Comparative reactivity of anti-Ia monoclonal antibodies in man and laboratory animals

Sixteen murine monoclonal antibodies (MAb), reactive with HLA-DR, DR + DP or DR + DQ, were tested, using indirect immunocytofluorescence, for their reactivity with peripheral blood mononuclear cells (PBMC) from the dog, cat, guinea pig, sheep, rabbit and rat. In addition, the MAb were evaluated for inhibitory activity in the canine mixed lymphocyte culture (MLC). Fourteen of 16 MAb reacted with canine PBMC. There was a greater tendency for DR + DP reactive MAb to inhibit canine MLC and subsequently react with PBMC of the guinea pig, sheep, and, cat. MAb failing to block the canine MLC were generally nonreactive with guinea pig PBMC (7 of 9 nonreactive) suggesting the guinea pig may be a useful model to study the functional relevance of specific Ia molecules. One MAb, H81.98.21 (reactive with HLA-DR) blocked canine MLC and reacted with PBMC from all species tested suggesting the determinant it recognized to be very well conserved in nature.     

Characterization of two epitopes on insulin using monoclonal antibodies

Three monoclonal antibodies (MAb), 21 (IgG1), I10 (IgG1) and H38 (IgG2b), to insulin have been tested for cross-reactivity with 11 species variants of insulin and three of proinsulin. Correlations of differences of reactivities between the MAb and the species variants of insulin with the respective amino acid sequences of the latter have permitted the identification of two epitopes recognized by the MAb which encompass the regions in the A- and B-chains of insulin subject to frequent evolutionary amino acid substitutions. MAb 21 and H38 are directed to an epitope which includes residues B27-30 and A1 or A4 and can discriminate between human and pig insulins which differ only at B30. MAb 21 reacts with human (B30 thr) but not with pig (B30 ala) insulins, whereas MAb H38 exhibits a reciprocal specificity. Neither MAb 21 nor MAb H38 react with human or pig proinsulins respectively indicating that the presence of the C-peptide joining A1 to B30 masks the epitope. MAb 21 reacts with human insulin 125I-labeled at tyr A14 but not B26 suggesting that incorporation of the I atom at B26 also masks the epitope. MAb I10 is directed to an epitope which includes A8-10 and A4 or B3 with a specificity for the human A8-10 sequence. MAb I10 reacts with human proinsulin and human insulin 125I-labeled at either tyr A14 or B26.     

Fc receptors on rabbit lymphocytes. Identification and organ distribution of rosette-forming cells; cocapping with surface immunoglobulin

Fc receptor (FcR)-bearing cells were demonstrated using ox erythrocytes coated with homologous IgG-type antibodies (EAY) in rabbit peripheral blood leukocytes (PBL) and in various lymphoid organs. Discrimination of the rosette-forming cells (RFC) is carried out after prior ingestion of tetramethylrhodamine isothiocyanate-labeled latex particles and in transmission electron microscopic studies. Most of the nonlymphoid cells (5-10%) in PBL and spleen cell suspensions expose FcR. These nonlymphoid cells are almost absent in other lymphoid organs, except in bone marrow. The average percentage of cells rosetting with IgG-sensitized erythrocytes (EAγRFC) in lymphoid cell preparations of the various tissues was as follows: PBL 25%, bone marrow 65%, appendix 37%, spleen 40%, Peyer's patches 44%, thymus 2% and peripheral lymph node 27%. The nature of FcR-bearing PBL was further studied using F(ab′)₂ anti-IgM, anti-IgA or anti-T cell conjugates. About half of the population of B cells, bearing IgM or IgA, express FcR. Moreover, about 80% of the RFC are found within the B cell population. Only a few T cells were found rosetting with EAγ suggesting that most of the non-B lymphoid RFC are “null” cells. In different lymphoid organs, the percentages of EAγRFC and B cells are comparable but not identical. A greater part of the EAγRFC also expresses the receptor for the third component of complement. After capping of membrane IgM determinants, FcR is located in the same cap on the majority (60%) of the FcR-positive IgM-capped cells.     

