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

Bast, Bert J.E.G.; Catty, D.; Manten-Slingerland, Ria; Jansen, Jan T. G.; Veldhuis, Dick H.; Roholl, P. J. M.; Ballieux, R. E.

doi:10.1002/eji.1830091215

Cited by 17 publications

(6 citation statements)

References 39 publications

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“…Our data are compatible with those of others, who showed, using fluorescence microscopy, that rabbit B and T cells are distinct subpopulations [13,15,[27][28][29][30].…”

Section: Discussionsupporting

confidence: 96%

Effects of anti‐Ig reagents on T cell functions I. Activation of rabbit T cells by anti‐allotype antibodies

et al. 1982

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Rabbit lymphocytes were analyzed by flow microfluorometry, using anti-T cell and anti-Ig reagents. Rabbit T cells and cells expressing surface Ig (B cells) appeared to belong to distinct subpopulations which could be separated on the basis of their selective adherence to nylon wool columns or to anti-Ig-coated dishes. Using flow microfluorometry, no evidence was obtained for the expression of a allotypes (VH framework) on T cells. Separated lymphocyte populations were functionally characterized using an in vitro proliferation assay. B and T cells from rabbit spleen or peripheral blood responded in a differential fashion to B and T cell-specific mitogens and to anti-Ig antibodies. Although such T cells did not respond upon stimulation with anti-Ig antibodies alone, significant proliferation could be induced by simultaneous addition of anti-Ig and T cell growth factor. In addition, activated T cells, derived from lymph nodes of immunized rabbits, generated a proliferative response upon stimulation with anti-Ig reagents alone. The above-mentioned effects on T cells could be obtained using heterologous anti-Ig antibodies or isologous anti-allotype antibodies, directed either against a allotypes (VH framework) or against b allotypes (kappa light chain). Antibodies against the Fc portion of rabbit Ig or against irrelevant allotypic specificities were ineffective in triggering T cells. Fab fragments from anti-allotype antibodies were equally stimulatory for T cells as compared to intact IgG, indicating that cross-linking of Ig-like molecules is not a necessary requirement for anti-Ig-induced T cell activation.

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“…Our data are compatible with those of others, who showed, using fluorescence microscopy, that rabbit B and T cells are distinct subpopulations [13,15,[27][28][29][30].…”

Section: Discussionsupporting

confidence: 96%

Effects of anti‐Ig reagents on T cell functions I. Activation of rabbit T cells by anti‐allotype antibodies

et al. 1982

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“…It has also been reported that (a) the anti-VH 315 antibodies (16) inhibit T cell function in mice (17)(18)(19) and cross-react with antigen-specific, soluble factors of T cells (20, 21) (b) unabsorbed chicken antisera against human V/~ fragments stain by immunofluorescence ~30% of normal T cells (44), and (c) unabsorbed rabbit antibodies against the VH fragments of a human IgG3~ myeloma also show weak reactivity by immunofluorescence with ~20% of normal T cells and may inhibit mixed lymphocyte reactions (45). In contrast, our monoclonal anti-Vn antibodies appear unreactive by immunofluorescence with either surface or cytoplasmic components of both resting and activated T cells, and this is consistent with the results of others using goat anti-VH subgroup antibodies (48), rabbit anti-VH framework antibodies (42), and rabbit VH allotype antibodies (11)(12)(13)(14)(15). Our monoclonal anti-Vn subset antibodies could be valuable reagents in the future analysis of this issue using very sensitive assays of antigen-specific, soluble factors of murine and human T cells.…”

Section: Discussionsupporting

confidence: 92%

“…One set of goat antibodies specific for each human VH subgroup has been prepared by selective adsorption and was found to be useful in typing secreted and membranebound Ig on B cells (3).Evidence from studies (4-8) using anti-idiotype antibodies has suggested that T cells and their antigen-specific, soluble factors might possess Ig-like idiotypic determinants. VH allotypic determinants have also been demonstrable on rabbit T cells by several groups (9, 10) and not by others (11)(12)(13)(14)(15). Antibodies against VH framework regions of the mouse myeloma protein MOPC-315, which cross-react with other mouse Ig regardless of their antibody specificity, class, subclass, subgroup, or allotype (16), may inhibit T cell function (17)(18)(19) and cross-react with soluble factors ofT cells (20,21).…”

mentioning

confidence: 99%

Immunoglobulin VH determinants defined by monoclonal antibodies.

