EFFECT OF RECENT ANTIGEN PRIMING ON ADOPTIVE IMMUNE RESPONSESSprent, J.; Miller, J. F. A. P.
doi: 10.1084/jem.139.1.1pmid: 4855554
When thoracic duct lymphocytes (TDL) or mesenteric lymph node (MLN) cells from mice primed 1 day before with either sheep erythrocytes (SRC) or horse erythrocytes (HRC) were transferred together with both SRC and HRC to irradiated mice, antibody responses measured 7 days later could not be detected to the priming antigen but were high to the other antigen. Furthermore, this unresponsiveness of TDL and MLN to the priming antigen could not be abrogated by delaying antigen challenge of the transferred cells for 1–2 wk. Previous work had shown that short-term priming with antigen also induced specific unresponsiveness in spleen cells on adoptive transfer. Unresponsiveness in these cells, however, was only of temporary duration, full recovery in the reactivity of the cells being observed when challenge with the priming antigen on transfer was delayed for 5 or more days. Since the present work showed that such recovery from initial unresponsiveness on transfer was unique to spleen cells and did not apply to TDL or MLN, it appeared that different mechanisms were responsible for the unresponsiveness in the three populations. It is proposed that the unresponsiveness detected in TDL and MLN cells in the present study resulted from a deficiency of antigen-reactive cells, these cells having been recruited to the spleen, i.e., a region of antigen concentration. This concept of antigen-induced selective recruitment of circulating lymphocytes was supported by evidence that 51 Cr-labeled heterologous erythrocytes indeed localized largely in the spleen after intravenous injection but not in MLN. Footnotes Submitted: 31 July 1973
THE THYMIC SUPPRESSOR CELLHa, Tai-You; Waksman, Byron H.; Treffers, H. Peter
doi: 10.1084/jem.139.1.13pmid: 4128445
This study confirms the finding that washed thymocytes from rats given 100 mg of BGG 48 h earlier, when transferred to syngeneic recipients, exert a specific suppressor effect on immunological responses to BGG in the latter. The active cells are found in a subpopulation of low density, making up less than 10% of the total thymocytes, and are partially resistant to hydrocortisone. Footnotes Submitted: 23 August 1973
ACTIVATION OF T AND B LYMPHOCYTES IN VITROArmerding, Dieter; Katz, David H.
doi: 10.1084/jem.139.1.24pmid: 4128447
The present studies were undertaken to analyze the nature of the effect of bacterial lipopolysaccharide (LPS) on antibody production in vitro. We have done this by making comparative studies of the effects of LPS on in vitro primary and secondary antibody responses to soluble hapten-protein conjugates and to particulate and soluble sheep erythrocyte antigens. The results obtained demonstrate that the biological action of LPS in vitro may be predominantly manifested on the function of B lymphocytes or T lymphocytes depending on the conditions employed. In the absence of antigen, LPS appears to act primarily on B lymphocytes. In the presence of antigen, however, the data presented here show that LPS significantly influences specific helper T-cell function and it is this latter influence that is predominantly responsible for the adjuvant effects of LPS on antigen-specific antibody responses. Footnotes Submitted: 20 September 1973
THE ROLE OF PROPERDIN IN THE ALTERNATE PATHWAY OF COMPLEMENT ACTIVATIONGötze, Otto; Müller-Eberhard, Hans J.