Monoclonal antibodies to rabbit lymphoid cells: Preparation and characterization of a T-cell-specific antibody

Spleen cells of mice immunized with rabbit spleen and mesenteric lymph node (MLN) cells were fused with mutant mouse myeloma cells. Twenty-six clones which react with rabbit lymphoid cells were obtained. By membrane immunofluorescence, as analysed visually and by the fluorescence-activated cell sorter, one of these clones, 9AE10, produced an antibody that reacted with nearly all thymocytes (> 90%) and with from 46 to 78% of spleen, MLN and peripheral blood lymphocytes. Double-membrane immunofluorescence with the 9AE10 monoclonal antibody (MAb) and anti-Ig showed that 9AE10⁺ and Ig⁺ cells of spleen, MLN and peripheral blood were distinct and non-overlapping populations. Thus, the 9AE10 MAb is a T-cell-specific antibody.The 9AE10 MAb also reacted with most brain cells and with approximately 30% of bone marrow cells. Biochemical analysis of the antigen recognized by the 9AE10 MAb indicated that the antigen is a glycoprotein with an apparent molecular weight of 25,000. These data indicate that the 9AE10 MAb may be directed against a Thy-1-like antigen.     

Two monoclonal antibodies identifying a subset of human peripheral mononuclear cells with natural killer cell activity

Two monoclonal antibodies (H25 and H366) raised against the cultured T lymphoid cell line HSB-2 were shown to define a subset of peripheral mononuclear cells with natural killer and killer cell activity. The two antibodies show similar tissue distributions. Radioimmune trace binding assay shows that H25 and H366 react with all T cell lines tested and with the monocyte line U937, but weakly or not at all with cell lines of B, myeloid or erythroid origin. Both antibodies react with about 10% of E rosette-forming cells and a proportion of nonrosetting lymphocytes and monocytes. They do not react with B lymphocytes, granulocytes, red cells or platelets. A proportion of thymocytes and low numbers of tonsil and spleen mononuclear cells are positive. H25+ and H366+ lymphocytes are medium-sized cells with abundant granular cytoplasm, and most carry Fc receptors for IgG. H25 and H366 immunoprecipitate two polypeptide chains of 96 and 53kDa from surface-labeled HSB-2 cells.     

Monoclonal mouse anti-I-Ak and anti-I-Ek antibodies cross-reacting with HLA-DR supertypic and subtypic determinants rather than classical DR allelic specificities

Thirty monoclonal alloantibodies (mAB) against mouse Iak antigens have been derived by fusion of mouse myeloma and spleen cells from A.TH (Ks Is Dd) mice immune to A.TL (Ks Ik Dd) lymphoid cells. Analysis of: (i) their reactivity (using 125I labelled protein A cell binding or cytotoxicity assays) on lymphoid cells from selected mouse strains with recombinant H-2 haplotypes; and (ii) the spatial arrangement of the specificities detected on the Iak molecules (studied by means of competitive inhibition of binding of radio-labelled monoclonal antibodies), permitted the identification of various epitopes present either on the I-Ak molecules (some of which were apparently identical to the conventional Ia.2, Ia.1 and Ia.19 specificities), or the I-Ek molecule (some being apparently analogous to the Ia.7 specificity) or on both I-Ak and I-Ek products. These mAB were tested in two different panels of human T and B lymphocytes. Panel (a) consisted of 28 Caucasian unrelated individuals, highly selected with regard to HLA-DR specificities, while panel (b) concerned 53 random HLA-A, B, C, DR typed individuals. The standard complement dependent lymphocytotoxicity microtechnique of histocompatibility workshop VIII was used throughout. All mAB were negative on resting T cells. Testing on B cells produced three patterns: 1) ten mAB did not react with any B cell tested; 2) four mAb reacted with all the panel cells; 3) sixteen mAb reacted with different sets of the panel indicating identification of polymorphic determinants. However, the strength of positivity obtained with a majority of single mAb varied considerably in the panel, suggesting identification of cross-reactive determinants. This necessitated the use of individual assignment criteria for each mAb. Following this procedure, 8 mAb were ascertained as reacting with HLA-DR supertypic determinants, 6 with associations to MT1, MT2, or both. Eight mAb reacted with HLA-DR subtypic determinants (more restricted than a classical DR allele). No mAb were ascertained, reacting exquisitely with acknowledged HLA-DR allelic specificities.     

