Hemopoiesis in the human yolk sac

The endodermal layer of the human yolk sac was examined three-dimensionally with light microscopy on serial sections using scanning electron microscopy and transmission electron microscopy to find the origin of hemopoiesis in the yolk sac. Cell-labelling techniques were also employed using the monoclonal anti-transferrin receptor antibody. Orifices of the endodermal and intracellular tubules facing the yolk-sac cavity were demonstrated on the endodermal surface. Various-sized blood cells in various stages of differentiation and maturation were distributed in the yolk-sac cavity and tubules and were observed also at the orifices of the tubules. The morphological and the immunological findings suggest that blood cells with large nuclei in the endodermal layer are the most immature. The present results suggest that blood cells originate from the endodermal layer and are carried to the embryo through the yolk sac cavity and the vitelline duct. It is probable that the endodermal and intracellular systems of tubules have an important role in the transport of blood cells, including stem cells.     

The human foetal yolk sac

Summary Specimens of human foetal yolk sac from conceptuses of 8 and 10 weeks menstrual age were studied with the electron microscope. At 8 weeks columns of endodermal cells projected into the underlying mesenchyme. Several types of endodermal cell were identified; some contained much granular endoplasmic reticulum and abundant glycogen; others resembled the haemocytoblasts present in the mesenchyme and yet others contained membrane-bounded channels similar to those seen in megakaryocytes. It was suggested that the endoderm is the site of origin of the blood cells but that, while the platelets may be formed within the endoderm, the normal development of the red cells is conditional upon their early release into the mesenchyme and possibly the attainment of an intravascular position. Intravascular macrophages were identified and their role in determining the nature of the blood picture during the period of functional acitvity of the sac discussed. The morphology of the epithelium on the external surface of the sac was discussed in relation to the possibility of its playing a part in the exchange of materials between the yolk sac and the chorionic cavity.Supported in part by grant no. 5-T01-GM-00582-08 from the U.S. Public Health Service.     

Glycans of the early human yolk sac

Summary The pattern of glycan distribution in the early human yolk sac has been investigated using a panel of lectins. Two 6-week and one 8-week human yolk sacs, and one 8-week fetal liver from live, ectopic pregnancies were fixed and embedded in epoxy resin. Lectin histochemistry was carried out on sections of these tissues using 23 biotinylated lectins and an avidin-biotin peroxidase revealing system. Mesothelial surfaces expressed most subsets of N-glycans (other than high mannose types),N-acetyl-lactosamine, sialic acid, andα1,6-N-acetylgalactosamine. Endodermal surface and lateral membranes resembled those of mesothelium, but showed a preponderance ofα2,6-sialyl residues. Most intracellular granules contained N-glycan. There was a marked heterogeneity of granules in the endodermal cells, with different subsets varying in both staining and positional characteristics. The mesenchymal matrix bound most of the lectins used in the study, and expressed fucosyl residues which were also detected in the endothelium. Fetal liver parenchyma showed very similar staining patterns to those seen in the endoderm except for the distribution ofN-acetylglucosamine, which was sparse. Despite some common features, each germ cell layer had a distinct ‘glycotype’, with some saccharides showing extreme topographical restriction.     

Effects of methotrexate-carcinoembryonic-antigen-antibody immunoconjugates on GW-39 human tumors in nude mice

Summary Methotrexate (MTX) was conjugated to an anti-carcinoembryonic antigen monoclonal antibody (NP2) by using amino-dextran as an intermediate carrier. The drug was chemically linked to amino-dextran (averageM _r = 40000), and the resulting MTX-dextran was then site-specifically attached to the carbohydrate moiety of the antibody. Athymic nude mice that carried human colonic GW-39 tumors (s. c.) were treated with the immunoconjugate. In this study, the specific conjugate caused a greater inhibition of the tumor growth than either free MTX or its conjugate with dextran and an irrelevant antibody. The intermediate MTX-dextran and the unlinked mixture of MTX-dextran with NP2 were both relatively ineffective in inhibiting tumor growth. The greatly reduced host toxicity permitted the use of the MTX-dextran-NP2 in a high-dose therapy of this tumor system.Supported in part by U.S.P.H.S. grant CA39 841 from the NIH     

