Two surface antigens expressed on proliferating mouse T lymphocytes defined by rat monoclonal antibodies

A hybrid cell line resulting from the fusion of a Con A-activated normal mouse spleen cell and a transformed mouse T cell (EL-4BU) has been used to prepare and select rat monoclonal antibodies reactive with molecules expressed on the surface of proliferating, as opposed to resting, mouse T cells. In this report, the characterization of two such antigens identified in this way is described. One antigen is a membrane component common to mitogen-activated T and B cells, some bone marrow cells, and various transformed cell lines but is not detectable on either normal thymocytes or the majority of spleen cells by radioimmunoassay or FACS analysis. It has a m.w. of approximately 200,000 daltons under nonreducing conditions and 100,000 daltons under reducing conditions. Antibodies to this antigen precipitate cell-bound transferrin but do not react directly with transferrin itself. It would thus appear that the antigen is the transferrin receptor molecule. The second antigen is not detectable on normal thymocytes, spleen cells, bone marrow cells, or mitogen-stimulated spleen cells but is expressed at high levels on some transformed T cell lines. It, too, appears to be a dimer, with a m.w. of 95,000 daltons under nonreducing conditions, decreasing to 50,000 daltons under reducing conditions. Although the function of the 95,000-dalton antigen is not yet known, its lack of expression on adult T cell populations both before and after activation suggests either a short-lived role at a very early stage of T cell development and/or an association with T cell transformation.     

5C6-F4, a novel 100,000-dalton rat lymphocyte activation antigen defined by monoclonal antibody

Con A-activated rat thymocytes were used to immunize mice, and immune spleen cells were fused with NS/1 myeloma cells. One clone, designated 5C6-F4, reacted strongly with Con A-activated rat thymocytes and some LPS-activated rat spleen cells but not with normal thymocytes, spleen cells, or bone marrow cells of rat origin. The 5C6-F4 did not react with Con A-activated thymocytes of mouse origin. Immunoprecipitation of 5C6-F4 antigen from surface-iodinated Con A-activated rat thymocytes or LPS-activated rat spleen cells revealed its m.w. to be approximately 100,000. The kinetic studies of the expression of 5C6-F4 antigen revealed that 5C6-F4 antigen was detectable at 6 hr after Con A stimulation of rat spleen cells, whereas IL 2 receptor (IL 2R) was detectable at 12 hr. The appearance of 5C6-F4 antigen and IL 2R precede the onset of DNA synthesis of Con A-activated spleen cells. Thus, 5C6-F4 antigen is classified as early activation antigen. The 5C6-F4 inhibits the lymphocyte proliferation induced by mitogen and the IL 2-driven rat T cell proliferation. Sequential immunoprecipitation study as well as binding inhibition study indicated that the 5C6-F4 antigen is distinct from IL 2R molecule. The 5C6-F4 antigen appears to be a novel rat lymphocyte activation antigen that exhibits immunoregulatory function and also may serve as a useful marker of T cell activation.     

A common differentiation antigen on plaque forming cells and a subpopulation of thymus cells in mice and rats.

A non species specific lymphocyte differentiation antigen is described which can be detected on plaque forming cells and a small fraction of thymocytes of mice and rats. The antigen is absent from a BALB/c plasma cell tumor and is not detectable on Dexamethasone-resistant thymocytes. On the basis of its occurrence the term TPCA (thymus plasma cell antigen) is proposed for the antigen. A monospecific anti TPCA serum could be prepared which enables the detection of the antigen on about 10% of rat thymocytes.     

Production of H-Y antibody in the ascites fluid of mouse and localization of the antigen on cells and tissues

A procedure is described for the production of large amounts of ascites fluid containing specific H-Y antibody. The distribution of H-Y antigen on mouse epididymal spermatozoa, thymocytes, and splenocytes was carried out using this specific antibody in the microcytotoxicity test and ELISA. Employing the indirect immunofluorescent technique, the H-Y antigen was localized on the acrosomal membrane of mouse epididymal and washed ejaculated human spermatozoa and on the entire membrane of mouse splenocytes and thymocytes. Immunohistochemical localization of the antigen in the testicular section indicated its presence in the cytoplasm of Leydig cells and on the membrane of Sertoli cells and sperm heads.     

