Immunoregulatory abnormalities in autoimmune thyroid diseases

We have investigated the ability of lymphocytes from normal subjects and patients with autoimmune thyroid diseases to respond to a thyroidal antigen (human thyroglobulin, hTG) and a non-thyroidal antigen (Keyhole limpet hemocyanin, KLH) in vitro, using a hapten (trinitrophenol, TNP)-carrier system. This system is based on the concept that the T helper cells which respond to hTG or KLH should stimulate anti-TNP antibody producing B cells in the presence of TNP conjugated hTG (TNP-hTG) or KLH (TNP-KLH). After 5 or 6 days of culture of peripheral blood mononuclear cells with pokeweed mitogen (PWM), PWM and TNP-hTG, or PWM and TNP-KLH, IgM anti-TNP and IgM anti-sheep red blood cell (SRBC) plaque forming cells (PFC) were enumerated. The results showed that (1) in normal controls, hTG caused only suppression in both TNP and SRBC response, and KLH caused dose-related enhancement and suppression in TNP response without a change in SRBC response, and (2) in patients, both hTG and KLH resulted in dose-related enhancement in TNP response without a change in SRBC response. These data suggest that patients with autoimmune thyroid diseases have regulatory cell abnormalities confined to a thyroid antigen.     

Cellular immunity in man: correlation of leukocyte migration inhibition factor formation and delayed hypersensitivity

The formation of leukocyte migration inhibition factor (MIF) by the lymphocytes of 13 normal persons immune to the protein antigen keyhole limpet hemocyanin (KLH) has been investigated. KLH-induced MIF formation expressed as percent migration was compared with delayed hypersensitivity, antibody, and in vitro lymphocyte blastogenic responses to this antigen. Individuals were studied 404–840 days (median 540 days) after their last exposure to KLH. Nine persons had delayed hypersensitivity to KLH and 10 had circulating KLH antibody. The lymphocytes of 11 showed an in vitro blastogenic response to KLH stimulation, while the lymphocytes of nine produced MIF after KLH stimulation. The mean percent migration for the subjects with KLH delayed hypersensitivity was 48.2 (range 20.4–70.4) compared with 133 (range 120–161) for the four persons who did not have KLH delayed hypersensitivity (P < 0.05). The correlation coefficient between the precent migration and delayed hypersensitivity was ?0.78 (P < 0.01). No correlation was demonstrated between migration inhibition and the other parameters of immunity.     

In vitro immunization to KLH. II. Limiting dilution analysis of antigen-reactive cells in primary and secondary culture

Limiting dilution analysis was used to estimate the frequency of human peripheral blood T lymphocytes that proliferate in response to in vitro immunization with keyhole limpet hemocyanin (KLH). Antigen-reactive cells (ARC) were estimated 9 days after primary immunization with KLH. The ARC frequency of lymphocytes from 12 subjects ranged from 1:23,800 to 1:52,631. Lymphocytes from five of these subjects were also primed for 12 days with KLH, rechallenged in secondary culture with fresh adherent cells and KLH, and assayed 4 days later. The ARC frequency increased to 1:1,123 to 1:7,247, indicating that T cell clones responsive to KLH had expanded during primary culture. In addition, we observed that the proliferative response of lymphocytes from 5 of the 12 subjects were inhibited at high cell concentrations. Depletion of OKT8+ T cells before culturing with KLH however did not alter the inhibitory effect of high concentrations of T cells.     

Immunological memory is compromised by food restriction in deer mice Peromyscus maniculatus

