Characterization of the human blood lymphocytes that produce a histamine-induced suppressor factor (HSF)

The cells which elaborate a soluble suppressor factor in vitro in response to histamine (histamine-induced suppressor factor or HSF) were partially characterized in the present studies. Human blood T- and B-cell populations were purified by affinity chromatography with rabbit anti-human F(Ab′)₂ and examined for their ability to make HSF. Highly purified populations of T cells, but not B cells, produced HSF in response to varying concentrations of histamine (10^?4 to 10^?4M). The HSF-producing cells were characterized further by means of affinity chromatography with columns containing conjugates of insolubilized histamine as well as by rosette formation with IgG (Tγ)- or IgM (Tμ)-coated ox red blood cells. These studies revealed the following: (a) Cells that synthesize HSF are retained on histamine (but not control) columns; (b) cells with histamine receptors comprise approximately 50% of the Tγ subpopulation but are not found in the Tμ subpopulation; (c) cells not retained by histamine columns have a reduced capacity to develop into suppressor cells following stimulation by concanavalin A or specific antigen (compared to unfractionated or control column passed cells). In addition, it was shown that cells synthesizing HSF predominantly express histamine type 2 receptors: (d)4-Methyl histamine (H₂ agonist), but not 2-methyl histamine (H₁ agonist), was capable of inducing HSF production; (e) cimetidine (H₂ antagonist) inhibited HSF production but chlorpheniramine (H₁ antagonist) did not. Taken together, these experiments suggest that T lymphocytes capable of expressing suppressor function following activation by histamine, specific antigen, concanavalin A, or perhaps through their Fc receptors may either be heterogeneous within the same subpopulation or more likely be the same cell with the complement of receptors described above.     

The effects of histamine on leukocyte migration test in man. I. Demonstration of a LIF production inhibitor (LIF-PI).

The inhibition by BCG of leukocyte migration was abolished by histamine in human donors with a positive tuberculin skin test. This effect was related to two mechanisms: a direct stimulation of polynuclear cell migration by histamine, and the production of a LIF production-inhibiting soluble factor (LIF-PI) by nylon-adherent T lymphocytes with receptors for histamine. This factor was not dialyzable, had a molecular weight below 50,000, and was absorbed on aggregated human immunoglobulins. Cells which produced this factor behaved as suppressors of the in vitro human delayed hypersensitivity reaction.     

Histamine-induced suppressor factor (HSF): effect on migration inhibitory factor (MIF) production and proliferation.

Histamine added in vitro to cultures of sensitized lymphocytes suppresses antigen-induced production of migration inhibitory factor (MIF) and proliferation by these cells. Recent studies have suggested that lymphocytes bearing histamine type-2 receptors play a regulatory role in these in vitro responses. The present studies were undertaken to determine if suppressor function by cells having histamine receptors was mediated through a soluble product. It was found that lymph node cells from nonimmune or immune strain 2 guinea pigs elaborate a nondialyzable factor into the culture supernatant when incubated with 10(-3) to 10(-5) M histamine (histamine-induced suppressor factor of HSF). HSF, when cocultured with sensitized lymphocytes, suppressed their MIF and proliferative responses to antigen. HSF was made by lymphocytes but not macrophages. Its production could be blocked by an H2 receptor antagonist (burimamide) but not an H1 receptor antagonist (chlorpheniramine). Furthermore, the inhibitory effect of HSF was reversible as lymphocytes washed free of the factor after 24 hr and recultured with fresh medium and antigen were able to produce MIF. Gel filtration by Sephadex G-100 chromatography indicated that HSF had an approximate m.w. of 23,000 to 40,000. These results suggest that the release of histamine at the sites of immediate hypersensitivity reactions, possibly by generating HSF activity, may play a regulatory role in the subsequent development of cellular-immune reactions at the same site.     

