scholarly journals CELL-TO-CELL INTERACTION IN THE IMMUNE RESPONSE

1971 ◽  
Vol 134 (5) ◽  
pp. 1266-1284 ◽  
Author(s):  
J. F. A. P. Miller ◽  
J. Sprent ◽  
A. Basten ◽  
N. L. Warner ◽  
J. C. S. Breitner ◽  
...  
Keyword(s):  
T Cells ◽  
B Cells ◽  
Antibody Response ◽  
Cell Types ◽  
Cell Interaction ◽  
Antibody Responses ◽  
Secondary Response ◽  
Spleen Cells ◽  
Control Antigen

Experiments were designed to test the possibility that thymus-derived (T) cells cooperate with nonthymus derived (B) cells in antibody responses by acting as passive carriers of antigen. Thoracic duct lymphocytes (TDL) from fowl γG-tolerant mice were incubated in vitro with fowl anti-mouse lymphocyte globulin (FALG), which was shown not to be immunosuppressive in mice. On transfer into adult thymectomized, irradiated, and marrow protected (TxBM) hosts together with a control antigen, horse RBC, a response to horse RBC but not to fowl γG was obtained. By contrast, TxBM recipients of nontolerant, FALG-coated TDL responded to both antigens and the antibody-forming cells were shown to be derived from the host, not from the injected TDL. These findings suggested that, under the conditions of the experiment, triggering of unprimed B cells in the spleens of TxBM hosts was not achieved with antigen-coated tolerant lymphocytes. Another model utilized the ability of B cells to bind antibody-antigen complexes. Spleen cells from TxBM mice, incubated in vitro with anti-fowl γG-fowl γG·NIP, were injected with or without normal TDL (a source of T cells) into irradiated hosts. Only mice given both cell types could produce an anti-NIP antibody response. In a further experiment, spleen cells from HGG·NIP-primed mice were injected together with NIP-coated B cells (prepared as above) into irradiated hosts. A substantial anti-NIP antibody response occurred. If, however, the T cells in the spleens of HGG·NIP-primed mice were eliminated by treatment with anti-θ serum and complement, the NIP response was abolished. It was concluded that antigen-coated B cells could not substitute for T cells either in the primary or secondary response. Treatment of T cells from unprimed or primed mice with mitomycin C impaired their capacity to collaborate with B cells on transfer into irradiated hosts. Taken together these findings suggest that before collaboration can take place T cells must be activated by antigen to differentiate and in so doing may produce some factor essential for triggering of B cells.

scholarly journals SELECTIVE ROLES OF THYMUS-DERIVED LYMPHOCYTES IN THE ANTIBODY RESPONSE

1974 ◽  
Vol 140 (1) ◽  
pp. 239-252 ◽  
Author(s):  
Tomio Tada ◽  
Toshitada Takemori
Keyword(s):  
T Cells ◽  
B Cells ◽  
Antibody Response ◽  
Suppressive Effect ◽  
Antibody Responses ◽  
Cell Transfer ◽  
Spleen Cells ◽  
Igg Antibody ◽  
Igm Antibody

Passively transferred thymocytes and spleen cells from donors primed with keyhole limpet hemocyanin (KLH) exerted differential suppressive effect on IgM and IgG antibody responses of syngeneic recipients immunized with DNP-KLH depending primarily on the time when KLH-primed cells were transferred. This was demonstrated by the decrease in the numbers of DNP-specific direct and indirect PFC in the spleen of the recipients given KLH-primed cells at different times during primary and secondary immunization. Whereas the cell transfer simultaneously with or 2 days after the primary immunization produced only slight suppression of the peak IgM antibody response, it caused profound suppression of late IgM and IgG antibody responses. By contrast, the cell transfer 3 days after the immunization produced immediate suppression of the ongoing IgM antibody response resulting in its earlier termination, while being unable to prevent the induction of IgG antibody response. KLH-primed cells could moderately suppress the secondary anti-DNP antibody response, in which IgG antibody response was found to be slightly more sensitive than IgM antibody response to the suppressive influence of KLH-primed cells. The suppressive effect of the KLH-primed spleen cells was completely eliminated by the in vitro treatment of the cells with anti-θ and C before cell transfer, indicating that cells responsible for the suppression are, in fact, T cells. The suppression of DNP-specific antibody response by KLH-primed T cells was achieved only if the recipients were immunized with DNP-KLH but not with DNP-heterologous carrier, suggesting that direct interaction between T and B cells is necessary for the suppression of the antibody response. It is concluded that susceptibility of B cells to the specific suppressive influence of T cells is inherently different depending on the differentiation stage of B cells and on the immunoglobulin class they are destined to produce.