The immune system protects organisms against infection, but this protection presumably comes at a cost. Here, we asked whether food restriction would compromise the ability of an organism to generate an immune response on reexposure to an antigen, which would represent a functional cost of immunological memory. Immunological memory is generated when B and T lymphocytes sensitive to components of pathogens (i.e., antigens) proliferate after exposure and persist in circulation to hinder reinfection. To test the possibility that B cell memory, the component of the immune system responsible for antibody production, is expensive to maintain, secondary antibody production against a novel protein [keyhole limpet hemocyanin (KLH)] was compared in food-restricted and ad libitum-fed male deer mice (Peromyscus maniculatus). To determine whether compromised secondary antibody production was solely due to elevated corticosterone independent of resource availability, some food-restricted and ad libitum-fed mice were subjected to unpredictable, chronic (2 h/day) restraint. Mice fed 70% of their ad libitum diet 2 wk after primary antigen challenge produced approximately 95% less IgG against KLH after a second antigen challenge than mice fed ad libitum, even though all mice were fed ad libitum during the secondary antibody response period. Restraint had no effect on secondary IgG production in response to KLH, and corticosterone concentrations 1 day after food restriction did not differ between food-restricted and ad libitum-fed mice. Together, these data imply that secondary antibody responses and the benefits of immunological memory are energetically costly in this species.     

Activation and immunoregulation of antigen-specific human b lymphocyte responses: multifaceted role of the monocyte

The multifaceted role of the monocyte in the induction and modulation of antigen-specific antibody responses by human B cells was delineated. Monocytes were absolutely required for the induction of specific antibody responses to both TT and KLH in an antigen-induced in vitro assay. Monocytes were also required for the PWM induction of specific antibody in immunized subjects. Pulsing monocytes with specific antigen or with PWM consistently stimulated proliferation of T cells in absence of added antigen and could also stimulate specific antibody synthesis although less consistently. Stimulation of specific antibody responses with antigen required fewer numbers of monocytes than did stimulation of specific antibody responses with PWM. Polyclonal antibody synthesis induced by PWM was also dependent on monocytes. However, polyclonal antibody synthesis induced by supraoptimal concentrations of antigen was usually optimal in the absence of monocytes and was actually suppressed when increased numbers of monocytes were added to monocyte-depleted cultures. Monocyte supernatants could not replace the absolute requirements for monocytes in the induction of specific antibody synthesis. However, monocyte supernatants could profoundly modulate the antigen-specific as well as the polyclonal Ig response of lymphocytes to either antigen or PWM stimulation in a manner closely resembling monocytes themselves. Thus, we demonstrated that monocytes and their products play a critical role in the activation and immunoregulation of antigen-specific antibody responses of human B cells.     

Generalized systemic and mucosal immunity in mice after mucosal stimulation with cholera toxin

Cholera toxin (CT) has been found to be an extremely potent immunogen for mucosal IgA responses when administered via the intestine. This study has examined both mucosal and systemic immune responses after feeding CT and compared these responses with those obtained after feeding keyhole limpet hemocyanin (KLH), another protein that is strongly immunogenic in mice. Feeding CT to mice resulted not only in IgA antibody in intestinal secretions but also resulted in substantial plasma IgG and IgA antibody levels. Feeding KLH in much larger quantity resulted in little or no antibody response in intestinal secretions or plasma. Lymphoid cells from various tissues of mice fed CT were cultured in vitro for 10 days and the supernatant was tested for antibody to CT. Spontaneous antibody synthesis (no antigen added to cultures) was present in cultures of each cell type, but IgG anti-CT was found mainly in cultures of spleen and mesenteric lymph node cells and IgA anti-CT mainly in cultures of Peyer's patch and lamina propria cells. Peyer's patch cells cultured with CT as antigen synthesized both IgG and IgA anti-CT, suggesting that the antibody response to both isotypes originated in this site. Helper T cell activity for both IgA and IgG anti-CT was detected in spleens, mesenteric lymph nodes, and Peyer's patches. Lastly, when KLH and CT were fed to mice at the same time, an intestinal IgA anti-KLH and plasma IgG anti-KLH response was stimulated, a response pattern similar to that occurring to CT after CT was fed alone. We conclude that mucosal stimulation by CT generates both a systemic IgG and mucosal IgA response to this antigen, and that CT can cause a similar pattern of response to an unrelated protein antigen when both are administered into the intestine at the same time. The data favor the idea that both the IgG and IgA responses originate in GALT and then disseminate to other tissues. We propose that CT accomplishes these effects by altering the regulatory environment within GALT.     