Functional features of lymphocytes recovered from a human renal allograft

Lymphocytes recovered from a rejected human renal allograft were cultured in vitro for their ability to produce several soluble mediators associated with cellular hypersensitivity as well as a procoagulantlike material. In addition, their response in mixed lymphocyte culture was tested. These lymphocytes were of recipient origin by sex karyotyping. An alteration in their proliferative capacity could be demonstrated by an earlier response in mixed lymphocyte cultures although peak response was essentially unchanged. Cultured supernatants from recipient lymphocytes (recovered from the rejected kidney) contained several mediator activities—macrophage migration inhibitory factor, chemotactic factors for neutrophils and macrophages, a factor mitogenic for lymphocytes, as well as a procoagulant material. These findings extend previous work of others who have demonstrated the presence of lymphocytes infiltrating allografts by showing that these cells are immunologically reactive in vitro.     

In vivo and in vitro evaluation of cell-mediated immunity in patients with paracoccidioidomycosis

The cellular immune response to specific and nonspecific agents was investigated. both in vivo and in vitro, in 19 patients with paracoceidioidomycosis. In addition, the immunologic study of an investigator aceidentally inoculated with P. brasiliensis was included in this study. Nearly half of the patients showed depressed cell-mediated immune responses, as evaluated by intradermal tests with an antigenic preparation from P. brasiliensis (P.b.Ag.), ubiquitous antigens, and by the ability to develop sensitization to 2,4-dinitrochlorobenzene. A similar proportion of impaired responses was observed when the patients' lymphocytes were cultured with phytohemagglutinin (PHA). C'. albicans antigen and P.h.Ag. A factor was detected in the plasma of some patients which reduced the ability of patients' and normal lymphocytes to undergo blastic transformation. A positive correlation was found between the ability to develop delayed cutaneous hypersensitivity reactions to P.b.Ag. and other ubiquitous antigens, normal in vitro responsiveness to PHA and the absence of humoral blastogenic inhibitory factor. The inhibition of leukocyte migration, but not lymphocyte transformation, correlated positively with delayed hypersensitivity. The percentage of T lymphocytes was significantly reduced in the group of patients, being the absolute number and percentage of B cells bearing receptors tor complement normal. Two polar immunological patterns emerged. One characterized by positiveness in the skin test to P.b.Ag. and lack of significant abnormalities in cellular immunity, and another anergic to P.b.Ag., with cell mediated immunity severely depressed. Between the two polar groups, there were patients with intermediary patterns of immune response. This paper also includes the results obtained with the administration of transfer factor and levamisole to some of the patients.     

Histamine-induced suppressor factor (HSF): further studies on the nature of the stimulus and the cell which produces it.

Guinea pig lymphocytes are stimulated by histamine to produce a soluble factor with immunosuppressive properties. This factor, termed histamine-induced suppressor factor or HSF, abrogates the production of migration inhibitory factor (MIF) and proliferative response to specific antigen. In the present study we have determined the lymphocyte subpopulation which elaborates HSF, the lymphoid tissue source, the kinetics of its generation in relation to immunization, and the nature of the histamine receptor involved in modification of the release of HSF. HSF activity could be detected in populations of cells from spleen and lymph nodes prior to active immunization of the donor, but not in cells from the donor's blood or thymus. Following immunization with ortho-chloro benzoyl-bovine γ-globulin in complete Freund's adjuvant (CFA), more HSF activity was detected in cells from the donor's spleen and lymph nodes. The peak response was seen 2 weeks postimmunization when significant amounts of HSF also were made by cells from the blood and thymus. Concentrations of T-cell-enriched and B-cell-enriched populations were tested for their ability to make HSF. We found that T-cell-enriched, but not B-cell-enriched populations, made significant amounts of HSF. Cells from the lymph nodes of immunized donors were chromatographed over affinity columns made of insolubilized conjugates of histamine with albumin. The nonretained cells were unable to generate HSF, whereas HSF activity was detected in the cells that were retained by the columns. This finding strongly suggests that the HSF-producing cells have receptors for histamine. Cells from CFA-immune lymph nodes were incubated with H₁ (2-methyl histamine) and H₂ (4-methyl histamine) agonists to determine their relative potency and, therefore, the nature of the histamine receptors on these cells that were modifying HSF release. Although both agonists could induce generation of HSF when high concentrations (10^?3M) were used, only the H₂ agonist stimulated production or release of HSF at lower concentrations (10^?5M). These HSF-producing cells appear to be selectively sensitive to H₂ agonists and likely have a predominance of H₂ receptors. Allergic mediators other than histamine were studied to determine their ability to allow elaboration of HSF-like activity from CFA-immune lymph node cells. Serotonin (10^?3M), slow-reacting substance of anaphylaxis (100 units/ml), eosinophil chemotactic factor (tetrapeptide; 10^?5M), and prostaglandin E₁ (10^?4M) were unable to induce HSF-like activity in lymph node cells from donors immunized with CFA. Furthermore, other agents which raise intracellular levels of cyclic adenosine 3′,5′-monophosphate (cyclic AMP) such as isoproterenol and cholera toxin, as well as the dibutyryl form of cyclic AMP itself, were also unable to generate HSF-like activity. Thus, histamine is unique among the allergic mediators in stimulating elaboration of the suppressive substance. These findings also suggest that the ability of histamine to stimulate HSF may not reside in the conventional pathway linked to cAMP accumulation, but rather to an as yet undefined pathway of cell activation. A model is presented which further implicates histamine as a modulator of cellular immune reactions.     