scholarly journals IMMUNOLOGIC REACTIONS TO HAPTENS ON AUTOLOGOUS CARRIERS

1973 ◽  
Vol 137 (2) ◽  
pp. 411-423 ◽  
Author(s):  
John W. Moorhead ◽  
Curla S. Walters ◽  
Henry N. Claman
Keyword(s):  
T Cells ◽  
B Cells ◽  
Aminocaproic Acid ◽  
Single Amino Acid ◽  
Secondary Response ◽  
Spleen Cells ◽  
Activated T Cells ◽  
Thymus Cells

Both thymus-derived (T) and bone marrow-derived (B) lymphocytes participate in the response to a hapten 4-hydroxy-3-iodo-5-nitrophenylacetic acid (NIP), coupled to a nonimmunogenic isologous carrier, mouse gamma globulin (MGG). Spleen cells from mice immunized with NIP-MGG show increased DNA synthesis in vitro when cultured with NIP-MGG. The participation of and requirement for T cells in the response was demonstrated by treating the spleen cells with anti-θ serum. This treatment resulted in a 77% inhibition of the antigen response. Furthermore, adoptively transferred normal thymus cells could be specifically "activated" by NIP-MGG in vivo and they responded secondarily to the antigen in vitro. The active participation of B cells in the secondary response was demonstrated by passing the immune spleen cells through a column coated with polyvalent anti-MGG serum. Column filtration reduced the number of NIP-specific plaque-forming cells and NIP-specific rosette-forming cells (both functions of B cells) and produced a 47% inhibition of the NIP-MGG response. The ability of the cells to respond to phytohemagglutinin (PHA) was not affected by column filtration showing that T cells were not being selectively removed. The participation of B cells in the in vitro NIP-MGG response was also shown by treatment of the spleen cells with antiserum specific for MGG and MGG determinants. B cells were removed by treatment with anti-IgM or polyvalent anti-MGG serum plus complement, resulting in a respective 46 and 49% inhibition of the response to NIP-MGG. (Treatment with anti-IgM serum had no effect on T cells.) The contribution of the hapten NIP to stimulation of T cells was investigated using NIP-MGG-activated thymus cells. These activated T cells responded in vitro very well to the NIP-MGG complex but not to the MGG carrier alone demonstrating the requirement of the hapten for T cell stimulation. The response was also partially inhibited (41%) by incubating the activated cells with NIP coupled to a single amino acid (epsilon-aminocaproic acid) before addition of NIP-MGG. These results demonstrated that T cells recognize the hapten NIP when it is coupled to the isologous carrier MGG.

scholarly journals Cooperation across the histocompatibility barrier: H2d T cells primed to antigen in an H-2d environment can cooperate with H-2k B cells.

1976 ◽  
Vol 144 (6) ◽  
pp. 1707-1711 ◽  
Author(s):  
H Waldmann ◽  
H Pope ◽  
A J Munro
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
B Cells ◽  
Cell Interaction ◽  
Helper T Cells ◽  
Secondary Response ◽  
T And B Cells ◽  
Spleen Cells ◽  
Accessory Cells ◽  
Bone Marrow Chimeras

H-2d spleen cells derived from either tetraparental or semiallogeneic radiation bone marrow chimeras can be primed to antigen within H-2d recipients to generate helper T cells capable of cooperating in a secondary response with equal efficiency with H-2d or H-2k B cells. Thus it would seem that the cooperative act between T and B cells does not require that the T cell interacts with its target B cells by either cell interaction genes or via an altered self mechanism involving both antigen and the target B-cell I-region products. This does not preclude a requirement for associative recognition or altered self in the interaction of helper T cells with accessory cells.

scholarly journals GENETIC CONTROL OF IMMUNE RESPONSES IN VITRO

1974 ◽  
Vol 140 (1) ◽  
pp. 185-198 ◽  
Author(s):  
Baruj Benacerraf ◽  
Judith A. Kapp ◽  
Carl W. Pierce ◽  
David H. Katz
Keyword(s):  
T Cells ◽  
B Cells ◽  
Immune Responses ◽  
Antibody Responses ◽  
Specific Response ◽  
Gene Products ◽  
Spleen Cells ◽  
Culture Initiation ◽  
Cooperative Interactions