Regulation of the in vitro anamnestic antibody response by cyclic AMP: I. Antigen-induced uptake of nucleotides and nucleosides by lymphocytes

Addition of N⁶, O²′-dibutyryl cAMP (DbcAMP) to keyhole limpet hemocyanin (KLH)-primed rabbit lymph node cells for 1 hr, followed by its removal and the addition of KLH, had no effect on the subsequent antibody response, whereas addition of KLH for 1 hr followed by DbcAMP resulted in a 100% enhancement of antibody synthesis. Addition of cholera enterotoxin (CT), which rapidly and irreversibly binds to lymphocytes and activates adenylate cyclase, either before or after the addition of antigen, elevated the antibody response by 100%. These results suggested that some antigen-induced event(s) may be required for DbcAMP to exert its enhancing effects on the antibody response. The effect of KLH on the uptake of DbcAMP by KLH-primed lymph node cells was investigated. One and one hundred micrograms of KLH, which induce optimal and supraoptimal antibody synthesis, respectively, promoted maximal uptake of DbcAMP. This induced uptake was first detectable about 12 hr after addition of KLH, and it peaked during 24–48 hr of culture. DbcAMP uptake induced by a brief exposure of KLH (0–1 hr) was equivalent to that observed with long-term KLH addition (0–24 hr). KLH-induced DbcAMP uptake required KLH-reactive lymphocytes and represented active transport. Antibody to rabbit T lymphocytes inhibited this antigen-induced uptake. The mitogens concanavalin A (Con A) (T cells) and goat anti-rabbit Fab' (anti-Fab') (B cells) also stimulated DbcAMP uptake, as did human serum albumin (HSA) and myoglobulin (Mb) when added to homologously primed cells, indicating the generality of the phenomenon. [³H]DbcAMP entered the cells as di- or monobutyryl cAMP with about 40% metabolized to 5′AMP. This uptake could be competitively inhibited by other adenine or guanine nucleotides and nucleosides.     

Development of an antigen-specific CD8 suppressor effector clone in man

A long-term cultured IL-2-dependent keyhole limpet hemocyanin (KLH)-specific CD8 (T8) suppressor clone (5B9) was generated from a healthy donor hyperimmunized with KLH. The 5B9 clonal population suppressed in vitro anti-KLH antibody response but did not suppress anti-TT antibody response or PWM-driven IgG synthesis. Moreover, 5B9 cells could not suppress anti-TT antibody response even in the presence of free KLH. 5B9 cloned cells suppressed the anti-KLH antibody response of B cells cultured with CD4+4B4+ cells without requiring the presence of CD8+ cells. This KLH-specific CD8 suppressor clone is an effector type rather than an inducer type of suppressor T cell. The cloned cells expressed alpha- and beta-TCR proteins (defined by WT-31 antibody) on their cell surface. More importantly, the CD3:TCR complex was functionally important in the suppression induced by this clone, because after CD3 antigen modulation from its cell surface, the suppressor effector function was abolished.     

Generation of hybridomas producing human monoclonal antibodies against human cytomegalovirus

In vitro stimulation of human lymphocytes were studied in connection with cell fusion. When splenic lymphocytes were stimulated with human cytomegalovirus (CMV), they produced IgG but not IgM antibody against CMV. The stimulation with 50 ng/ml of CMV antigen induced the maximum antibody response, and higher concentrations of CMV antigen decreased antibody response and increased nonspecific IgG production. Human splenic lymphocytes were stimulated for 6 days with CMV antigen (50 ng/ml) and/or B-cell growth factor (BCGF), and then fused with mouse myeloma cells. Stimulation with a combination of antigen and BCGF were able to generate CMV-specific hybridomas synergistically. Two of these hybridomas were cloned by limiting dilution. The human monoclonal antibodies produced by them, C1 and C23, bound to CMV but not to other herpesviruses. C23 neutralized virus infectivity C1 did not at all. This method for generation of hybridomas producing human monoclonal antibodies against a predefined antigen may be applicable to a variety of viral antigens.     

