₁ marrow and injected into WBB6F₁ recipients. Most, but not all, of this resistance to permanent, systemic repopulation is abrogated by irradiation of the recipients; it is also abrogated after they reach the age of 15 months. Mouse models of long-term hybrid resistance studied in the entire hemopoietic system may be particularly relevant for marrow transplantation in man, where the objective is long-term systemic repopulation.     

Expression of hemopoietic histocompatibility antigens on H-2-loss variants of F1 hybrid lymphoma cells: evidence consistent with trans gene regulation

H-2 heterozygous marrow stem cells, lymphoid progenitor cells, and leukemia/lymphoma cells do not express hemopoietic or hybrid histocompatibility (Hh) antigens, which are important transplantation antigens recognized during the rejection of normal or neoplastic hemopoietic cells. The Hh-1b determinant of the H-2b haplotype maps to the D region of H-2. We have tested the hypothesis that gene(s) at or near H-2D of the H-2d haplotype down-regulate the expression of Hh-1b in the trans configuration. We used Abelson leukemia virus-transformed pre-B lymphoma cells (ACCb) of BALB/c X BALB.B (H-2d X H-2b) origin, as well as variant lines of ACCb, which were selected for resistance to monoclonal anti-H-2 antibodies plus complement. B6D2F1 (H-2b X H-2d), C3B6F1 (H-2k X H-2b), or B6 (H-2b) mice were infused with inocula of 5 X 10(6) B6 bone marrow cells (BMC). Proliferation of donor-derived marrow cells was judged in terms of DNA synthesis by measuring the splenic incorporation of 5-iodo(125I)-2'-deoxyuridine (IUdR) 5 days after cell transfer. B6 BMC grew much better in B6 than in F1 hybrid host mice, an expression of "hybrid resistance". As observed previously, the injection of EL-4 (H-2b, Hh-1b) tumor cells prior to infusion of B6 (H-2b, Hh-1b) BMC enhanced the growth of B6 BMC in F1 hybrid mice. Therefore, this in vivo "cold target cell competition" type of assay can be used to detect the expression of Hh-1b antigens. Unlike EL-4 (H-2b) cells, hybrid resistance was not affected by prior infusion of (H-2b X H-2d) heterozygous ACCb cells. In contrast, three ACCb variant cell lines, H-2d-, Ld-Dd-, and Dd-, enhanced the growth of B6 BMC in F1 hosts. The ACCb H-2b- cell line did not affect hybrid resistance to B6 BMC. The loss of gene expression on the H-2d chromosome at or very near the H-2Dd locus is correlated with the appearance Hh-1b, as determined by the in vivo cold target competition assay. These results support the hypothesis that heterozygous cells possess trans-acting, dominant, down-regulatory genes mapping near H-2D that control the Hh-1 phenotype of lymphoid tumor cells.     

Hybrid resistance in a long-term bone marrow culture and in foci of ectopic hematopoiesis formed in the culture

The lack of hybrid resistance to the bone marrow graft has been demonstrated in a long-term bone marrow culture. After adherent cell layer transplantation into the body the hybrid resistance was demonstrated in de novo formed ectopic hemopoietic foci. The resistance was of the recipient type, because of which the existence of the migrating component of the hemopoietic microenvironment is suggested.     

Origin of stromal bone marrow mechanocytes according to the results of typing them by isoantigens and chromosomal markers]

The bone marrow of radiochimaeras and heterotopic bone marrow transplants were used to study the origin of precursors of the fibroblasts growing in the monolayer cultures of hemopoietic tissue. In the bone marrow explants of the (C57BL/6 X CBA) F1 mice, in which the CBA bone marrow was transplanted following the lethal irradiation, the fibroblasts grown in the colonies were of recipient origin judging by isoantigens in the reaction of indirect immunofluorescence with the anti-C57BL/6-serum. At the same time in the bone marrow explants from heterotopic transplants (CBA leads to CBA X C57BL/6) the fibroblasts grown in colonies were of donor origin. The cultures of hemopoietic cells of the bone marrow of females heterotopically transplanted in the singenic male (guinea pigs Huston) contained only fibroblasts which were of donor origin judging by sex chromosomes in the metaphase plates of dividing cells. Hence, the bone marrow precursors of fibroblasts do not depend histogenetically on hemopoietic cells and are not replaced at the expense of repopulating cells of the second partner.     