B lymphocyte differentiation in the rat: production and characterization of monoclonal antibodies to B lineage-associated antigens

Three mouse monoclonal antibodies (mAb) directed against rat B lineage antigens were produced. The mAb, designated HIS14 (IgG1), HIS22 (IgM) and HIS24 (IgG2b), were characterized for binding to lymphoid and nonlymphoid tissues by immunoperoxidase staining of frozen sections and by (double-) immunofluorescence staining of single cell suspensions from lymphoid organs. HIS14 recognized a pan B cell determinant: it reacted with virtually all cells of each anatomic B cell compartment and with about 95% of surface (s)Ig+ cells in thoracic duct lymph and in suspensions of spleen and lymph nodes. HIS22 and HIS24 detected B lineage-associated antigens expressed by major subpopulations of B cells. HIS22 predominantly stained the lymphocyte corona, but not (or weakly) the germinal centers and splenic marginal zones, whereas HIS24 reacted with both corona and germinal center and not (or weakly) with marginal zone. In accordance with this, substantial proportions of sIg+ cells in spleen cell suspensions did not express HIS22 or HIS24 determinants (20% and 27%, respectively). In bone marrow the vast majority of cytomplasmic mu+ pre-B cells were HIS14+ and HIS24+, and up to one third also HIS22+, indicating an appearance of the determinants early in B lymphocytopoiesis. The antigens recognized by HIS14, HIS22 and HIS24 are lost during the final stage of B cell differentiation: none of the mAb bound to plasma cells. As far as detectable, neither cells of myeloid and erythroid lineages in bone marrow nor thymocytes were stained by HIS14, HIS22, or HIS24. In suspensions of peripheral lymphoid organs (spleen and lymph nodes) but not in thoracic duct lymph, HIS14 and HIS24 labeled a small proportion (12% and 14%, respectively) of Ig- cells. HIS22 did not bind to Ig- peripheral lymphocytes. Reactivity of HIS14, HIS22 and HIS24 with nonlymphoid tissues was virtually absent; HIS22 stained the high endothelial venules in lymph nodes and Peyer's patches. As determined by immunoblotting, the antigenic determinants on lymph node cells recognized by HIS14, HIS22 and HIS24 were present on molecules with an apparent molecular mass of 205 kDa, 210 (and 175) kDa and 205 kDa, respectively, which is similar to the molecular mass of the B cell form of the rat leukocyte common antigen. In addition, the antigens recognized by HIS14, HIS22 and HIS24 co-capped with the leukocyte common antigen. This suggests that each of the three mAb recognize determinants present on the B cell form of the leukocyte common antigen.     

Characterization of a monoclonal antibody recognizing a polymorphic epitope mainly on HLA-DPw2 and DPw4 molecules

A monoclonal antibody (MAb), 13.3.B4, was obtained from a murine hybridoma after fusing Sp2/0 myeloma cells with spleen cells from C3H mice immunized with mouse L cells transfected with the A1 and B1 genes of HLA-DPw4. In radiobinding-assays, MAb 13.3.B4 bound to HLA transfectants expressing DPw2 or DPw4 as well as DPw2 or DPw4 homozygous B-cell lines, while most cell lines expressing other DP determinants were negative. MAbs with known DP or other HLA class II-specificities were used to inhibit binding of MAb 13.3.B4 in a radioimmunoassay. Three MAbs demonstrated inhibition, but their pattern of reactivity with HLA homozygous B cell lines differed from that of MAb 13.3.B4. An evaluation of DNA sequence data showed that MAb 13.3.B4 reacts with all cell lines expressing DP beta-chains of type 2.1, 2.2, 4.1 or 4.2. No correlation between 13.3.B4-reactivity and expression of DP alpha-chain variants was found. The results indicate that MAb 13.3.B4 defines a polymorphic epitope which may be determined by the sequence gly-gly-pro-met at residues 84-87 of the DP beta-chain.     