Specific killing of lymphocytes that cause experimental autoimmune myasthenia gravis by ricin toxin-acetylcholine receptor conjugates

Experimental autoimmune myasthenia gravis (EAMG) is an autoimmune disease in which antibodies to acetylcholine receptor (AChR) cause loss of AChR from muscle, thereby impairing neuromuscular transmission. Here we report the use of a hybrid molecule that contains ricin toxin, irreversibly coupled to AChR to specifically suppress the immune response to AChR in vitro. Lymph node cell cultures from rats with EAMG pretreated with ricin toxin-AChR conjugates exhibited suppressed T helper cell proliferation and B cell antibody synthesis in response to the subsequent addition of AChR. Nonspecific toxicity of the conjugates was measured by suppression of the T cell proliferative response to the mitogen concanavalin A and the antigen keyhole limpet hemocyanin (KLH), and B cell antibody production to KLH. We have evaluated different pretreatment conditions and ricin toxin covalently coupled to AChR in different molar ratios to optimize specific immunosuppression. By varying the number of ricin molecules covalently bound to AChR in the immunotoxin, we were able to minimize the nonspecific toxicity while still maintaining specific killing of AChR-reactive lymphocytes. Furthermore, B cells were more susceptible to specific killing than were the T cells. The specific immunosuppression was potentiated by performing the pretreatment with immunotoxin in the presence of chloroquine. Chloroquine raises lysosomal pH and probably delays the degradation of immunotoxin in the cell. It should be noted that ricin toxin was covalently coupled to AChR by using a novel, non-reducible reaction. These in vitro results suggest that it may be feasible to use immunotoxin molecules to specifically suppress this autoimmune response in vivo.     

Influence of age and physical activity on the primary in vivo antibody and T cell-mediated responses in men.

The aging immune system is characterized by the progressive decline in the antibody and T cell-mediated responses to antigen. Little is known, however, about the benefits of exercise in aging on the generation of a primary immune response to antigen and the subsequent antibody and memory T cell-mediated response. Most in vivo immune research to date has utilized vaccines or recall antigens to elicit an immune response. Therefore, the purpose of this experiment was to examine the association of aging and physical activity on the primary antibody and T cell response to the novel protein antigen keyhole-limpet hemocyanin (KLH). Forty-six physically active and sedentary, young (20-35 yr) and older (60-79 yr) men were recruited. Subjects were intramuscularly immunized with 100 microg of KLH, and blood samples were collected at days 0, 7, 14, 21, and 28. Samples were measured for anti-KLH IgM, IgG, IgG1, and IgG2 by ELISA. On day 21 after intramuscular KLH administration, subjects received an intradermal injection with 1 microg of KLH of inflammation recorded at 24, 48, 72, 96, and 120 h to assess anti-KLH delayed-type hypersensitivity response. There was a significant reduction in all anti-KLH measures with aging except for anti-KLH IgG2. The physically active older group had significantly higher anti-KLH IgM, IgG, IgG1, and delayed-type hypersensitivity responses, but not IgG2 compared with the sedentary older group. In conclusion, regular physical activity in older men is associated with a more robust immune response to novel antigenic challenge.     

Induction of antigen-specific antibody response in human peripheral blood lymphocytes in vitro by a dog kidney cell vaccine against rabies virus (DKCV)

In the present report an in vitro method for obtaining a secondary human antibody response to a dog kidney cell vaccine against rabies virus (DKCV) is described. Cultures of peripheral blood mononuclear cells from normal rabies-immune and nonimmune donors were stimulated in vitro by DKCV. The production of virus-specific antibody in supernatant fluids was monitored by ELISA. Antibody was produced by lymphocytes from rabies-immune individuals, whereas those of nonimmune subjects consistently failed to produce anti-rabies antibodies after in vitro stimulation with DKCV. The generation of the anti-rabies virus antibody response of lymphocytes stimulated with DKCV was shown to be an antigen-dependent, as well as an antigen-specific process. Optimal antigen-specific responses were observed at relatively low concentrations of antigen (10(-1) to 10(-2) micrograms/culture). At increasing concentrations of antigen in culture (greater than 1 microgram/culture), the anti-rabies virus response was suppressed. Antibody produced upon stimulation was capable of neutralizing rabies virus. The response to rabies virus requires T cell help because lymphocytes depleted of SE rosetting cells did not respond to an antigenic stimulus. Studies in which the same individuals were followed over time showed a sequential development of circulating B cell subsets. The system may provide a model for the study of human B cell differentiation in vivo and in vitro and may be valuable for testing the potency of rabies vaccines in vitro.     