doi: 10.1084/jem.139.1.44pmid: 4808709
Properdin (P), a highly basic euglobulin, was purified from human serum to molecular homogeneity without the use of zymosan. Isolated P was found to efficiently initiate activation of the alternate pathway of complement activation (C3 activator or properdin system) and to be an essential component during its early reaction stages. The activity of isolated P did not require the presence of an activating polysaccharide. It was therefore concluded that purified P had been obtained in an activated form (P). In an isolated reaction system containing purified C3, C3 proactivator (C3PA), and C3 proactivator convertase (C3PAse), P was able to mediate the activation of C3PAse which in turn activated C3PA to cleave C3. This activation of C3PAse was found to depend on the presence of native C3. These results allowed the formulation of a concept in which P is envisaged to act as a modulator of native C3 enabling it to activate C3PAse. Activation of C3 was efficiently mediated by P in the fluid phase. Efficient activation of C5, however, required the participation of an insoluble polysaccharide (zymosan). The possibility is raised therefore that P might also be an integral part of the multimolecular C5 convertase of the alternate pathway of complement activation. Footnotes Submitted: 7 September 1973
CLONAL NATURE OF THE IMMUNE RESPONSE TO PHOSPHORYLCHOLINEClaflin, J. Latham; Lieberman, Rose; Davie, Joseph M.
doi: 10.1084/jem.139.1.58pmid: 4128448
The relationship between receptor molecules on antigen-binding lymphocytes (ABC) and antibody produced by antibody-secreting cells was studied in inbred strains of mice using the immune response to phosphorylcholine (PC) as a model system. Splenic and lymph node lymphocytes of nonimmune mice possess rare lymphocytes which bind 125 I-labeled PC-bovine serum albumin. The frequency of PC-ABC increases after immunization and is paralleled by a rise in the frequency of PC-specific antibody-producing cells. Both of these responses are thymus independent. The receptors on these ABC display specificity for PC and are exclusively of the IgM class. In one of the strains, BALB/c, the receptors possess the same idiotype and fine degree of specificity for PC and two of its analogues, glycerophosphorylcholine and choline, that are characteristic of a PC-binding myeloma, HOPC 8. Furthermore, the idiotype and class of the receptor in these mice do not change during the course of the immune response. These data provide more direct evidence for the immunelogic relevance of receptor-bearing lymphocytes. Footnotes Submitted: 30 July 1973
MECHANISM OF THYMUS-INDEPENDENT IMMUNOCYTE TRIGGERINGCoutinho, Antonio; Gronowicz, Eva; Bullock, Wesley W.; Möller, Göran
doi: 10.1084/jem.139.1.74pmid: 4128449
The present experiments were performed in order to analyze the mechanism by which thymus-independent antigens (nonspecific B-cell mitogens) can induce specific immune responses to antigenic determinants present on the same molecule. The hapten NNP was coupled to the B-cell mitogen, lipopolysaccharide (LPS). The conjugate retained full mitogenic activity and bound specifically to NNP-reactive cells. NNP-LPS activated polyclonal as well as specific anti-NNP antibody synthesis, but the optimal concentrations for induction of specific anti-NNP cells were several orders of magnitude lower than the concentrations required for polyclonal activation. These low concentrations failed to activate nonspecific cells, but they induced specific thymus-independent responses of high-avidity NNP-specific cells with the typical kinetics of antigenic responses in vitro. Furthermore, hapten-specific cells were paralyzed by NNP-LPS concentrations that were optimal for induction of polyclonal activation. Specific activation and paralysis could be abolished by free hapten indicating that selective binding of NNP-LPS to hapten-specific cells was responsible for the specificity of the response. However, the triggering signal lacked specificity, since high-avidity specific anti-NNP cells could still be activated by stimulating concentrations of NNP-LPS in the presence of free hapten, even though the Ig receptor combining sites were presumably occupied by NNP. The findings show that B cells with specific Ig receptors for the antigenic determinants on mitogen molecules preferentially bind these molecules and become activated at concentrations still unsufficient to trigger other B cells that lack specific receptors. It is suggested that activation for primary IgM responses in B cells is the result of "one nonspecific signal." This nonspecific signal is provided by the mitogenic properties of some antigens (highly thymus independent or, alternatively, by nonspecific T-cell factors (for highly T cell-dependent antigens), or both, and the surface structures responsible for triggering are not the Ig receptors. The specific Ig receptors only act as passive focusing devices for nonspecific stimuli, entitling the cell to be selectively activated, even though both the signal and the receptors for the triggering are nonspecific. Footnotes Submitted: 23 August 1973