Immunohistochemical characterization of extracellular matrix components of yolk sac tumors

Proteoglycans (PGs) were isolated from yolk sac tumor and chondroitin sulfate large PG (core molecule with a molecular weight congruent to 200,000) and small PG (core molecule with a molecular weight congruent to 50,000) were detected. Immunohistochemical localization of PGs in three yolk sac tumors was investigated using monoclonal antibodies raised against both small and large PGs, which were purified from human ovarian fibroma capsule and a yolk sac tumor, respectively. The localization of large PG was observed to be distinct from that of small PG. A markedly positive reaction for antibody against large PG was observed in myxomatous areas, perivascular and perivesicular portions; hyaline globules were the most intensely reactive. In the areas showing a polyvesicular vitelline tumor pattern, the compact connective tissue stroma consisted of small PGs. It is conceivable that large PGs are synthesized by immature mesenchymal cells and also by epithelial-like cells as a basement membrane component, whereas small PGs are synthesized by mature fibroblastic cells synthesizing collagen. Immunohistochemical localization of other extracellular matrix components (laminin, fibronectin, type I-IV collagen) was also studied in relation to PG localization.     

Presence of mast cell precursors in the yolk sac of mice

Concentration of mast-cell precursors in hematopoietic tissues of mouse embryos was evaluated by a limiting dilution method. Cells from yolk sacs, livers, and bodies of (WB x C57BL/6)F1 (hereafter called WBB6F1)- +/+ embryos were injected directly into the skin of adult WBB6F1-W/Wv mice which were genetically depleted of tissue mast cells. Concentration of mast-cell precursors was calculated from the proportion of injection sites at which mast cells did not appear. Since the concentration of mast-cell precursors in the yolk sac was about 30 times as great as that of embryonic body at Day 9.5 of the pregnancy, the mast-cell precursors seemed to be generated within the yolk sac. The concentration in the yolk sac reached the maximum level at Day 11, and then dropped markedly at Day 13. In contrast, mast-cell precursors increased from Day 11 to Day 15 in the fetal liver. As a result, the concentration of 11-day yolk sacs was comparable to that of 15-day fetal liver. Although intravenous injection of 15-day fetal liver cells (2 x 10(6)) rescued the general mast-cell depletion of WBB6F1-W/Wv mice, the intravenous injection of the same number of 11-day yolk sac cells did not rescue it. In contrast with fetal livers, yolk sacs scarcely contained hematopoietic stem cells which were measured by spleen colony formation. Therefore, the mast-cell precursors of the yolk sac may not originate from such stem cells.     

Effects of thymus grafts in nude mice transplated with human malignant tumors

The effect of neonatal thymus grafts implanted in nude mice previously transplanted with three different human malignant tumors - an adenocarcinoma of the colon, a malignant melanoma and a Burkitt's lymphoma - were studied. In all immunologically reconstituted animals tumord were rejected. Tumor rejection stated 2-3 weeks after thymus implantation, and was completed after 30-6 weeks. Histological examination of lymphoid tissues showed a correlation between immunological reconstitution and tumor rejection. The rejection process showed a characteristic histologic picture with 3 phases - an early, an intermediate and a late phase - these were similar in the three tumor types examined. The possible mechanisms of reconstitution and tumor rejection are discussed.     

The treatment of cancer patients with human lymphoblastoid interferon

Summary Highly purified human lymphoblastoid interferon (HLBI) derived from virus-stimulated Namalwa cells was administered by 6-h IV infusion or IM injection to 40 patients with a variety of disseminated malignancies refractory to standard therapy. Each patient received doses escalating from 0.1 to 50×10⁶ U for up to 5 weeks. Extensive monitoring for clinical effect, toxicity, and pharmacokinetics has revealed higher peak serum interferon levels and somewhat more pronounced systemic toxicity for the IV than for the IM route of administration. Objective evidence of tumor regression was observed in two patients receiving HLBI IV.     

Cell proliferation kinetics in two human tumors grown in athymic nude mice.