The neutrophil granule protein cathepsin G activates murine T lymphocytes and upregulates antigen-specific IG production in mice

Cathepsin G is a neutrophil granule derived antimicrobial chymotrypsin-like enzyme. Our previous study showed that cathepsin G induces chemotactic migration of human phagocytic leukocytes and increases random migration of T lymphocytes. In this study, we investigated the capacity of cathepsin G to activate T lymphocytes and to modulate antigen-specific humoral responses in mice. We found that cathepsin G is mitogenic for and induces production of IFN-gamma by murine T cells in vitro. Injection of cathepsin G in BALB/c mice immunized with keyhole limpet hemocyanin (KLH) adsorbed to aluminum hydroxide resulted in a significantly increased production of KLH-specific IgG1 and IgG2a antibodies. There was a dose-dependent increase in KLH-specific proliferation of lymphocytes from draining lymph nodes from mice treated with KLH and cathepsin G when compared with those treated with KLH alone. Subsequent analysis of IFN-gamma and IL-4 release following in vitro re-stimulation of draining lymph node lymphocytes obtained from KLH-immunized mice suggested that cathepsin G augments KLH-specific Ig antibody production via activation of T cells, presumably involving both Th1 and Th2 pathways. Thus, neutrophil granule cathepsin G, in addition to its capacity to kill microbes and to enhance leukocyte motility, activates T lymphocytes and modulates humoral immunity.     

Ontogeny of Adaptive Antibody Response to a Model Antigen in Captive Altricial Zebra Finches

Based on studies from the poultry literature, all birds are hypothesized to require at least 4 weeks to develop circulating mature B-cell lineages that express functionally different immunoglobulin specificities. However, many altricial passerines fledge at adult size less than four weeks after the start of embryonic development, and therefore may experience a period of susceptibility during the nestling and post-fledging periods. We present the first study, to our knowledge, to detail the age-related changes in adaptive antibody response in an altricial passerine. Using repeated vaccinations with non-infectious keyhole limpet hemocyanin (KLH) antigen, we studied the ontogeny of specific adaptive immune response in altricial zebra finches Taeniopygia guttata. Nestling zebra finches were first injected at 7 days (7d), 14 days (14d), or 21 days post-hatch (21d) with KLH-adjuvant emulsions, and boosted 7 days later. Adults were vaccinated in the same manner. Induced KLH-specific IgY antibodies were measured using ELISA. Comparisons within age groups revealed no significant increase in KLH-specific antibody levels between vaccination and boost in 7d birds, yet significant increases between vaccination and boost were observed in 14d, 21d, and adult groups. There was no significant difference among age groups in KLH antibody response to priming vaccination, yet KLH antibody response post-boost significantly increased with age among groups. Post-boost antibody response in all nestling age groups was significantly lower than in adults, indicating that mature adult secondary antibody response level was not achieved in zebra finches prior to fledging (21 days post-hatch in zebra finches). Findings from this study contribute fundamental knowledge to the fields of developmental immunology and ecological immunology and strengthen the utility of zebra finches as a model organism for future studies of immune ontogeny.     