3AE8: monoclonal antibody defining inflammatory macrophages in three species

A mouse monoclonal antibody (MAb 3AE8) of the IgG1 isotype was prepared against rabbit splenocytes and was found by indirect immunofluorescence and direct binding assays to react, in the rabbit, primarily with oil-induced peritoneal exudate macrophages (PEM phi). This MAb did not bind to rabbit T cells, B cells, polymorphonuclear leukocytes, or resident alveolar or peritoneal M phi but it did bind to a subpopulation of rabbit splenocytes with surface characteristics of null cells. The antibody also recognized mouse and rat PEM phi as well as the murine M phi cell lines P388D1 and IC-21. Consistent with findings in the rabbit, it did not bind to M phi obtained from the peritoneal cavities of rats or mice. The addition of MAb 3AE8 to mouse PEM phi caused a marked enhancement in the phagocytic uptake of erythrocyte target cells sensitized with a mouse antierythrocyte antiserum.     

Monoclonal antibodies specific for rat IgG1, IgG2a, and IgG2b subclasses, and kappa chain monotypic and allotypic determinants: reagents for use with rat monoclonal antibodies

Mouse monoclonal antibodies to rat IgG were obtained by fusion of immune SJL mouse spleen cells to NSI myeloma cells. Seven monoclonal antibodies have been labeled with 125I and studied as to specificity and avidity by using a panel of rat monoclonal antibodies both as inhibitors and target antigens in soft well plate and indirect cell binding assays. All MAb were selected for high avidity of 4 X 10(7) to greater than or equal to 2 X 10(9) M-1. Four MAb were subclass-specific. RG11/39, RG7/1, and RG7/11 were absolutely specific for the Fc' region of IgG1, IgG2a, and IgG2b, respectively. RG9/6 showed specificity for the Fab' region of IgG2a but crossreacted with lower avidity with IgG2c. Three MAb reacted with rat kappa chains. RG7/9 defined a monotypic (common) kappa chain determinant. RG11/15 and RG7/7 were specific for allelic kappa 1a and kappa 1b determinants, respectively. The monotypic and kappa 1a allotypic determinants are topographically separated. The antibodies can be used as screening reagents in indirect cell binding assays. They have sensitivity similar to affinity-purified rabbit anti-rat IgG and more defined specificity. They do not crossreact with mouse or human IgG, making them particularly suitable companion reagents for rat anti-mouse or anti-human MAb. One Mab, RG7/7, strongly crossreacts with Syrian hamster IgG.     

Reticular crypt epithelium and intra-epithelial lymphoid cells in the hyperplastic human palatine tonsil: An immunohistochemical analysis