A new mouse lymphoid alloantigen (Lgp100) recognized by a monoclonal rat antibody

A new genetically polymorphic cell surface antigen recognized by a monoclonal rat anti-mouse antibody is expressed on mouse lymphoid cells. Fluorescence analysis on the fluorescence-activated cell sorter (FACS) locates the antigen on thymocytes, lymph node cells, and both T and B cells in the spleen. It also appears on approximately 40% of cells in the bone marrow.Immune precipitations from surface iodinated spleen cells followed by 2-D gel electrophoresis demonstrate that the antigen is a glycoprotein of approximately 100,000 daltons. Since it is expressed in all lymphoid tissues and on both T and B cells, we designate it lymphoid glycoprotein 100 (Lgp100).Strains with Lgp100 include A/J, AKR/J, AKR/Cu, BALB/c, 129/J, CBA/N, C3H/HeJ, CBA/2J, and SJL/J. Strains with no detectable antigen include C57BL/6J, C57BL/10J, C57BR/cdJ, C57L/J, and C58/J. Intercrosses and backcrosses establish a pair of alleles, a positive and a negative one, at a single locus. Heterozygotes display about 50% as much antigen as homozygotes by quantitative membrane immunofluorescence on the FACS. Tests for Lgp100 in 35 recombinant inbred strains from three crosses (CXB, BXB, and BXH) locate this locus on chromosome 1, closely linked to theMls locus.     

Membrane molecules in induction of apoptosis of thymocytes by mouse thymic dendritic cells which express Fas ligands

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Identification of a macrophage-specific cell surface antigen.

A mouse-specific macrophage antigen (MSMA) was identified in NP-40 extracts of 125I-radiolabeled mouse preitoneal macrophages by using a rabbit anti-mouse macrophage serum (AMS) and SDS-polyacrylamide gel electrophoresis. The antigen was shown to have a m.w. of 83,000 daltons and was present on both normal and "activated" peritoneal macrophages. MSMA was also present on syngeneic adherent spleen cells, allogeneic peritoneal macrophages, a mouse macrophage cell line (P388D1), and exhibited some cross-reactivity with peritoneal macrophages from closely related species (rats and hamsters). MSMA was not present on nonadherent peritoneal exudate cells, spleen cells, erythrocytes, thymocytes, or bone marrow cells. Extensive absorptions of AMS with thymocytes and erytrocytes from mice were necessary to remove other antibodies that reacted with other mouse membrane antigens. An antiserum directed against a specific membrane antigen has great potential in elucidating structure-function relationships with regard to a number of macrophage activities.     

Studies of the immunological capacity of germ-free mouse radiation chimeras. II. Thymus cell function in a humoral immune response to sheep erythrocytes

Experiments described here were undertaken to determine the reason for the depressed humoral immune response in germ-free mouse allogeneic radiation chimeras. Indirect immunofluorescence using the theta (θ) antigen as a marker demonstrated that about 10% of the nucleated cells in the spleen of both allogeneic and syngeneic chimeras bear the θ antigen. One type of in vivo cell transfer assay employed to determine the capacity for “helper” function of thymocytes revealed that allogeneic chimera thymocytes were only 7–18% as efficient in “helper” function as normal thymocytes. A second type of in vivo cell transfer assay demonstrated that the presence of intact normal thymic stroma had no effect on the “helper” inefficiency of thymocytes obtained from allogeneic radiation chimeras.     

Characterization of a monoclonal antibody to guinea pig T cells that inhibits rosette formation of the cells with rabbit erythrocytes: similarity of the antigen to E-receptor on human T cells

A monoclonal antibody, GPT-1, was prepared by fusion of the splenic cells of mice immunized with guinea pig thymocytes with a mouse myeloma cell line. GPT-1 completely inhibited spontaneous rosette formation of T cells with papain-treated rabbit erythrocytes. GPT-1 reacted with 90% of thymocytes, 70% of peripheral blood lymphocytes, and 45% of splenic lymphocytes, but not with B cells. These results indicate that GPT-1 has pan-T reactivity. The antibody specifically bound to a single polypeptide chain with a molecular size of 50-65 kD. The surface density of the antigen was higher on thymocytes than on peripheral T cells, suggesting that the antigen is a certain differentiation antigen on T cells. Phytohemagglutinin-activated T cells expressed more antigen molecules than resting T cells. In addition, GPT-1 suppressed the proliferation of T cells induced by the mitogen, indicating that GPT-1 recognizes a T cell-specific surface antigen which is associated with T cell activation. Based on these results, it was concluded that GPT-1 reacts with a guinea pig T cell surface antigen which is similar to the E-receptor protein on human T cells (CD2 molecule).     