The conditions for cooperative interactions between nonresponder B10.S B cells and GAT-primed irradiated (C57BL/6 x SJL)F1 T cells in the response by cultures of mouse spleen cells to GAT were investigated. GAT-specific antibody responses could be elicited by soluble GAT in cultures of GAT-primed irradiated (C57BL/6 x SJL)F1 T cells with C57BL/6 B cells but not with B10.S B cells. In contrast, when GAT was presented to the cultures on F1 macrophages or as aggregates of GAT with MBSA, GAT-specific PFC responses were observed with both B10.S or C57BL/6 B cells. Irradiated GAT-primed T cells were nevertheless essential for the development of these responses. The GAT-specific response of B10.S B cells in these cultures was inhibited by the addition of soluble GAT at culture initiation. These results indicate that genetic disparity at Ir loci is not an absolute barrier to T-B-cell cooperative interactions in the response to antigens under Ir gene control. The significance of these data for the function of Ir gene products in immunocompetent cells is discussed.

scholarly journals INDUCTION OF A HEMOLYSIN RESPONSE IN VITRO

1971 ◽  
Vol 133 (6) ◽  
pp. 1325-1333 ◽  
Author(s):  
Klaus-Ulrich Hartmann
Keyword(s):  
Bone Marrow ◽  
T Cells ◽  
B Cells ◽  
Close Contact ◽  
Precursor Cells ◽  
Spleen Cells ◽  
High Concentrations ◽  
Thymus Cells ◽  
Bone Marrow Chimeras

Spleen cells of bone marrow chimeras (B cells) and of irradiated mice injected with thymus cells and heterologous erythrocytes (educated T cells) were mixed and cultured together (17). The number of PFC developing in these cultures was dependent both on the concentration of the B cells and of the educated T cells. In excess of T cells the number of developing PFC is linearly dependent on the number of B cells. At high concentrations of T cells more PFC developed; the increase in the number of PFC was greatest between the 3rd and 4th day of culture. Increased numbers of educated T cells also assisted the development of PFC directed against the erythrocytes. It is concluded that the T cells not only play a role during the triggering of the precursor cells but also during the time of proliferation of the B cells; close contact between B and T cells seems to be needed to allow the positive activity of the T cells.

scholarly journals Haplotype-specific suppression of antibody responses in vitro. I. Generation of genetically restricted suppressor T cells by neonatal treatment with semiallogeneic spleen cells

1981 ◽  
Vol 154 (1) ◽  
pp. 35-47 ◽  
Author(s):  
CM Sorensen ◽  
CW Pierce
Keyword(s):  
T Cells ◽  
Time Course ◽  
Antibody Responses ◽  
Primary Antibody ◽  
Spleen Cells ◽  
Suppressor T Cells ◽  
Cytotoxic Lymphocyte ◽  
Necessary And Sufficient ◽  
Lymphocyte Responses

C57BL/10 mice were injected with semiallogeneic (B10.D2 X C57BL/10)F(1) spleen cells via the anterior facial vein within 24 h of birth to induce tolerance to B10.D2 (H-2(d)) alloantigens. Spleen cells from these mice as adults developed reduced, but significant, mixed lymphocyte and cytotoxic lymphocyte responses in vitro to H-2(d) stimulator cells and these treated mice rejected first-set B10.D2 skin grafts within a normal time-course, indicating that at best only a state of partial tolerance had been induced. Spleen cells from these mice failed to develop antibody responses to a variety of antigens in vitro when H-2(d) macrophages were in the cultures. Partially purified T cells from these neonatally treated mice suppressed primary antibody responses by normal syngeneic spleen cells in the presence of H-2(d) but not other allogeneic macrophages. These radiosensitive, haplotype-specific suppressor T (Ts) cells inhibited primary antibody responses by blocking initiation of the response, but failed to suppress secondary antibody responses and mixed lymphocyte or cytotoxic lymphocyte responses by appropriate responding spleen cells. To activate H-2(d) haplotype-specific Ts cells, stimulation with IA(d) subregion antigen(s) was necessary and sufficient; syngenicity at the I-A subregion of H-2 between the activated Ts cells and target responding spleen cell populations was also necessary and sufficient to achieve suppression. Comparable results have been obtained with spleen cells from BALB/c mice injected as neonates with (B10.D2 × C57BL/10)F(1) spleen cells where IA(b) antigens activate the haplotype-specific Ts cells. Implications for the significance of this population of haplotype-specific Ts cells in immune regulation are discussed and the properties of these Ts cells are compared and contrasted with other antigen-specific and nonspecific Ts cells whose activity is restricted by I- region products.

