Thy-1 antigen on rat bone marrow cells: Immunochemical and fine morphological studies (original) (raw)
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European Journal of Immunology, 1977
In rat bone marrow Thy-1 antigen is present on cells with membrane immunoglobulin and on precursors of peripheral B lymphocytes Rat bone marrow cells carrying Thy-1 antigen were studied morphologically, and tested for their independence of the thymus and their relationship to the B lymphocyte lineage. Using a fluorescence-activated cell sorter t o separate Thy-l+ and Thy-1-fractions, it has been confirmed that up to 50 % of all nucleated bone marrow cells are Thy-l+, most of which have the morphology of small lymphocytes. Thy-1-cells were mainly neutrophils and erythroid. Thy-l+ cells were found also in the marrow of B rats (rats thymectomized as adults, irradiated and reconstituted with syngeneic bone marrow from thymectomized donors drained of recirculating lymphocytes), though at a lower frequency (roughly half) than of normal rats. In both normal and B rats about 1/4 of the Thy-l+cells also bore lymphocyte surface immunoglobulin (sIg), and these doubly labeled cells accounted for the majority (-2/3) of marrow cells carrying large amounts of sIg. Therefore, unlike mice, Thy-1 is not a marker of thymus-dependent lymphocytes in rats. The B precursor activity of marrow fractions was measured in a long-term reconstitution assay counting sIg+ cells in the thoracic duct of lethally irradiated recipients. Virtually all the precursors were in the Thy-l+ or sIg-fractions, and were barely detectable among Thy-1-or sIg+ cells. Thus, in the rat peripheral B lymphocytes descend from precursors bearing Thy-l antigen but lacking sIg.
Demonstration with monoclonal antibody of the glycoprotein nature of Thy-1.2 alloantigen
Canadian Journal of Biochemistry, 1980
Thy-1 antigen, present in large amounts on the brain and thymus of mice, exists in two allelic forms, either Thy-1.1 or Thy-1.2. Previous results have shown that Thy-1.1 alloantigen is expressed on a glycoprotein of molecular weight 25 000, therefore referred to as the Thy-1 glycoprotein. However the presence of Thy-1.2 alloantigen on the purified Thy-1 glycoprotein could not be established unequivocally. The present paper demonstrates that Thy-1.2 alloantigen, identified by F7D5 monoclonal antibody, is localized on the Thy-1 glycoprotein. The limited neutralization by the glycoprotein of the reactivity of AKR anti-C3H allosera to thymocytes is explained by the fact that the antiserum contains antibodies to determinants other than Thy-1.2. The alloantisera are shown to react with viral proteins encoded for by endogenous murine leukemia virus and expressed at the surface of Friend cells and thymocytes.
Microbiology and Immunology, 1985
A cell-surface antigen on rat lympho-hemopoietic cells was determined by using a monoclonal antibody, R2-1B3 (1B3). The 1B3 antibody, when tested for its reactivity with different hemopoietic cells by cytofluorography with a FACS analyzer, labeled more than 80% of lymph node, spleen, and bone marrow cells and 10-20% of thymus cells. Cytofluorographic analysis performed on purified rat T cells, B cells, macrophages, and granulocytes demonstrated that the antigen defined by 1B3 was readily detectable on all of these cell types, with the greatest expression on B cells. A minor population of thymocytes that were labeled by 1B3 appeared to be cortisone-resistant and were located mainly in the thymic medulla. These 1B3 positive thymic cells seemed to be functionally more mature than 1B3-negativ e thymus cells as suggested by the fact that the cytotoxic treatment of thymus cells with 1B3 antibody and complement (C) resulted in significant reduction of their responsiveness to phytomitogens and lymphokines derived from concanavalin A (con A) activated rat spleen cell cultures. Immunochemical data showed that 1B3 antibody recognized the broad ill-defined band with a molecular weight of 32K to 47K daltons as estimated by SDS-polyacrylamide gel electrophoresis. These data indicate that the 1B3 defined antigen is distinct from other, previously reported, antigens on rat lymphoid cells including leukocyte-common (L-C) and MRC OX-22 antigens, and that this 1B3 antibody is a useful reagent for analyzing the intrathymic differentiation of T cells in rats.