CYTOTOXIC IMMUNE CELLS WITH SPECIFICITY FOR DEFINED SOLUBLE ANTIGENSSchirrmacher, Volker; Rubin, Bent; Pross, Hugh; Wigzell, Hans
doi: 10.1084/jem.139.1.93pmid: 4128450
Spleen cells from mice immunized against ovalbumin (OA) or dinitrophenylated mouse serum albumin (DM) were found to be specifically cytotoxic in vitro towards target cells (chicken red blood cells) coated with these antigens. Inhibition of specific cytotoxicity was observed when free soluble antigen was added to the incubation mixtures. DM-immune cell cytotoxicity could be specifically and completely inhibited by DNP-lysine and was thus shown to be hapten specific. Complete and specific inhibition was also observed for OA-immune cell cytotoxicity using OA as inhibitor, but compared with the inhibition curves obtained with DNP-lysine, the OA cytotoxicity inhibition curves were shifted by a factor of about one hundred towards lower molar inhibitor concentrations. Very similar results were observed when the serum antibodies of DM- and OA-immune animals were analyzed by passive hemagglutination inhibition. With increasing time after immunization, both cytotoxicity inhibition curves and agglutination inhibition curves, shifted to lower antigen or hapten concentrations. Specific cytotoxicity against antigen-coated target cells was induced in nonimmune spleen cells ( a ) by serum from immune animals, and ( b ) by supernatants from in vitro immune cell cultures. In both instances, the factor which induced antigen-specific cytotoxic activity could be absorbed on anti-mouse Ig columns, thus demonstrating its immunoglobulin nature. The ability of target cell bound antibodies to induce cytotoxicity in nonimmune spleen cells was restricted to the 7S antibody class. Footnotes Submitted: 21 August 1973
DUAL REGULATORY ROLE OF THE THYMUS IN THE MATURATION OF IMMUNE RESPONSE IN THE RABBITTaniguchi, Masaru; Tada, Tomio
doi: 10.1084/jem.139.1.108pmid: 4128443
Rabbits thymectomized in early adulthood produced more antihapten antibody than sham-thymectomized controls after hyperimmunization with 2,4-dinitrophenyl bovine gamma globulin (DNP-BGG). The average associated constant of anti-DNP antibody produced by thymectomized animals was more than 10 times higher than that of the controls. Similar effects were obtained by extensive treatment of rabbits with antithymocyte serum (ATS) before and during the immunization with DNP-BGG. The results indicated that relative diminution of thymus-derived lymphocytes (T cells) resulted in a stimulation of antibody-forming cells with a higher affinity. On the other hand, preimmunization of rabbits with different doses of BGG caused either enhancement or suppression of the hapten-specific antibody response, depending on the priming dose of BGG. The suppressed antibody response was always associated with a marked decrease in the antibody affinity. If rabbits were partially tolerized with a large dose of soluble BGG, some of the animals produced little antibody against hapten (DNP) coupled to this carrier, and the affinity of produced antibody was low. However, other rabbits tolerized with BGG produced large amounts of anti-DNP antibody upon hyperimmunization with DNP-BGG, whose affinity was only slightly lower than that of the control. These results can be harmonized if it is assumed that the thymus plays an important role in the maturation of the immune response. It is postulated that T cells, in numbers ordinarily available, would first assist in the proliferation of antihapten antibody-forming cell precursors already selected by antigen, thus accounting for the rapid increase of antibody affinity in the early stage of immunization. However, after a larger number of carrier-specific T cells are made in response to continued immunization, these would suppress antibody-forming cells. The suppression would be greater for cells with higher affinity for antigen, resulting in a decrease in antibody affinity. This postulate explains preferential stimulation and suppression of cells having higher affinity receptors under circumstances in which T cell are relatively depleted or overstimulated, and further permits an explanation for the decrease of antibody affinity after long-term immunization. Footnotes Submitted: 5 September 1973
SIMILARITIES IN THE LIGHT CHAINS OF ANTI-γ-GLOBULINS SHOWING CROSS-IDIOTYPIC SPECIFICITIESKunkel, H. G.; Winchester, R. J.; Joslin, F. G.; Capra, J. D.