Recognition of sodium- and potassium-dependent adenosine triphosphatase on mouse lymphoid cells by means of a monoclonal antibody

Summary Previous evidence has established the similarity between (Na⁺+K⁺)-ATPase (ATP phosphohydrolase, EC.3.6.1.3) and the antigen recognized by the rat antimouse monoclonal antibody anti-BSP-3. This antibody has been used for investigation of the surface expression and biochemical analysis of the enzyme in different mouse lymphoid populations. The BSP-3 determinant is found on almost all thymocytes and concanavalin A-induced thymocytes, to a lesser extent on bone marrow cells and also on a minor population of spleen cells. Spleen cells from athymic mice are negative. The (Na⁺+ K⁺)-ATPase purified from mouse thymus by affinity chromatography migrates in SDS-polyacrylamide gels in the form of two polypeptide chains of 105000 and 51000 daltons. Chains of the same molecular weight, fractionated on SDS-PAGE from microsomes of mouse thymuses, are shown to react with subunit-specific polyclonal antisera against ATPase in immunoblotting experiments. Immunoprecipitation with anti-BSP-3 from surface iodinated thymocytes yields only the small subunit. Comparison of the chains isolated from thymus and brain shows molecular weight differences in both subunits. These results, and variations in the reactivity pattern of the anti-BSP-3 antibody on several cell types, may indicate a possible heterogeneity of the (Na⁺+K⁺)ATPase expressed by various tissues and cells.     

Serological characterization of a nervous system/sperm antigen (NS-52): demonstration of its presence on murine preimplantation embryos.

Anti-NS-5 antiserum raised in C3H.SW/Sn mice against cerebellum of 4-day-old C57BL/6J mice could be shown to recognize two cell surface antigens on cerebellar cells, NS-5₁ and NS-5₂, the latter antigen being shared with mouse and rat but not rabbit sperm. An antigen operationally identical to NS-5₂ was detected using indirect immunofluorescence staining on mouse preimplantation stages of development. While the unfertilized ova did not express detectable antigen on the cell surface, the fertilized egg expressed antigen shortly before the first cleavage division. From that stage onward, the anti-NS-5 antiserum stained the blastomeres of all stages, including the trophoblast cells and inner cell mass cells of the blastocyst. No difference in staining activity was observed for preimplantation embryos of various mouse strains analyzed: C57BL/6J, BALB/c, 129/J, C3H/DiSn, CKB × BALB.K, C3H.SW/Sn, and Swiss Webster mice. The staining activity was removed when the antiserum was preabsorbed with cerebellum or sperm from any of these mouse strains or with cerebellum and sperm of rats. Lymphocytes, thymocytes, liver, kidney, and skeletal muscle from early postnatal and adult mice and heart from early postnatal mice did not absorb the staining activity and neither did rabbit sperm nor cerebellum.     

Immature, double negative (CD4-,CD8-) rat thymocytes do not express IL-2 receptors

IL-2R alpha-chain is expressed on a subset of mouse CD4- and CD8-, double negative (DN) thymocytes. This expression of IL-2R alpha-chain on some DN thymocytes in the mouse has led to the proposal that IL-2 might serve as a principal growth and/or differentiation factor for immature thymocytes. However, previous histologic observations have indicated that IL-2R alpha-chain is not expressed on the subcapsular thymic blasts (an area rich in DN cells) in either huma or rat thymus, whereas all three species display IL-2R expression on a few cells in the thymic medulla. Therefore, we characterized rat DN thymocytes to determine whether they contained an IL-2R+ population. The results show that rat thymic DN cells share several characteristics with mouse DN cells. However, most of the rat strains do not express the IL-2R on DN cells as shown either by immunofluorescence or by IL-2 binding and receptor cross-linking. Thus, the rare medullary IL-2R+ cells were not found in the DN cells. Only in the exceptional F344 rat strain is the IL-2R alpha-chain expressed on a major proportion of thymocytes, including both DN cells and small cortical-type thymocytes. Furthermore, rat DN cells do not contain detectable IL-2 mRNA or cytoplasmic IL-2 activity, thus supporting the conclusion that it is unlikely that IL-2 and IL-2R serve to maintain the proliferation of rat DN thymocytes in vivo. The possible significance of in vivo expression of IL-2R alpha-chain on immature thymocytes in the mouse and in a single rat strain is discussed.     