Purification of the Thy-1 molecule, a major cell-surface glycoprotein of rat thymocytes
Biochemical Journal, 1975
The Thy-1-molecule, which was identified by its antigenic activities, has been purified from rat thymocytes. The purification involved preparation of crude membranes and solubilization in deoxycholate, followed by gel filtration and affinity chromatography on antibody or lectin columns. In all cases the purified molecule was a glycoprotein that did not form higher polymers and was not associated with other polypeptide chains. The Thy-1 glycoprotein could be found in two forms, one binding to lentil lectin, the other not. Both forms had the same detectable antigens and were of a similar but not identical size. After sodium dodecyl sulphate-polyacrylamide-gel electrophoresis the apparent molecular weight of Thy-1 binding to lentil lectin was 25 000, whereas that not binding to the lectin was 27 000, with heterogeneity towards forms of apparently higher molecular weight.
Rat bone marrow cells undergo thymopoiesis in mouse fetal thymic organ culture
European Journal of Immunology, 1990
We have developed an in vitro differentiation assay allowing the study of thymopoiesis from rat bone marow cells. In this assay, Wistar rat bone marrow cells repopulated fetal Swiss mouse thymic lobes depleted in endogeneous lymphoid cells by deoxyguanosine treatment. Due to the xenogeneic situation, repopulating rat cells from any hemopoietic lineage could be easily recognized by anti-rat monoclonal antibodies such as anti-Thy-1.1 that did not react with Swiss mouse thymocytes. After 15 days in vitro, 80% of the developing rat cells were Thy-l.l+ lymphoid cells and about 70% of the Thy-l.l+ cells expressed CD5, CD2 and leukosialin. The percentages of cells expressing pre-B cell, B cell and myeloid determinants were < 20%. The developing thymocytes comprised CD4-CD8-T cell receptor (TcR) alp-, CD4-CD8+TcR a/piow and CD4+CD8+TcR cells, indicating that the early stages of rat thymopoiesis occurred within mouse thymic lobes. Limiting dilution assays showed that 50% of positive assays were obtained with 3000 nucleated bone marrow cells, which is in good agreement with recent estimates derived from in vivo reconstitution after intrathymical transfer. Moreover the limiting dilution assays proved to be sensitive enough to evidence a tenfold enrichment of pre-T cell activity in the low-density fraction of rat bone marrow. This xenogeneic system might greatly facilitate studies on prethymic and intrathymic stages of rat T cell development and permit new in vitro approaches of the colonizing bone marrow Tcell precursor properties.
Clinical & Experimental Immunology
Human thymus and T cell antigens were identified by using four distinct monoclonal antibodies (MoAb), designated 2D5, 5B3, 7A5 and 9D4. 2D5 antibody reacted with most human thymocytes and a few peripheral lymphocytes as well as with a subpopulation (20%) of bone marrow cells, and precipitated a 45K molecular weight (mol. wt.) component from '251-labelled thymus cell lysate. 7A5 antibody also reacted with the majority (80%) of thymocytes but neither with peripheral lymphocytes nor with bone marrow cells. The antigen detected by 7A5 was a glycoprotein consisting of 48K and 12K mol. wt. components, which were non-covalently associated with each other. 5B3 reacted with virtually all of human thymus and T cells but not with the majority of B cells and bone marrow cells. This reagent precipitated a 72K mol. wt. glycoprotein from thymus and T cells. An additional 65K mol. wt. glycoprotein was precipitated by 5B3 together with the 72K mol. wt. component, but with poor reproducibility. 9D4 antibody, on the other hand, reacted with a 200K mol. wt. component from thymus and T cells as well as 220K and 210K components from the non-T cell fraction of tonsil lymphocytes. Whereas antigens detected by 2D5 and 7A5 appeared to be highly expressed on cortical thymocytes, the antigen defined by 5B3 occurred much more abundantly on medullary thymocytes and peripheral T cells than on cortical thymocytes. Based on the data described above, it is suggested that 7A5, 5B3 and 9D4 MoAb recognize human homologues of mouse TL, Ly-1 and Ly-5 antigens, respectively, whereas 2D5 antibody seems to resemble OKT10, as described by others.