Functional activation of immune lymphocytes by antigenic stimulation in cell-mediated immunity. III. A soluble factor released from LPS-stimulated peritoneal adherent cells effective in antigenic activation of sensitized lymphocytes.

Antigen-induced production of migration inhibitory factor (MIF) by sensitized lymphocytes requires macrophages to effectively stimulate lymphocytes with soluble antigen in vitro. The present study showed that macrophage-depleted lymphocytes of sensitized guinea pigs could be activated with antigens when the culture supernatant of peritoneal adherent cells pulse-stimulated with a macromolecular fraction of bacterial lipopolysaccharide (LPS) was added to the lymphocyte culture. The apparent macrophage-replacing activity was found in the fraction which emerged slightly ahead of serum albumin upon gel filtration of the culture supernatant, and the activity was shown to be destroyed by heating at 65 °C for 30 min or by trypsin digestion. These results appeared to show that the activity was due to a protein component, most probably released from macrophages. Two-step culture experiments revealed that the soluble factor should be present in the early stage of the culture to activate the macrophage-depleted immune lymphocytes with antigen, as well as in the later stage when the presence of antigen in the medium is no longer required. Furthermore, the factor was shown to act in the activation of a T-cell-enriched fraction of immune lymphocytes. The factor appeared to be playing some essential role in making an antigenic stimulus effective for the activation of immune lymphocytes.     

The role of immunoglobulin receptors on lymphocytes in production of MIF in guinea pigs

The effect of anti-guinea pig IgG sera and anti-rabbit light kappa chain serum on the capacity of sensitized lymphocytes of guinea pigs to production of migration inhibitor factor (MIF) was investigated. The lymph node cells, thymocytes and circulating lymphocytes taken from dinitrophenyl- (DNP) sensitized guinea pigs were preincubated with antisera against gamma₁ + gamma₂ globulins, gamma₁ globulins, gamma₂ globulin, light kappa chains or normal rabbit serum as control and stimulated with antigen in vitro to production of MIF. The inhibitory effect of lymphocyte culture supernates on the migration of guinea pig normal macrophages was determined by capillary tube test. It was found that all the anti-immunoglobulin sera used suppressed, in varied degree, the release of MIF by sensitized lymphocytes. It is suggested that the suppressive influence of anti-IgG sera reflects their blocking effect on surface receptors specific for antigen.     