The origin of hematopoietic stem cells in the ontogenesis of vertebrates

A review of the origin of stem blood cells in ontogeny of vertebrates is presented. The comparative analysis of the data on laying, determination and migration of the hemopoietic precursor cells during embryogenesis in various taxonomic groups (teleosteans, urodeleans, anurans, avians and mammals) is performed. The change of the hemopoietic site and erythroid cells populations has been described. The data on sources of blood cell precursors and the origin of hemopoietic cells in the primordiums of hemopoietic organs were classified. A conclusion has been reached that in the course of evolution the hemopoietic anlage is gradually divided into two parts: one part migrates to the extraembryonic (ventral) mesoderm and another one remains intraembryonically and gives rice to the predecessors of definitive hemopoietic stem cells.     

The characteristics of the hematopoietic cells forming colonies on cellulose acetate membranes and their distinctions from other clonogenic cells]

In order to characterize hemopoietic cells forming colonies on membranes of cellulose acetate (CFU-acm) implanted into the peritoneal cavity of mice, we studied the effect of factors stimulating and inhibiting granulocytopoiesis on these cells. Proliferation of CFU-acm can be controlled by humoral factors and this allows us to conclude that they are not identical to CFUs and probably belong to the compartment of early hemopoietic cells of the granulocyte series. We also present evidence for fractional composition, ultrastructure and bone marrow origin of cells belonging to the layer providing for hemopoietic microenvironment for the resulting foci of hemopoiesis; we also present evidence for the role of fibroblasts (fibroblast-like cells) in the maintenance of hemopoiesis. Experiments on transplantation of bone marrow from several rodent species to syn-, allo- and xenogenic recipients allowed us to study interactions of hemopoietic elements of colonies with cells of the underlying layer.     

Differential contribution of dorsal and ventral lateral plate mesoderm to hemopoiesis during Rana pipiens embryogenesis

Data obtained from studies on the origin and development of hemopoietic cells in several classes of vertebrate embryos argue for two distinct sources of hemopoietic cells, the intraembryonic dorsal lateral plate and the extraembryonic ventral blood island/yolk sac. In the present study, a stage by stage comparison of the hemopoietic potential of both of these regions was made during development of the frog, Rana pipiens. Either dorsal lateral plate or ventral blood island mesoderm was reciprocally transplanted between cytogenetically labeled triploid and diploid embryos. The ratio of donor-derived cells to host-derived cells (labeling index) was determined from Feulgen-stained DNA measurements of cells harvested from hemopoietic organs of young larvae. Blood island transplants consistently resulted in larvae with positive labeling of the circulating blood. Transplanted dorsal mesoderm supplied mesonephric granulocytes and thymocytes, but not circulating erythrocytes to larvae. However, the contribution of dorsal mesoderm to larval hemopoiesis fluctuated with respect to embryonic stage at transplantation.     

Stimulation of genetic resistance to marrow grafts in mice by interferon-alpha/beta

Lethally irradiated mice were infused with syngeneic, H-2 allogeneic, parental strain, or H-2 heterozygous bone marrow cells. They were injected daily with rabbit anti-mouse interferons (IFN)-alpha/beta or gamma or with IFN-alpha/beta. The growth of donor-derived cells was judged 5 days later by measuring splenic incorporation of 5-iodo-2'-deoxyuridine-125I into DNA. Antibodies to IFN-alpha/beta, but not to IFN-gamma, weakened genetic (both hybrid and allogeneic) resistance to marrow cell grafts. IFN-alpha/beta stimulated hybrid and allogeneic resistance, the latter even in genetically "poor responder" mice. Mice pretreated with silica, which weakens genetic resistance, were stimulated by IFN-alpha/beta to resist incompatible marrow cell grafts; however, IFN-alpha/beta failed to reverse the effects of antiasialo GM1 serum on marrow graft rejection. IFN-alpha/beta did not inhibit the growth of syngeneic marrow cells and did not stimulate resistance to H-2 heterozygous bone marrow cells. We propose that genetic resistance occurs in two discrete steps. In the first step, hemopoietic histocompatibility (Hh) antigens are recognized by one host cell type, and this recognition leads to IFN-alpha/beta secretion by a silica-sensitive cell. In the second step, asialo GM1-positive natural killer cells stimulated by IFN-alpha/beta recognize Hh antigens on marrow stem cells and cause rejection. The defects in resistance observed in genetically poor responder mice and in mice treated with silica appear to involve the first step in recognition. The lack of rejection of H-2 heterozygous (Hh-) marrow cells by parental strain mice injected with IFN-alpha/beta indicated that specific Hh recognition is critical in the second step of genetic resistance.     