The technique of labelled mitoses was used to investigate the cell proliferation kinetics in two human neoplasms, one a malignant melanoma and one a fibrosarcoma, transplanted to and grown serially in the athymic nude mutant (ANM) mouse. The experimental data obtained codrealted well with a theoretical percentage labelled mitoses curve based on the assumption that the time spent by a cell in each of the phases M, G1, S and G2 is described by four independent log-normal distributions. However, no unique second wave was defined by the experimental results. This means that only the deductions made about the duration of the G2 and S phases are reliable. The median duration of tma and the fibrosarcoma, respectively. By comparing these results with results published on cell cycle studies of transplantable animal tumors and human tumors in situ, it is concluded that the cell cycle parameters of a human tumor grown in the ANM mouse are close to those of the same tumor in the donor patient.     

Large scale production of human lymphoblastoid (Namalva) interferon

Summary Large scale production of human lymphoblastoid (Namalva) interferon (IF) is described. Cell propagation, in up to 50 1 culture volume, was carried out in a low cost medium by a semi-continuous cultivation method. IF was induced by Sendai virus, testing two induction methods. The yield of crude IF varied in the range of 12 – 100 × 10³ IF units.ml^-1. A weekly production output of 1 – 5 × 10⁸ units crude IF was obtained.     

Detection of chromosome aberrations in paraffin sections of seven gonadal yolk sac tumors of childhood

Yolk sac tumors are the most frequent kind of malignant pediatric germ cell tumor and may have a fundamentally different pathogenesis than adult germ cell tumors. Since few cytogenetic studies have been performed so far, in situ hybridization was applied to interphase cell nuclei of seven gonadal yolk sac tumors of childhood in routine paraffin-embedded tissue sections. The panel of chromosome-specific DNA probes was selected on the basis of their relevance in adult germ cell tumors and consisted of five DNA probes specific for the (peri)centromeric regions of chromosomes 1, 8, 12, 17 and/or X and/ or one DNA probe specific for the subtelomeric region of chromosome 1 (p36.3). As in adult germ cell tumors, all pediatric gonadal yolk sac tumors had an increased incidence of numerical chromosome aberrations. All tumors showed an overrepresentation of at least three chromosomes. Gains of chromosome 12, which is highly specific in adult germ cell tumors, were diagnosed in six pediatric gonadal yolk sac tumors. The DNA indices determined in the paraffin-embedded tumor material correlated well with the in situ hybridization findings. A chromosome was either over- or underrepresented, compared with the corresponding DNA indices, in only a few cases. The short arm of chromosome 1 in adult germ cell tumors is often involved in structural aberrations. In pediatric germ cell tumors, the short arm of chromosome 1 is also a nonrandom site of structural aberrations. Moreover, the presence of a deletion at 1p36.3 in four out of five tumors suggests that the loss of gene(s) in this region is an important event in the pathogenesis of gonadal yolk sac tumors of childhood.     

An in vitro morphological study of the mouse visceral yolk sac and possible yolk sac immunocyte precursors

Summary Mouse visceral yolk sac has been organ cultured from 9 days of gestation, a time prior to the thymus being lymphoid, until 12 days of gestation, a time after which the thymus is lymphoid. During the culture period the endodermal epithelial cells survived well, erythropoiesis diminished, endothelial-lined cavities formed in the mesodermal mass, and cells developed which have been classified as large, medium and small immunocyte precursors. The cytoplasm of the immunocyte precursors contains polysomes, spherical mitochondria, a few profiles of rough endoplasmic reticulum, occasional granules and a large Golgi complex. This study offers morphological support for the yolk sac origin of immunocyte precursors in the mouse which may seed the thymus and liver.Supported by NIH Grant AI 13486-01     

Kinetics of internalisation and degradation of surface-bound interferon in human lymphoblastoid cells

The binding of iodinated human interferon-alpha 2 (IFN-alpha 2) was studied on the human T cell line, Molt 4. After its initial binding to cells, the IFN is transferred to a trypsin-resistant compartment before appearing in the medium as TCA-soluble material, while the total cell-associated IFN declines to one-third of its maximum value after 3 h incubation. The Na+/H+ ionophore monensin did not prevent intracellular accumulation of IFN but did completely inhibit its breakdown. We interpret our results as evidence for receptor-mediated internalisation of IFN followed by intracellular breakdown.