Extensive immunohistochemical analyses of the hyperplastic human palatine tonsil disclosed variegated B cell phenotypes on the lymphoid cells among the crypt epithelium. The reticular epithelial network was evident by cytokeratin immunostaining. The reticular epithelium near the crypt Iumen was positive for Iysozyme. Secretory component was negative, while HLA-DR was frequently expressed. Intramucosal small Iymphocytes, densely distributed in the Iuminal side, consisted mainly of B cells expressing CD19, CD20, CD21, CD22, CD45R, CD74, DBB42, HLA-DR, HLA-DQ, bcl-2 protein and surface lgM. Some B cells revealed mantle zone phenotypes (surface IgD+, CD5+, CD24+, DBA44+, CD10^--, DNA7^--). Cells of germinocyte phenotype (CD10+, DNA7+) were sparsely seen. A good number of intramucosal lymphoid cells were further labeled for CD11b, a phenotype of so-called B-1 cells. Plasma cells were clustered within the basal half. IgG was their major immunoglobulin class, followed by IgA, IgM and lgD classes. A smaller number of T cells (CD2+, CD3+, CD5+, CD45RO+, TCR αβ+) were identified among the epithelium. CD4+ cells predominated over CD8+ cells. TCR γΔ + cells were rare. Macrophages (CD68+), dendritic histio-cytes (S-100 protein+, CD1+), and natural killer cells (CD16+ or CD57+) were also dispersed. Another unique feature of this lymphoepithelial complex was the existence of HLA-DR intramucosal microvasculature, where lymphocyte recirculation was suggested. Proliferating cell nuclear antigen was detected commonly in the epithelial cells but rarely in the lymphoid cells. Possible lymphoepithelial interactions and morphologic similarities to the thymic medulla are discussed.     

Allo-cross-reactivity of a human neuraminidase-specific T cell clone dependent on presentation of an endogenous B cell-specific antigen.

T cells specific for foreign antigen recognize a complex of peptides and self-major histocompatibility complex (MHC) molecules and can also cross-react with allo-MHC molecules. It remains controversial, however, what alloreactive T cells exactly recognize. It has been proposed that alloreactive T cells recognize endogenous peptides presented by allo-MHC molecules. To test this hypothesis, we examined an influenza virus-specific T cell clone (6H5), specific for neuraminidase N2 and restricted by HLA-DR1. In the absence of influenza virus, this clone cross-reacted with HLA-DR1Dw1+ but not with HLA-DR1Dw20+ Epstein-Barr virus-transformed lymphoblastoid cells (B-LCL). Cold target inhibition experiments and the rearrangement pattern of the T cell receptor beta chain indicated that 6H5 was a monoclonal T cell population most likely using the same T cell receptor for both responses. To determine whether determinants other than HLA-DR1Dw1+ B-LCL or activated B cells, but, surprisingly, not to other cell types expressed HLA-DR1Dw1, including monocytes and transfected L cells. These experiments further support the concept that recognition of allogeneic MHC (in this case HLA-DR1Dw1) may result from a cross-reactivity of T cells specific for a complex of foreign antigen and self-MHC (neuraminidase N2 and HLA-DR1Dw20). Furthermore, allorecognition of T cell clone 6H5 appears to depend upon the recognition of a complex of allogeneic MHC and a cell-type specific endogenous peptide presented by activated B cells.     

In situ immune complexes, lymphocyte subpopulations, and HLA-DR-positive epithelial cells in Hashimoto thyroiditis

Surgical specimens from thyroid glands from seven patients with Hashimoto thyroiditis and two patients with non-autoimmune colloid goiter were analyzed by immunohistologic techniques (direct and indirect immunofluorescence and immunoperoxidase tests) using polyclonal antisera against total immunoglobulin, Ig classes (IgM, IgD, IgG, and IgA), and complement component C3 and monoclonal antibodies specific for B cells, T cell subpopulation, macrophages, natural killer cells, granulocytes, and HLA-DR antigen. Complement-fixing immune complexes (IgG+, C3+) were noted predominantly in areas with only slight destruction and only moderate lymphoid infiltration of thyroid follicles. In areas with intense lymphoid infiltration of thyroid follicles, where many well-developed germinal centers and significant perivascular lymphoid infiltration were seen, immune complexes were scarce. In these latter areas T helper cells (OKT4+, Leu3a+), were more abundant than T cytotoxic/suppressor cells (OKT8+), macrophages (OKM1+), and plasma cells (IgG+); only a few B lymphocytes (smIgM+, smIgD+), granulocytes (ViMD5+), and natural killer cells (VEP13+, Leu7+) were noted in the interstitium between thyroid follicles, intruding between thyroid follicular epithelial cells and merging into the thyroid follicular lumen. Many activated T cells (OKT10+, HLA-DR+) were present in these areas of advanced destruction. HLA-DR antigen expression was seen on macrophages, tissue reticulum cells, vascular endothelial cells, lymphoid cells, and, most interestingly, on thyroid epithelial cells. Normal thyroid epithelial cells did not express HLA-DR. Only a few epithelial cells in the vicinity of lymphoid infiltrations were HLA-DR+ in early stages of Hashimoto thyroiditis, and the number of HLA-DR+ epithelial cells was significantly increased in advanced stages of the disease. In our present report the potential role of HLA-DR+ thyroid epithelial cells for the in situ stimulation of the immune system within the thyroid gland of patients with Hashimoto thyroiditis is discussed, and it is hypothesized that HLA-DR+ thyroid epithelial cells may be an important factor for the progression and self-perpetuation of the disease, which is probably initiated by humoral components of the immune system but further propagated by cellular immunopathologic mechanisms.     