In vitro anamnestic immune responses and modulating factors

Summary The term anamnestic refers to the specific and enhanced immune responses of antigen-immunized (primed) lymphoid memory cells to secondary challenge with a foreign substance (antigen). These responses include the accelerated and quantitatively greater syntheses of antibody and other macromolecules than upon primary challenge of such cells. Rabbits were primarily immunized with keyhole limpet hemocyanin (KLH). Six days later their memory lymph node cells (LNC) were removed, and upon culture with KLH, responded with the synthesis of antibody, immunoglobulin (Ig), protein, DNA and RNA, as well as with active transport of dibutryl cyclic AMP (DbcAMP). Purified thymus-derived (T) LNC were prepared on anti-rabbit Ig affinity columns. Bursal-equivalent (B) cells were prepared by binding to a complex of sheep erythrocytes (SRBC)-antibody to SRBC-complement and centrifugation of these complexes on suitable gradients. When these T and B KLH-primed LNC were mixed and challenged with KLH the aforementioned macromolecular syntheses and active transport occurred. Indeed, by a variety of criteria, the reconstituted anamnestic immune responses were indistinguishable from these responses of unfractionated LNC. Antigenic stimulation of KLH-primed T cells induced the synthesis of proteins and DNA, but not antibody, but antigenic challenge of KLH-primed B cells did not evoke these syntheses. However, added KLH induced a mixture of T and B antigen-primed LNC to synthesize more protein, Ig, DNA than either population alone and more antibody than T cells per se; B cells required help for all of these responses. The thymus (T) cell-dependent phase of in vitro anamnestic antibody response lasted the first 24–36 hr.The antibody response was regulated by antigen-concentration. One g KLH evoked maximal antibody synthesis, 10 and 100 g KLH much less. Challenge of the separated T and B cell populations with different KLH concentrations, followed by recombination and eventual assay of antibody synthesis revealed different optima. The optimal concentration for T cell help was 0.01–0.1 g KLH; higher amounts induced much less antibody production. The optimum for B cells was 1–10 g KLH; 100 g inhibited antibody formation.The antibody response to KLH and human serum albumin (HSA) was regulated nonspecifically utilizing LNC from rabbits immunized simultaneously with these two antigens. Thus stimulation of LNC from these rabbits with either antigen induced the synthesis of antibodies to both antigens. HSA and KLH did not cross-react either serologically or cellularly. Cross-stimulation of antibody synthesis also was observed when rabbit LNC were primed with KLH and Mb. However, in this instance, cross-reaction between KLH and sperm-whale myoglobulin (Mb) was observed at the cellular, presumably the T cell, level, although not at the antibody (B cell) level. The antibody response could also be modulated by exogenous cholera enterotoxin (CT), dibutyryl cyclic AMP (DbcAMP) and prostaglandins of the E series. The addition of each substance together with 1–100 g KLH to KLH-primed LNC enhanced the antibody response many-fold. CT-induced non-immunized LNC to produce soluble factor(s) (SF) which, when added to KLH-primed LNC together with KLH, enhanced antibody synthesis significantly. The addition of Indomethacin, an inhibitor of PGE synthesis to KLH-immunized cells together with KLH inhibited antibody production, suggesting that PGE was involved in this response. Evidence was adduced that neither cyclic AMP nor PGE was required for the antibody response: Ca²⁺ was not required for induction of this response by KLH, but only its regulation by cAMP.Moreover, when KLH-primed LNC were fractionated on Nylon columns, the effluent cells were induced by KLH to synthesize antibody, but this synthesis was not enhanced by added DbcAMP or PGE; presumably, regulatory cells were removed on the column. Added KLH induced PGE synthsis in these cultures; this synthesis required macrophages. In all of the LNC cultures — including cultures from rabbits immunized with KLH, HSA, and MB months or a year earlier — much antibody synthesis occurred even when antigen was not added to the cultures. This spontaneous antibody was anamnestic, thymus (T cell)-dependent and involved the interaction of residual immunogen on dendritic cells with T and B memory cells. This spontaneous antibody response provides a model for the study of the factors involved in the longterm maintenance of humoral immunity.Mb was employed as a source of more refined antigenic determinants. Rabbits were immunized with Mb in complete Freunds adjuvant. The addition of small synthetic peptides corresponding to the five antigenic sites of Mb to the Mb-primed LNC induced the synthesis of antibody, Ig, protein, DNA, RNA, and macrophage migration inhibitory factor (MIF). The N terminal 1–6 peptide, which is not antigenic, i.e. does not combine with antibody to Mb, also induced all of these syntheses, except MIF. These peptide-induced responses appeared to be thymus-dependent.Abbreviations AP alum-precipitated - AFab goat IgG antibody to rabbit Fab - ATG goat IgG antibody to rabbit thymocytes - BGG bovine gamma globulin - Bsa bovine serum albumin - BAC bromo acetyl cellulose - B bursalequivalent lymphocytes - CT cholera enterotoxin - CRL complement receptor lymphocytes - DFA complete Freund's adjuvant-, - cAMP adenosine 3:5-cyclic monophosphate - cGMP guanosine 3:5-cyclic monophosphate - DbcAMP N⁶,O²-dibutryl cyclic AMP - EAC sheep erythrocytes sensitized with antibody and complement - FITC fluorescein isothiocyanate - HSA human serum albumin - KLH keyhole limpet hemocyanin - LNC lymph node cells - MEM minimum essectial Eagle's medium - medium; MIF m crophage migration inhibitory factor - Mb sperm-whale myoglobin - PHA phytohemagglutinin - PGE prostaglandins of the E series - PGF prostaglandins of the F series - PGSI inhibitors of prostaglandin systhesis - Slg surface immunoglobulin - T thymus-derived lymphocytes     