Co-expression of differentiation markers in hybrids between friend cells and lymphoid cells and the influence of the cell shape

We have studied the regulation of differentiation within the hemopoietic system by fusing mouse Friend cells (which can be induced to undergo red blood cell differentiation) to various mouse lymphomas and myelomas which express characteristic T and B lymphocyte surface antigens. Our results show that both erythroid and lymphoid differentiation markers can be co-expressed within the same cell. To determine whether this result applies to other differentiation states, we fused suspension Friend cells to three adherent fibroblast cell lines, and isolated both adherent and suspension hybrids. In fact, suspension hybrid clones were inducible for hemoglobin, whereas adherent clones were not. No obvious differences in overall chromosome balance were evident between the adherent and suspension hybrids. A similar correlation between suspension morphology and inducibility of hemoglobin was found in hybrids between suspension Friend cells and an adherent lymphoma line. These results show that different developmental programs can be coexpressed within the same hybrid cell; but the strongly adherent type of morphology is inconsistent with expression of the red blood cell phenotype, both in hybrid cells derived entirely from hemopoietic parental cells and in cells from widely different lineages.     

Immunofluorescent study of the hemopoietic organs of xenogeneic mouse radiation chimeras]

An immunofluorescent study of hemopoietic organs in xenogenic (mouse-rat) radiation chimaeras has been carried out by means of specific antiserum against hemopoietic cells of the rat bone marrow. The presence of donor cells was tested at different times after the transplantation in the bone marrow, spleen, lymph nodes, thymus and liver of radiochimaeras. The transplanted cells were shown to populate all hemopoietic organs of the recipient, first of all tissues of the bone marrow type and, then, lymphoid organs. The donor (bone marrow) origin of the extramedullar foci of hemopoiesis in the liver was established.     

Demonstration of a phagocytic cell system belonging to the hemopoietic lineage and originating from the yolk sac in the early avian embryo.

It is well established that hemopoietic cells arising from the yolk sac invade the avian embryo. To study the fate and role of these cells during the first 2.5-4.5 days of incubation, we constructed yolk sac chimeras (a chick embryo grafted on a quail yolk sac and vice versa) and immunostained them with antibodies specific to cells of quail hemangioblastic lineage (MB1 and QH1). This approach revealed that endothelial cells of the embryonic vessels are of intraembryonic origin. In contrast, numerous hemopoietic cells of yolk sac origin were seen in embryos ranging from 2.5 to 4.5 days of incubation. These cells were already present within the vessels and in the mesenchyme at the earliest developmental stages analyzed. Two hemopoietic cell types of yolk sac origin were distinguishable, undifferentiated cells and macrophage-like cells. The number of the latter cells increased progressively as development proceeded, and they showed marked acid phosphatase activity and phagocytic capacity, as revealed by the presence of numerous phagocytic inclusions in their cytoplasm. The macrophage-like cells were mostly distributed in the mesenchyme and also appeared within some organ primordia such as the neural tube, the liver anlage and the nephric rudiment. Comparison of the results in the two types of chimeras and the findings obtained with acid phosphatase/MB1 double labelling showed that some hemopoietic macrophage-like cells of intraembryonic origin were also present at the stages considered. These results support the existence in the early avian embryo of a phagocytic cell system of blood cell lineage, derived chiefly from the yolk sac. Cells belonging to this system perform phagocytosis in cell death and may also be involved in other morphogenetic processes.     

Host natural suppressor activity regulates hemopoietic engraftment kinetics in antibody-conditioned recipient mice

Resistance to semi-allogeneic or syngeneic hemopoietic stem cell engraftment can be reduced by treating the unirradiated host with anti-class I MHC antibody. In our previous studies we showed a direct correlation between such resistance and the level of natural suppressor (NS) activity in the host. Thus newborn mice that have high NS activity are very resistant to marrow engraftment, as are adults pretreated with CFA that increases NS activity in the bone marrow. We have now devised a method that allows us to follow hemopoietic engraftment kinetics within the marrow cavity itself by assaying individual CFU-granulocyte/macrophage progenitor cells for their host or donor origin over the immediate post-transplant period. By using this method, we find a close correlation between the rate of marrow engraftment and reduction in host NS activity. Marrow engraftment does not correlate with the reduction of either total host bone marrow cellular content or CFU-granulocyte/macrophage progenitor cell levels. NS activity is mediated by Thy-1-, partially radiosensitive, nylon wool nonadherent cells without NK activity. Adoptively transferred Thy-1-, irradiated spleen cells containing NS activity induced by pretreatment with CFA delayed engraftment kinetics in the marrow cavity. Thus hemopoietic engraftment in the marrow cavity appears to be controlled by an inhibitory regulatory activity that is reflected in the in vitro NS assay. These studies suggest new regulatory targets for selective host conditioning to eliminate resistance to marrow transplantation.     