Mucin-Related Epitopes Distinguish M Cells and Enterocytes in Rabbit Appendix and Peyer’s Patches

The biochemical composition of the apical membranes of epithelial M cells overlying the gut-associated lymphoid tissues (GALT) is still largely unknown. We have prepared monoclonal antibodies (MAbs) directed against carbonate-washed plasma membranes from epithelial cells detached with EDTA from rabbit appendix, a tissue particularly rich in GALT. As determined by immunofluorescence microscopy, several MAbs specifically recognized either M cells or enterocyte-like cells of the domes from rabbit appendix, sacculus rotundus, and Peyer’s patches. M cells were identified by their large ventral pocket containing lymphoid cells and by specific labeling with antivimentin. Among various characterized MAbs, MAb 104 recognized rabbit immunoglobulins and was used as an apical marker for M cells in the rabbit appendix, MAb 58 selectively stained an integral membrane glycoprotein of greater than 205 kDa located at the apex of M cells, and MAb 214 stained a smaller soluble glycoprotein associated with the apical surfaces from neighboring enterocytes. In addition, both MAbs 58 and 214 also labeled luminal mucus and secretory granules in goblet cells. The selective association of mucin-related molecules at the surfaces of either M cells or enterocyte-like cells of the follicle-associated epithelium suggests that specific carbohydrate antigens are differentially expressed by epithelial cells and could account for the differential binding properties of pathogens.     

Detection of phenotypic heterogeneity within the murine splenic vasculature using rat monoclonal antibodies IBL-7/1 and IBL-7/22.

The homing of lymphocytes into various peripheral lymphoid organs involves a complex set of interactions between the circulating lymphoid cells and the local endothelium. While the initial binding and the adhesion processes of lymphocytes leading to their homing to the lymph nodes have thoroughly been studied, relatively little is known about the lymphoid-endothelial interactions taking place in the spleen. Our aim was to isolate rat monoclonal antibodies (MAbs) against the endothelial cells of the mouse spleen. Using splenic stroma derived from irradiated mice as antigen, two new rat MAbs were isolated. The MAb designated as IBL-7/1 bound to the sinus-lining (littoral) cells in the red pulp, marginal zone, and to the T- and B-cell compartments of the white pulp, respectively. However, it did not react with the central arteriole in the periarteriolar lymphoid sheath (PALS). In contrast to this pattern, the IBL-7/22 MAb recognized a shared antigen expressed by the sinusoidal and arterial endothelium. In addition to the endothelial reactivity, the IBL-7/22 MAb also stained the reticular components of the PALS and red pulp, but not that of the follicles. In vivo labelling with fluorescein (FITC)-conjugated IBL-7/1 MAb followed by confocal microscopic analysis revealed that the antigen recognized was expressed on the luminal surface of the sinusoids. The treatment of mice with IBL-7/1 MAb did not result in the altered distribution of T and B cells. These two new MAbs may be valuable tools for the phenotypic analysis of splenic endothelium, and can be used for the identification of various endothelial cell subpopulations of the mouse spleen.     