In vitro stimulation of natural killer (NK) cells by soluble factor(s) generated in antigen-stimulated rhesus monkey peripheral blood lymphocyte cultures.

Peripheral blood lymphocytes from rhesus monkeys (Macaca mulatta) sensitized to keyhole limpet hemocyanin (KLH), when stimulated in vitro with KLH, developed natural killer (NK) cell activity that was assayed with Rous Sarcoma virus-transformed marmoset fibroblasts as targets in a 4-hr 51Cr-release assay. The supernatant fluids from 24- to 25-hr KLH-activated cultures were capable of stimulating NK development in nonsensitive lymphocyte cultures. The effector cells were neither macrophages nor B cells (plastic and nylon-wool nonadherent) and did not form E-rosettes with neuraminidase-treated sheep red blood cells. Cultures depleted of EA-rosetting cells, i.e., Fc-receptor-bearing lymphocytes, were incapable of generating NK activity when stimulated in vitro. Kinetic studies showed that peak DNA synthesis, as measured by 3H-T incorporation, preceded maximum cytotoxicity. Elimination of dividing cells by 5-bromo-2'deoxyuridine (BrdU) and light treatment during the interval from day 1 to day 4 inhibited the development of cytotoxicity on day 7. Cell replication was required for the induction of NK cells with KLH as well as with antigen-activated culture supernatant fluids. When cultures were left unstimulated for 4 days, NK activity could not be developed subsequently either by adding antigen, mitogen (PHA), or supernatant fluids from activated cultures.     

Antigen-specific human T lymphocyte clones: induction, antigen specificity, and MHC restriction of influenza virus-immune clones

Human peripheral blood lymphocytes from an HLA-Dw1,3 individual were primed in vitro with influenza A virus (A/Texas/1-77/x-49) and subsequently cloned by limiting dilution in TCGF. Of the 96 TLCs originally obtained, nine were characterized in detail. TLCs were antigen specific, responding to influenza A virus, not to influenza B, TGAL, GAT, tetanus toxoid, or KLH, and only when antigen was presented by cells unable to form rosettes with AET-treated SRBC. Presentation of antigen by unseparated PBL often resulted in significant "back stimulation," probably via production of growth factors. The MHC requirements for the induction of TLC proliferation were analyzed. Of four representative clones analyzed, three required Dw1;DR1 compatibility for successful presentation of viral antigens by a panel of antigen-presenting cells. In contrast, one TLC showed an unusual pattern of response that could not be correlated to a particular HLA haplotype. Monoclonal anti-T cell antibody analysis of the surface phenotype of two TLCs maintained in continuous culture for 5 mo indicated that they were OKT3+, 4+, and 8-, consistent with an inducer/helper phenotype. To confirm the clonal nature of TLCs, data on the functional properties of TLC subclones are also presented.     

Evidence for cellular but not serologic cross-reactivity between keyhole limpet hemocyanin and sperm-whale myoglobin.