A study of the development of the hemopoietic system using quail-chick chimeras obtained by blastoderm recombination

The anterior part of the area pellucida from quail blastoderms extending to the 10th or the 17th somite level was substituted for the corresponding region of chick blastoderms in ovo. Reciprocal grafts were also carried out. In external appearance the resulting chimeras had a composite body, one species contributing the head and neck or the head, neck, and wing regions while the other species provided the remainder. The chimeras were always grafted on a chick yolk sac. The cellular composition of hemopoietic organs according to species was analyzed by means of the quail-chick nuclear difference, in 39 viable chimeras at 11–13 days of incubation. The thymus composition depended on the level of the boundary between the two species. In chimeras in which the quail contributed head and neck, the thymic epithelial stroma was made of quail cells while the lymphoid population was of chick origin. In contrast, when the quail contribution also extended to the wings, both thymic stroma and lymphoid cells were of quail origin. In reciprocal combinations, in which head and neck were of chicken origin on a quail body, a different result was obtained: no lymphoid cells were present in the thymus which was reduced to its epithelial component and this was of chick origin. On the other hand, if the chick contribution extended to the wings, as in the reciprocal combination, all thymus components were of chick origin. The spleen and the bursa of Fabricius in most instances did not differ in their cellular composition from the surrounding tissues; however in some chimeras a minor admixture of cells of the other species was also found. Overall these results suggest that hemopoietic stem cells destined to colonize intraembryonic organs arise in territories derived from the whole area pellucida excluding the prospective head-neck region. Furthermore, each hemopoietic organ rudiment appears to be colonized by precursors derived from adjacent territories.     

Radiosensitivity of stromal precursors and mature hematopoietic stromal cells in a culture

Radiosensitivity of hemopoietic stroma precursors from a long-term culture of murine bone marrow, as measured by the adherent cell layer implantation techniques, was characterized by D0 = 3.02 +/- 0.7 Gy and n = 1.6. Mature cells of the hemopoietic microenvironment survived after doses of up to 100 Gy. Their irreversible damage was only observed after 150-200 Gy irradiation. The results obtained support the suggestion of different histogenetical origin of the hemopoietic and stromal precursors.     

In situ localization and characterization of bone marrow-derived cells in the decidua of normal murine pregnancy.

The study reported here was designed to examine the in situ distribution and characteristics of hemopoietically derived decidual cells during normal pregnancy in mice prenatally reconstituted with bone marrow cells carrying a transgenic marker. Bone marrow cells from a transgenic CD-1 strain (CD-1 beta; carrying 1000 copies of beta-globin genes in tandem) were injected into the yolk sac of Day 17 conventional CD-1 embryos. The pregnant females were allowed to deliver normally, and the female offspring raised to puberty were mated with CD-1 males and then killed on Day 12 of gestation. The extent of chimerism in sections of their spleens, uteri, and other organs was evaluated by in situ hybridization of the sections with a biotinylated cDNA probe specific for the beta-globin genes followed by avidin-biotin-peroxidase staining. Tissue controls were provided by CD-1 beta and CD-1 mice, respectively. Tissues were also processed without the application of the probe or with the application of biotinylated lambda DNA as specificity controls. Reconstituted mice exhibited variable degrees of hemopoietic chimerism as indicated by labeling of their splenic lymphocytes (18-54%; mean 42%) as well as hemopoietic cells in other organs. Variable cellular labeling was also noted in their decidua basalis and metrial glands. Labeled cells in these tissues were identified as typical decidual cells, macrophages, and granulated metrial gland (GMG) cells. Labeling of typical decidual cells varied extensively among implantation sites in the same chimera, the average labeling ranging from 17% to 33% (mean 24%) in various chimeras. Labeling was also noted in GMG cells, lymphocytes, and some decidual cells migrating out of metrial gland explants after 24-h culture. The non-pregnant uterus of a chimeric mouse revealed significant labeling of endometrial stromal cells indicative of their hemopoietic origin. These results revealed a hemopoietic origin of certain typical decidual cells and GMG cells identified in situ during normal murine pregnancy and a hemopoietic origin of certain endometrial stromal cells that may represent precursors of decidual cells. The precise timing of the predecidual stem cell migration from the bone marrow to the uterus remains to be defined.     