Characteristics of a spontaneous monoclonal thymocytotoxic antibody from New Zealand Black mice: recognition of a specific NTA determinant

Naturally occurring thymocytotoxic autoantibodies (NTA) have been described both in humans and in mice with SLE, and have been reported to be preferentially reactive with T suppressor as compared to T helper cells. However, although NTA has been shown by some groups of investigators to induce autoantibodies in normal strains of mice, other researchers have suggested that NTA has only a minor, if any, role in murine lupus. We have been studying the characteristics of a monoclonal antibody (TC-17) derived from the fusion of 4-mo-old NZB spleen cells with P3-X63-AG8.653 plasmacytoma cells. This monoclonal IgM reagent is cytotoxic for approximately 40% of total thymocytes, 50% of cortical thymocytes, less than 1% of cortisol-resistant thymocytes, 10% of splenocytes and lymph node cells, and less than 3% of bone marrow and fetal liver cells. The thymocytotoxicity can be absorbed by thymocytes but not by brain cells. Although NZB, NZW, NFS, and BALB/c thymocytes all manifest reactivity with TC-17, there was considerable difference between strains with respect to antigen density; NZB thymocytes have the highest density. By FACS analysis, TC-17 occurs independently of Lyt-1, Lyt-2, and T helper cell-specific antigens, and is more prevalent on larger proliferating thymocytes. TC-17 augments the response to SRBC but does not influence responses to TI-1 (TNP-BA) or TI-2 (DNP-Ficoll) antigen and production of LPS-induced B cell colonies. We believe that TC-17 recognizes a new T cell antigen, probably one involved in T cell differentiation. Because this monoclonal NTA reacts with only 40% of thymocytes, and is not absorbed with brain, it would not have been detected in mouse sera by using previously published methods. NTA are a heterogeneous group of autoantibodies; some specificities such as TC-17 went unrecognized in the past, and may be important either for disease pathogenesis or for secondary immunologic abnormalities.     

Enhancement of cell-cell contact by a nonmitogenic lectin increases blastogenic response and IL-2 release by mitogen-stimulated mouse thymocytes

We have examined the influence of peanut agglutinin (PNA), a lectin which agglutinates but does not stimulate mouse thymocytes, on the responsiveness of these cells to concanavalin A (Con A) or galactose oxidase stimulation. Binding low amounts of PNA on unseparated mouse thymocytes pretreated with neuraminidase highly enhances the mitogenic response and the level of interleukin 2 release in the culture medium upon Con A stimulation. We have shown that PNA present on the cell surface acts as a crosslinking agent which favors intercellular binding between accessory cells (macrophages) and thymocytes, leading through this enhanced cooperation by cell-cell contact to an enhanced blastogenic response.     

Expression of T cell antigen receptor beta-chains on subsets of mouse thymocytes. Analysis by three-color flow cytometry

The expression on adult mouse thymocytes of a T cell antigen receptor beta-chain epitope, recognized by the antibody F23.1, has been studied by three-color flow cytometry. Low density F23.1 staining was found mainly on CD4+8+ thymocytes. High density staining was mainly on CD4+8- and CD4-8+ cells. Variable proportions of CD4-8- cells were also F23.1+. Among CD4-8+ cells, F23.1 was expressed only on the J11d- subset with mature T cell function. We conclude that many subpopulations of thymocytes express antigen receptors and are candidates for the population subject to thymic selection, but at present no single subpopulation makes a convincing claim.     

Detection of thymic surface antigens and radioactive labeling of mouse lymphoid cells.