Production of a monoclonal anti-hamster thymocyte antibody with mitogenic properties

A monoclonal antibody (MAb), designated H3, with specificity for hamster lymphocytes, was produced by somatic cell hybridization of myeloma Sp 2/0 and spleen cells of Balb/c mice immunized with suspensions of viable hamster thymocytes. The H3 MAb (IgG 3) reacted specifically with hamster thymocyte surface membranes (immunofluorescent assay). The antibody recognized a protein of an approximate molecular weight of 44,000 Daltons in immunoblots of hamster thymocyte extracts. The soluble H3 MAb presented potent mitogenic properties as indicated by the DNA synthesis induced in in vitro hamster lymphocyte cultures.     

The development of lymphocytes with T- or B-membrane determinants in the human foetus

The development of T- or B-membrane determinants on human foetal lymphoid cells was studied by the direct immunofluorescence technique, using a tetramethyl rhodamine isothiocyanate (TRITC) labelled horse antihuman T-cell conjugate (ATC) for the detection of T lymphocytes and a fluorescein isothiocyanate (FITC) labelled goat antihuman Fab conjugate for the demonstration of Ig-bearing B lymphocytes. Human foetal lymphocytes were also tested for spontaneous rosette formation with sheep red blood cells (SRBC).

Cell suspensions of liver, spleen, thymus, bone marrow and blood of twenty-five human foetuses of 5·5–26 weeks of gestational age have been investigated. ATC-positive lymphoid cells were first seen in the liver at 5·5 weeks; E rosette-forming cells (ERFC) and Ig-bearing lymphoid cells were first found at 9 weeks. ERFC were also present in the thymus at 9 weeks. By 12 weeks, fluorescent B and T lymphocytes were found in bone marrow and spleen. ERFC were also found in bone marrow at this age, but not in spleen. At 15 weeks, more than 80% of blood lymphoid cells had T or B determinants.

A difference in the reactivity of lymphoid cells with the ATC and their capacity to form E rosettes was observed. In liver and spleen, the ATC determinant was detectable before the SRBC receptor. In bone marrow, blood and thymus the ATC determinant was found on a higher percentage of lymphoid cells than was the SRBC receptor when those organs were first investigated. During the entire investigated period of gestation, the majority of lymphoid cells in liver and bone marrow did not react with either of the conjugates, nor did they form E rosettes. In all organs investigated, except in the thymus, lymphoid cells were occasionally seen which reacted with both conjugates. By the 16th week of foetal age, more than 90% of lymphoid cells in thymus, spleen and blood had acquired T- or B-membrane determinants.

     

Production and characterization of anti-RAS p21 monoclonal antibodies

Monoclonal antibodies (MAb) Ras 10 and Ras 11 were raised to an activated human Harvey-ras p21 and shown to react with recombinant p21 as well as p21 derived from human and rodent cells. Characterization studies by ELISA, immunoprecipitation and Western blot procedures demonstrated that MAb Ras 10 (IgG2a) and Ras 11 (IgG2b) react with normal p21, activated p21, and p21 from each of the Harvey, Kirsten and N-ras families. Studies illustrated that MAb Ras 10 and Ras 11 can also be used in flow cytometry and immunohistochemistry to specifically detect cellular p21. ELISA, immunoprecipitation and Western blot studies comparing rat anti-p21 MAb Y13-259 with Ras 10 and Ras 11 demonstrated that Ras 10 and Ras 11 had a greater sensitivity for ras protein detection than Y13-259. Collectively, these studies illustrate that MAb Ras 10 and Ras 11 can be applied to a variety of assay formats to detect ras proteins and, therefore, may be valuable tools in detecting and measuring of ras protein expression in normal, neoplastic and pre-neoplastic cells.     