scholarly journals Recombinant Antigen-Enterotoxin A2/B Chimeric Mucosal Immunogens Differentially Enhance Antibody Responses and B7-Dependent Costimulation of CD4+ T Cells

2001 ◽  
Vol 69 (1) ◽  
pp. 252-261 ◽  
Author(s):  
Michael Martin ◽  
George Hajishengallis ◽  
Daniel J. Metzger ◽  
Suzanne M. Michalek ◽  
Terry D. Connell ◽  
...  
Keyword(s):  
T Cells ◽  
B Cells ◽  
Ex Vivo ◽  
Immunoglobulin A ◽  
Chimeric Protein ◽  
Antibody Responses ◽  
Chimeric Proteins ◽  
Binding Region ◽  
Cervical Lymph Nodes

ABSTRACT The ADP-ribosylating enterotoxins, cholera toxin (CT) and theEscherichia coli heat-labile toxin (LT-IIa), have been shown to enhance mucosal and systemic antibody (Ab) responses to coadministered antigens. The purpose of the present study was to compare the ability of the nontoxic A2/B subunits of these toxins, which have distinct targeting properties, to augment the immunogenicity of a genetically coupled protein antigen. Structurally similar chimeric proteins were generated by genetically replacing the toxic A1 subunit of CT or LT-IIa with the saliva-binding region (SBR) from the streptococcal adhesin AgI/II. Intranasal immunization of BALB/c mice with either chimeric protein induced significantly higher plasma and mucosal anti-SBR immunoglobulin A (IgA) and IgG Ab responses than SBR alone. Moreover, compared to SBR–LT-IIaA2/B, SBR-CTA2/B elicited significantly higher levels of plasma IgG1 and salivary IgA anti-SBR Ab responses. Ex vivo and in vitro experiments revealed that SBR-CTA2/B selectively up-regulated B7-2 expression on murine B cells isolated from both the nasal associated lymphoid tissue, cervical lymph nodes, and spleen. In contrast, SBR–LT-IIaA2/B had little effect on B7-1 or B7-2 expression on B220+, CD11b+, or CD11c+ cells. Analysis of the functional costimulatory activity of SBR-CTA2/B-treated B cells revealed a significant enhancement in anti-CD3-stimulated CD4+ T-cell proliferative responses, and this proliferation was significantly reduced by treatment with anti-B7-2 but not with anti-B7-1 or isotype control Abs. Thus, SBR-CTA2/B and SBR–LT-IIaA2/B exhibit distinct patterns of antibody responses associated with differential effects on B7-2 expression and subsequent costimulatory effects on CD4+ T cells.

Antibodies from Donor B Cells Are Not Required for Initiating but Required for Persisting Scleroderma in Chronic Gvhd

Blood ◽  
2014 ◽  
Vol 124 (21) ◽  
pp. 3817-3817
Author(s):  
Hua Jin ◽  
Xiong Ni ◽  
Ruishu Deng ◽  
James Young ◽  
Heather F Johnston ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Cd4 T Cells ◽  
Conflicts Of Interest ◽  
Chronic Gvhd ◽  
Cell Interaction ◽  
Spleen Cells ◽  
Littermate Control ◽  
Inflammatory Status