doi: 10.1084/jem.139.1.128pmid: 4543460
A marked homogeneity of the light chains was observed in an analysis of 17 IgM proteins with anti-γ-globulin activity. The V region subgroups of the light chains were determined by both sequence and antigenic analysis. The latter procedure permitted large scale screening for comparisons with control proteins. The two methods showed general agreement in the determination of Kappa III proteins; all proteins positive by antigenic analysis were also positive by sequence but exceptions were noted in the opposite direction. The anti-γ-globulins showed by antigenic analysis a 92% incidence of VK III light chains as compared to an incidence of 27% among 81 control proteins without this activity. A similar selection was observed for an antigen (VK III b) which subdivided the kappa III proteins. The major Wa group of anti-γ-globulins which had been delineated previously on the basis of cross-idiotypic specificity was primarily responsible for the special light-chain selection. All the proteins of this group contain VK III light chains and all were of the VK III b type. Current evidence indicates that additional light-chain similarities were involved in the cross-idiotypic specificity of the Wa group. It thus appears that for the anti-γ-globulins various levels of selection of light chains are manifest ranging from a preponderance of kappa type, of kappa III subgroup, of kappa III b sub-subgroup and perhaps of still further subdivisions to account for the cross-idiotypic specificity. Footnotes Submitted: 18 September 1973
IMMUNOCHEMICAL ANALYSIS OF THE IDIOTYPES OF MOUSE MYELOMA PROTEINS WITH SPECIFICITY FOR LEVAN OR DEXTRANWeigert, Martin; Raschke, William C.; Carson, Dennis; Cohn, Melvin
doi: 10.1084/jem.139.1.137pmid: 4128444
This paper deals solely with idiotypic determinants, the configurations of which are modified when the antibody bearing them interacts with its ligand. This phenomenon is measured as an inhibition of the reaction between anti-idiotype and idiotype. Two points are made: ( a ) The assay for ligand-modifiable determinants can be used to determine the "size" of the combining site. This is illustrated here with the anti-α(1 → 6) dextran mouse myeloma immunoglobulin W3129. Whether the interaction between a homologous series of α(1 → 6) oligosaccharide ligands and the combining site of W3129 is measured by inhibition of precipitation with α(1 → 6) dextran (4) or of binding of W3129 to anti-W3129 idiotype, the finding is the same. The order of inhibition is isomaltohexaose = isomaltopentaose >> isomaltotetraose > isomaltotriose >>> isomaltose. The combining site is optimally complementary to isomaltopentaose. ( b ) Cross-idiotypic specificity is closely correlated with cross-combining specificity; the converse is not true. This is illustrated here with three groups of mouse myeloma immunoglobulin, each specific for α(1 → 3) dextran, α(1 →6) dextran, ß(2 → 1) or ß(2 → 6) levan. If a given anti-idiotypic serum cross-reacted with several myeloma proteins, they always had similar combining specificity. Thus the three proteins, J558, MOPC 104E, and UPC 102, which cross-react with anti-J558 have combining specificity for α(1 → 3) dextran; cross-reacting W3082, UPC 61, and Y5476 have specificity for levan; and cross-reacting W3129 and W3434 have specificity for α(1 → 6) dextran. This extends previous studies with proteins specific for phosphorylcholine (7) or γ-globulin (8). As expected, the converse is not true, for proteins may have combining specificity for α(1 → 6) dextran e.g. QUPC 52, or levan e.g. J606, UPC 10 and yet not carry the above-mentioned reference idiotypes. The correlation between cross-idiotypic and combining specificity breaks down when idiotypic determinants which are not modifiable by ligand are studied. The implications of this are pointed out since most investigations deal with ligand-nonmodifiable determinants. Footnotes Submitted: 14 September 1973