Surface Ig on rabbit lymphocytes Rabbit B and T cells are distinct populations

Rabbit peripheral blood lymphocytes (PBL) were analyzed by immunofluorescence using anti-T cell conjugates and anti-Fab, anti-al allotype, anti-IgM and anti-IgA conjugates. In addition, T cells were demonstrated by rosetting with papain-treated homologous erythrocytes. Control experiments, using acid treatment and incubation at 37 °C for 18 h after or without pronase treatment, revealed the endogenous origin of all surface determinants tested. A good correlation was found between results obtained with the two anti-T cell conjugates used and the T rosette test on PBL and on lymphoid cells isolated from various organs. In lymphocytes isolated from peripheral blood and from various lymphoid organs, the percentages of T and B cells were respectively 45 and 38 for PBL, 10 and 46 for bone marrow, 27 and 31 for appendix, 40 and 45 for spleen, 42 and 46 for Peyer's patches, 96 and 0.3 for thymus and 70 and 16 for peripheral lymph nodes. The percentage of “null” cells in lymphocyte populations derived from bone marrow and appendix is rather high. The final percentages of T and B cells in rabbit PBL depend to a significant extent on the method of isolation, especially isolation by Ficoll-Hypaque centrifugation results in a depletion of T cells. Moreover, a rather impure lymphoid cell suspension is obtained. In double incubation experiments, T cells (as defined by T cell antigen(s) or rosette formation) and B cells (Fab-bearing cells) were entirely different subpopulations. Allotypes of the a locus could not be detected on the surface of T cells. The results are discussed with respect to genetic coding of antigen receptors on B and T cells.     

4A11, a monoclonal antibody recognizing a novel antigen expressed on aberrant vascular endothelium. Upregulation in an in vivo model of contact dermatitis.

We describe the production and characterization of a novel monoclonal antibody (MAb) that recognizes a human endothelial cell antigen expressed mainly in inflamed and malignant disease states. We have used immunohistochemistry to determine the spectrum of reactivity of this MAb compared with that of a MAb to factor VIII-related antigen (MAb FVIII). MAb 4A11 does not react with several myeloid or lymphoid cell lines or with peripheral blood cells. Unlike MAb FVIII, MAb 4A11 does not react with platelets. MAb 4A11 reacts with most vascular endothelial cells in lymphoid tissue but with few (< 10%) endothelial cells in thymus, spleen, liver, lung, adrenal gland, placenta, testes, and skin. MAb 4A11 detects endothelial cells in diseased tissues such as rheumatoid and osteoarthritic synovium and psoriatic skin. Vascular endothelial cells in both adrenal tumors and cutaneous Kaposi's sarcomas lesions are MAb 4A11 reactive. In vitro the 4A11 antigen is not detectable on cultured human umbilical vein endothelial cells and its expression is not induced on these cells by treatment with lipopolysaccharide, interferon-gamma, interleukin-1 and -6, or tumor necrosis factor-alpha. However, in an in vivo model of allergic contact dermatitis the 4A11 antigen is upregulated differentially from other endothelial markers such as E-selectin, vascular cell adhesion molecule-1, and intercellular adhesion molecule-1. In this dermal model of inflammation, poison ivy extract is applied to the skin and biopsies taken at 0, 6, and 24 hours. In addition to focal keratinocyte expression, 4A11 antigen is found on 11% of dermal endothelial cells at time 0 and antigen expression increases with time until 24 hours, when 4A11 antigen is present on 63% of the endothelial cells. Using thin layer chromatography, MAb 4A11 reacts with the H-5-2 [Fuc alpha 2Gal beta 4GlcNAc beta 3Gal beta 4Glc beta 1Cer] and Lewis(y)-6 [Fuc alpha 2Gal beta 4(Fuc alpha 3)GlcNAc beta 3Gal beta 4-Glc beta 1Cer] blood group glycolipids. The presence of the novel 4A11 antigen in inflamed and malignant tissues containing many blood vessels and its differential upregulation in allergic contact dermatitis may signify an important function for this antigen in the inflammatory process.