Abstract We recently reported that in a chronic graft versus host disease (GVHD) model of DBA/2 donor to MHC-matched BALB/c recipient, donor CD4+ T and B cell interaction resulted in not only hyperglobulinemia and glomerulonephritis but also scleroderma (J. Immunol. 2012). It is well known that glomerulonephritis is caused by immune complex deposition. However, the role of antibodies from donor B cells in the pathogenesis of scleroderma remains unclear. To address this question, we generated DBA/2 mice whose B cells have APC function but cannot secrete antibodies by backcrossing IgHµg1 mice from Dr. Rajewsky’s lab (JEM 2007). We observed that, while transplanting T-cell-depleted bone marrow (TCD-BM) and spleen cells from littermate control mice induced proteinuria and scleroderma, transplanting BM and spleen cells from IgHµg1 DBA/2 mice induced no proteinuria, but the recipients developed scleroderma ~35 days after HCT. Interestingly, the scleroderma gradually recovered ~55 days after HCT. 40 days after HCT, scleroderma recipients transplanted with WT spleen cells (Rec-WT) or recipients transplanted with IgHµg1 spleen cells (Rec-IgHµg1) both had high percentage (~12%) of IFN-g+ or IL-17+ CD4+ T cells in the peripheral lymph node (PLN) and skin tissues, as compared to that (~3%) of GVHD-free recipients given TCD-BM alone (Rec-TCD). While Rec-WT had severe reduction of CD4+CD8+ thymocytes, the Rec-IgHµg1 had no reduction of the thymocytes, as compared to that of Rec-TCD. By day 60 after HCT, the Rec-WT with ongoing scleroderma still had ~10% IFN-g+ or IL-17+ CD4+ T cells in the PLN and skin tissues; in contrast, although the Rec-IgHµg1 with reversal of scleroderma still had >10% IFN-g+or IL-17+ CD4+ T cells in the PLN, those cells in the skin had reduced to <2%. This reduction was associated with DC upregulation of B7H1 and T cell upregulation of PD-1. These results suggest that antibodies from B cells are required for maintaining inflammatory status of tissue DCs and persistence of scleroderma in chronic GVHD. (This work was supported by NIH R01 AI066008). Disclosures No relevant conflicts of interest to declare.

scholarly journals A natural model of immunologic tolerance. Tolerance to murine C5 is mediated by T cells, and antigen is required to maintain unresponsiveness.

1982 ◽  
Vol 156 (2) ◽  
pp. 567-584 ◽  
Author(s):  
D E Harris ◽  
L Cairns ◽  
F S Rosen ◽  
Y Borel
Keyword(s):  
T Cells ◽  
T Cell ◽  
B Cells ◽  
Lymphoid Cells ◽  
Immunologic Tolerance ◽  
Secondary Response ◽  
Spleen Cells ◽  
Physiological Concentration ◽  
Significant Drop ◽  
Natural Form

A unique experimental model is described, where natural immunologic tolerance to a well-defined soluble native antigen (murine C5) is examined in congenic strains of mice that differ only by the presence or the absence of C5. A highly sensitive hemolytic assay was developed to detect nanogram amounts of C5 as well as an assay of anti-C5 inhibition of C5 hemolytic activity. The latter was more sensitive than immunodiffusion. Two reciprocal approaches were used to study the cellular basis of tolerance in irradiated hosts of either strain. In the first, lymphoid cells from either strain were transferred to irradiated B10.D2OSN hosts that were lacking C5 and so would not hinder detection of anti-C5 antibody upon challenge with murine C5. Second, lymphoid cells from either strain were transferred to irradiated B10.D2NSN hosts, whose native C5 provided the antigenic stimulus. The immune response of whole nonadherent spleen cell suspension as well as mixtures of T and B cells (separated on the basis of surface immunoglobulin) from either strain were studied. In addition, the duration of tolerance and the antigen requirement to maintain it in irradiated C5-deficient hosts repopulated with C5-sufficient spleen cells was examined. The positive control of irradiated C5-deficient hosts repopulated with syngeneic spleen cells showed a primary and secondary response to immunization. In contrast, C5-sufficient spleen cells failed to respond both in the primary and the secondary response. Because the unresponsiveness was not caused by antigen carryover and was not antigen specific, it represents central tolerance. In C5-sufficient irradiated hosts (where immunization was not required and antigen was present in natural form and physiological concentration), transfer of C5-deficient cells mediated a drop in C5 levels to 10-20% of that noted in unreconstituted controls. T and B cell mixing experiments from the two strains into deficient or sufficient hosts demonstrated that tolerance is T cell dependent and that C5-sufficient or -deficient B cells could cooperate with nontolerant C5-sufficient T cells to produce significant anti-C5 antibody or mediate a significant drop in C5 levels. In addition, the presence of antigen was necessary to maintain tolerance. In conclusion, these results show that (a) natural tolerance to C5 is an active process that is T cell dependent and requires the presence of antigen; (b) in this natural model, clonal abortion does not seem to occur; and (c) both tolerant and nontolerant B cells retain the capacity to produce autoantibody.

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