Kubagawa¹,

Mayumi²,

Kearney³

et al. 1982

The Journal of Experimental Medicine

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The heavy and light chains of immunoglobulins (Ig) consist of two distinct regions: variable and constant. Variable regions, which determine the antibody specificity and idiotypic determinants, are further divided into three hypervariable regions and four relatively invariant, so-called framework, regions (1, 2). The variable regions of both heavy chains (VH) 1 and light chains (VL) have been divided into subgroups based upon similarities between amino acid sequences in their framework regions. For human Ig, three major VH subgroups have been characterized on the basis of amino acid sequences of the aminoterminal 20 residues within the first framework region (2). One set of goat antibodies specific for each human VH subgroup has been prepared by selective adsorption and was found to be useful in typing secreted and membranebound Ig on B cells (3).Evidence from studies (4-8) using anti-idiotype antibodies has suggested that T cells and their antigen-specific, soluble factors might possess Ig-like idiotypic determinants. VH allotypic determinants have also been demonstrable on rabbit T cells by several groups (9, 10) and not by others (11-15). Antibodies against VH framework regions of the mouse myeloma protein MOPC-315, which cross-react with other mouse Ig regardless of their antibody specificity, class, subclass, subgroup, or allotype (16), may inhibit T cell function (17-19) and cross-react with soluble factors ofT cells (20,21). The molecular nature of antigen receptors on T lymphocytes, however, is still controversial. Recent studies (22, 23) using recombinant DNA techniques have suggested that antigen-specific helper or killer T cell clones may not use the Ig-joining and constant gene segments.We prepared monoclonal hybridoma antibodies against VH fragments isolated from human IgM myeloma proteins with the hope of using these to analyze the products of normal or abnormal B and T cells. This paper describes the preparation and characterization of four such monoclonal anti-human VH antibodies. Our studies *

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“…The content of nonlymphoid cells in isolated rabbit PBL suspensions varies, depending on the isolation procedure [39]. Differentiation of the RFC with respect to their morphological characteristics, and, within the lymphocytes, their T, B or null cell features, is described in the following report [23].…”

Section: Discussionmentioning

confidence: 99%

“…a) The percentages of EAy RFC, IgM-positive cells (F(ab')2 antiIgM-TRITC [39]) and complement-rosetting leukocytes (RL) [25] were determined in untreated PBL (U), immediately after pronase treatment (P), after incubation (I) during 18 h at 3 7 T , and after pronase treatment followed by 37°C incubation (PI). The percentages are expressed as percentage from the initial values, which varied .…”

Section: ? 17mentioning

confidence: 99%

Fc receptors on rabbit lymphocytes Existence of receptors for IgG antibody complexed with antigen; conditions for its detection

Bast¹,

Manten-Slingerland²,

Roholl³

et al. 1980

Eur J Immunol

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The presence of Fc receptors (FcR) on rabbit peripheral blood leukocytes is demonstrated using rosette formation with an ox erythrocyte-antibody (EoxA) complex. The receptor is specific for the Fc fragment of IgG (neither IgM nor F (ab')2 anti-Eox mediates rosette formation) that is antigen-bound (aggregated rabbit IgG inhibits the rosette formation only transiently). The receptor is species-specific: guinea pig IgG/Eox, goat IgG/Eox and sheep IgG/Eox complexes do not show rosette formation, and goat IgG aggregates do not inhibit rosette formation. The origin of the target erythrocytes is of importance. Sheep erythrocytes are not useful, and within Eox large differences between donors were found. Rosette formation was only inhibited by pretreatment of the rosette-forming cells with homologous immune complexes, whereas the size of the antigen greatly influenced the degree of inhibition. The rabbit FcR is pronase-resistant, unlike the human and murine RcR. The interaction of IgG and the FcR is not inhibited by isolated C gamma 3 domains. Further evidence for the requirement of the whole Fc region was obtained in experiments where inhibition of the rosette formation was observed using antisera directed to the C gamma 3 and the C gamma 2 domain, respectively. Anti-Fab antiserum did not inhibit rosette formation. Results are discussed in relation to the mechanism of allotypic suppression.

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

Cited by 17 publications

References 39 publications

Effects of anti‐Ig reagents on T cell functions I. Activation of rabbit T cells by anti‐allotype antibodies

Effects of anti‐Ig reagents on T cell functions I. Activation of rabbit T cells by anti‐allotype antibodies

Immunoglobulin VH determinants defined by monoclonal antibodies.

Fc receptors on rabbit lymphocytes Existence of receptors for IgG antibody complexed with antigen; conditions for its detection

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