The addition of keyhole limpet hemocyanin (KLH) to cultures of rabbit lymph node cells (LNC) primed with KLH and sperm-whale myoglobin (Mb) induced the synthesis of antibody to Mb as well as to KLH. Several mechanisms for this heterologous induction were considered. It was established that KLH does not nonspecifically activate rabbit T or B lymphocytes. It was also shown that KLH and Mb do not cross-react serologically by several sensitive and specific criteria. Therefore, it was surmised that heterologous induction of Mb antibody synthesis by KLH was due to cellular cross-reactivity between these proteins. Rabbits were primed by the injection of Mb-complete Freund's adjuvant (CFA), alum-Mb, or alum-KLH, and their LNC challenged with KLH, Mb, and synthetic antigenic sites of Mb. These experiments yielded much and diverse evidence for cellular cross-reactivity between KLH and Mb, and especially between KLH and the Mb peptides: KLH plus Mb-primed LNC evoked enhanced anti-KLH and anti-Mb syntheses. KLH plus KLH-sensitized LNC resulted in a lowered anti-Mb antibody response. Mb added to Mb-educated LNC either enhanced or inhibited the anti-KLH antibody response, depending on whether the priming adjuvant was CFA or alum. The addition of Mb to KLH-primed cells enhanced or inhibited the ensuing anti-Mb antibody synthesis; KLH did not affect or inhibit anti-KLH antibody synthesis. Addition of synthetic Mb antigenic sites to Mb-sensitized LNC elevated or suppressed anti-KLH antibody production, depending on the length of time between priming and in vitro challenge. A mixture of KLH and Mb peptide lowered the anti-Mb antibody response of Mb-educated LNC compared to KLH alone. A combination of KLH and Mb peptide also reduced the anti-KLH antibody synthesis of KLH-primed cells compared to KLH per se. The addition of KLH to Mb-sensitized LNC enhanced their uptake of tritiated thymidine, and their transport of tritiated cyclic AMP and protein synthesis. Added Mb induced the synthesis of protein and nonspecific IgG by KLH-primed LNC; Mb peptides evoked protein synthesis by these cells. It is postulated that cross-reactivity at the T-cell level is responsible for the induction of Mb antibody synthesis by adding KLH to either Mb-primed or KLH/Mb-primed LNC. The implications of these findings with respect to cellular and humoral immunity are discussed.     

Activation of IL-4 and IL-6 secreting cells by antigen

The number, antigenic specificity and phenotype of cells secreting IL-4 and IL-6 in mice immunized with ovalbumin or keyhole limpet haemocyanin (KLH) in Freund's adjuvant (FA) was studied. The frequency of cells producing either of these cytokines began to rise 6 days post immunization, peaked at 11–14 days post-immunization, and fell to background by 21 days. The number of spleen cells secreting IL-6 was higher than the number producing IL-4 at all time points. Boosting elicited an anamnestic response characterized by a significant increase in the number of cytokine secreting cells within 4 days. Cytokine production was induced in multiple strains of normal mice, and was critically dependent on the use of Complete FA in addition to antigen. Immunization induced IL-4 and IL-6 production in vivo while ‘priming’ additional cells to release these cytokines when reexposed to soluble antigen in vitro. The latter response was antigen specific and was dominated by non-B/non-T cells. Those cells may serve to boost the immune response in cases of persistent or repeated antigenic challenge.     

Immunosuppression of T lymphocyte function by fractionated serum from tumor-bearing mice.

Sera from mice with transplanted 3-methylcholantrene-induced tumors have been shown previously to inhibit the function of normal lymphoid cells. When chromatographed on Sephadex G-150, the fraction eluting with immunoglobulin has been shown to inhibit the proliferative response of normal spleen cells to concanavalin A and to inhibit the in vitro antibody response to a T-dependent antigen, but has a lesser effect on the antibody response to a T-independent antigen. This paper deals with studies on the mode of action of the serum factor. The immunoglobulin containing fraction of serum from tumor-bearing mice inhibited the in vitro generation of both allogeneic and syngeneic cytotoxic lymphocytes. Time course studies demonstrate that the serum fraction inhibits the generation of antibody-producing and cytotoxic lymphocytes if added during the first 2 days of a 5-day culture. Serum fractions added after day 2 had no effect on the in vitro response. The serum factor appears to inhibit the generation of specific T cell function during the proliferative stage of development but has no effect on the differentiation stage which leads to either antibody-producing cells or cytotoxic lymphocytes.