Chemical and immunological characterization of proteoglycans of embryonic chick calvaria

We have previously demonstrated in quail embryos grafted on chick yolk sacs the existence of intraembryonic stem cells responsible for definitive hemopoiesis. In order to determine the origin of these cells, we now examine the diffuse hemopoietic processes within the avian embryo's mesoderm. At 4–5 days of incubation in the two species, basophilic cells were found throughout the dorsal mesentery. At 6–8 days these cells became very numerous and built up dense foci at the level of branching of the anterior and posterior cardinal veins. These cells often infiltrated the wall of lymph spaces and channels and were also present in the lumen of blood vessels. Such locations support the interpretation that these basophilic cells represent early stages of hemopoietic differentiation. At 8–10 days, erythropoiesis or granulopoiesis was seen in the foci, which then regressed rapidly. The foci maximal development coincided with the period of colonization of the intraembryonic organ rudiments. In “yolk sac chimeras,” the foci were always constituted by quail cells, indicating their intraembryonic origin. The primordial origin of the intramesodermal cells remains to be determined. A likely source might be the ventral wall of the aorta which appeared to shed cells into the lumen and into the mesentery in the 3-day embryo.     

Levels of Ly-49 receptor expression are determined by the frequency of interactions with MHC ligands: evidence against receptor calibration to a "useful" level.

Ly-49 receptor expression was studied in NK cells that developed in fully MHC-mismatched mixed bone marrow chimeras, in which host and donor MHC ligands were expressed solely on various proportions of hemopoietic cells or on both hemopoietic and nonhemopoietic cells. When hemopoietic cells were the only source of MHC ligand, a strong correlation between the level of down-regulation of Ly-49A, Ly-49C, and Ly-49G2 and the number of hemopoietic cells expressing their MHC ligands was observed on both donor and host NK cells. In some animals with low levels of donor hemopoietic chimerism, NK cells of donor origin expressed Ly-49 receptors at higher levels than was observed in normal mice of the same strain. This unexpected observation is inconsistent with the receptor calibration theory, which states that expression of Ly-49 inhibitory receptors is calibrated to an optimal level to maintain an NK cell repertoire that is sensitive to perturbations in normal class I ligand expression. Our data suggest a model in which Ly-49 receptors down-modulate in accordance with the frequency of their interactions with ligand-bearing cells, rather than a model in which these receptors calibrate to a specific "useful" level in response to ligands present in their environment.     

The nature of hemopoietic histocompatibility determinants. Differential sensitivity of Hh-1b and H-2b determinants to tunicamycin

NK cell-dependent resistance of F1 hybrid mice to parental H-2b hemopoietic allografts is directed to cell surface structures controlled by the Hh-1 locus in or near the H-2D region. Crucial to an understanding of this enigmatic phenomenon is the information on the biochemical nature of the Hh-1 locus-controlled structures. Therefore, we examined the effect of tunicamycin (TM), an inhibitor of asparagine-linked glycosylation and ganglioside biosynthesis, on the expression of Hh-1 determinants in H-2b/Hh-1b lymphomas. The Hh-1b determinants on EL-4 and RBL-5 cells were no longer detectable after TM treatment, as demonstrated by the failure of the treated cells to inhibit hybrid resistance to parental H-2b bone marrow cells in vivo. This interpretation was supported by the unaltered ability of the TM-treated cells to localize in the spleens of irradiated F1 hybrid recipients. In contrast, TM caused only moderate reduction in H-2Kb and H-2Db expression as measured by binding of specific antibodies. This was accompanied by reduced susceptibility to alloimmune anti-H-2Db CTL, but not to anti-H-2Kb CTL. No decrease was found in the susceptibility to NK cell cytotoxicity in vitro. These data indicate that N-linked glycosylation or ganglioside synthesis is crucial for the expression of the Hh-1 locus-controlled target structures, but not for the H-2 class I molecules. The data also show that the Hh-1b determinants are substantially different from those which confer the susceptibility to NK cell-mediated in vitro cytotoxicity.     

Effect of abrogating hybrid resistance on the survival of radiation chimeras]

A study was made of the effect of the hybrid resistance abrogation by means of the lymphoid cell administration on the survival of the lethally irradiated mice protected by the transplantation of the semiallogeneic bone marrow. Injection to the C57BLxCBA recipients of the C57BL lymphoid cells one day before the irradiation and the transplantation of the bone marrow of the same genotype (C57BL) increased the chimera survival in comparison with the untreated recipients; such pretreatment 7 days before the irradiation decreased the chimera survival. Parental spleen lymphocytes administration produced but an insignificant effect on the radioresistance both of the stem hemopoietic cells (by the endocolonisation test) and of the organism as a whole (by the 30-day survival test) of the F1 hybrid. On this basis a conclusion was drawn that the differences in the splenocyte efficacy, when they were injected at different periods before the irradiation, could not be attributed to the changes in radioresistance.