A method for the permanent and simultaneous detection of tissue-specific surface antigens and internal radioactive labeling of mouse lymphoid cells is described. Target cells were first reacted with a mouse-derived "antithymocyte serum", incubated with peroxidase-conjugated rabbit serum against mouse immunoglobulins and placed in a substrate solution that leads to staining of the antigen-positive cells. Radioactive labeling was demonstrated by autoradiography performed after the antigen assay. More than 90% of antigen-positive thymocytes could be specifically stained in the assay without staining of similarly treated antigen-negative cells. Autoradiographic grains could be detected over both antigen-positive and antigen-negative cells.     

Novel cell surface antigens expressed on mouse alveolar macrophages.

Two new cell surface antigens expressed on mouse alveolar macrophages were defined by rat monoclonal antibodies. One marker, AVM-1, was detected on mouse alveolar macrophages, but it was undetectable on resident peritoneal cells, thioglycollate medium-induced peritoneal cells, and splenic macrophages. Splenic lymphocytes, thymocytes and bone marrow cells were also AVM-1 negative. Anti-AVM-1 monoclonal antibody immunoprecipitated a single polypeptide with a molecular weight of 200,000. Of particular interest was the finding that the anti-AVM-1 antibody could inhibit the formation of EA and EAC rosette on macrophage line cells. A second antigen (AVM-2) was also present on alveolar macrophages, and its molecular weight was 38,000.     

Ability of nonpermissive mouse cells to express a simian virus 40 late function(s)

Mouse cells are fully nonpermissive for simian virus 40 (SV40). Infection does not lead to detectable virus replication. In this report, it was shown, first, that spliced 16S and 19S SV40 late mRNA were present in cytoplasmic and polysomal polyadenylated acid+ RNA preparations from SV40-infected baby mouse kidney cells. The 16S and 19S SV40 late mRNA's produced in infected baby mouse kidney cells were identical to or similar to the 16S and 19S SV40 late mRNA's produced in permissive monkey cells as judged by their S1 mapping patterns performed with the late strand of HpaII-BamHI fragment B and by their sedimentation patterns in a sucrose gradient. It was also shown that the 16S late mRNA from infected baby mouse kidney cells could be translated into a polypeptide which was identical to or similar to virion protein VP1 in every aspect examined, including the patter of peptide mapping by limited proteolysis. Second, we reported that mouse kidney cells produced detectable, although low, levels of SV40 virion protein VP1, as shown by the sodium dodecyl sulfate-polyacrylamide gel autoradiogram of [35S]methionine-labeled proteins immunoprecipitated by a rabbit antiserum directed against SV40 virion proteins. Third, it was reported that infected baby mouse kidney cells produced late mRNA's either (i) when the infection was done at a restrictive temperature with the nonleaky tsA58 mutant or (ii) in cells treated with 100 microgram of cycloheximide per ml, in which large T antigen synthesis was inhibited by more than 99.9%. This suggested that large T antigen was not required for the synthesis of late mRNA in mouse cells.     

Recognition of Bergmann glial and ependymal cells in the mouse nervous system by monoclonal antibody

A monoclonal antibody designated anti-Cl was obtained from a hybridoma clone isolated from a fusion of NS1 myeloma with spleen cells from BALB/c mice injected with homogenate of white matter from bovine corpus callosum. In the adult mouse neuroectoderm, C1 antigen is detectable by indirect immunohistology in the processes of Bergmann glial cells (also called Golgi epithelial cells) in the cerebellum and of Muller cells in the retina, whereas other astrocytes that express glial fibrillary acidic protein in these brain areas are negative for C1. In addition, C1 antigen is expressed in most, if not all, ependymal cells and in large blood vessels, but not capillaries. In the developing, early postnatal cerebellum, C1 antigen is not confined to Bergmann glial and ependymal cells but is additionally present in astrocytes of presumptive white matter and Purkinje cell layer. In the embryonic neuroectoderm, C1 antigen is already expressed at day 10, the earliest stage tested so far. The antigen is distinguished in radially oriented structures in telencephalon, pons, pituitary anlage, and retina. Ventricular cells are not labeled by C1 antibody at this stage. C1 antigen is not detectable in astrocytes of adult or nearly adult cerebella from the neurological mutant mice staggerer, reeler, and weaver, but is present in ependymal cells and large blood vessels. C1 antigen is expressed not only in the intact animal but also in cultured cerebellar astrocytes and fibroblastlike cells. It is localized intracellularly.