N-Acetylcysteine inactivates Migration Inhibitory Factor and Delayed Hypersensitivity Reactions

In vitro studies suggest that delayed hypersensitivity follows the production of migration inhibitory factor (MIF) by sensitive lymphocytes in the presence of specific antigen. This factor arrests the migration of macrophages in vitro and in vivo. After attraction, aggregation and activation in vivo, these bystander cells produce toxic substances which induce the local reaction¹. When lymphocytes from tuberculin (PPD) sensitized guinea-pigs were incubated with PPD, cell-free supernatant fluids of the cultures contained MIF². Such migration inhibitory fluids injected intradermally with PPD, into PPD-sensitive animals, enhanced the delayed hypersensitivity reaction³. Concentrated migration inhibitory supernatant fluids injected intradermally into unsensitized animals produced local reactions of induration and erythema within 6 h; reactions reached a maximum after 16 h. Histologically there was an infiltrate of mononuclear cells at the site of injection and neutrophils and eosinophils were also present¹.     

A nonspecific inhibitor of leukocyte migration in serum from rats bearing large fibrosarcomata.

A 3 M KCl crude extract of the syngeneic benzpyrene-induced fibrosarcoma termed BP 238 specifically inhibits migration out of glass capillary tubes of immune spleen cells from tumor amputee and small tumor-bearing rats, as does supernatant medium from tumor cells grown in culture. Serum from rats bearing small (< 2 cm³) tumors does not inhibit migration of immune spleen cells, while serum from rats with larger tumors (>4 cm³) nonspecifically inhibits migration of both immune and nonimmune spleen cells, thoracic duct lymphocytes, and thymocytes. This nonspecific inhibition increases with increasing tumor size, does not correlate with the presence of bacterial infection, and is presumably due to a circulating factor produced in vivo during tumor growth. Production of macrophage inhibitory-like factor (MILF) by neoplasms in vivo may offer a mechanism for tumors to escape immunosurveillance by systemic immobilization of cytotoxic lymphocytes. From Sephadex and ultrafiltration fractionation experiments, the molecular weight of MILF in serum is polydisperse (30,000–100,000 daltons), and is heat and chymotrypsin resistant, in contrast with the properties reported for LIF (leukocyte inhibitory factor) and MIF (macrophage migration inhibitory factor) produced in vitro.     

In vitro and in vivo studies on the mechanism of experimental autoimmune thyroiditis in guinea pigs

Thyroid explants of inbred strain 13 guinea pigs were grown in a semisynthetic medium containing 0.3 IU of thyroid-stimulating hormone. The monolayer retained the capacity in vitro to form thyroglobulin. Sensitized lymphocytes from animals with autoimmune thyroiditis could specifically lyse these thyroid target cells in vitro in the presence of an appropriate amount of specific antigen. This cytotoxicity was not observed in thyroid epithelial cells which had been incubated (a) with normal lymphocytes or (b) with purified macrophages either from normal animals or from animals with autoimmune thyroiditis. When thyroid cells were incubated with hyperimmune antithyroglobulin serum, cytolysis did not occur, whether or not complement was added. The cytopathic effect of sensitized lymphocytes was further demonstrated to be caused by a soluble cellular product, termed thyroid cytotoxic factor, or TCF, which was released from sensitized lymphocytes under the stimulation of specific antigen, thyroglobulin, and could exert a cytotoxic effect directly on the target cells. Direct cell-to-cell contact was not required in this type of cell-mediated cytolysis.     

Mechanism of histamine-induced inhibition of lymphocyte response to mitogens in mice

Histamine induced, in mice, an inhibition of lymphocyte response to PHA and LPS, at molar concentrations ranging from 10^?3 to 10^?9M. This inhibition occurs as a specific interaction between histamine and T lymphocytes bearing H2-type receptors for this hormone (H + cells) and Ly 2 membrane antigens. Two features of the suppressive activity of this T-cell subpopulation were observed: (i) when histamine is added at the beginning of the culture period with PHA or LPS, it activates the suppressor activity of H + cells which act on the lymphocyte population responding to PHA and LPS; (ii) preincubation of spleen lymphocytes with histamine for 24 hr induces suppressor cells which inhibit the response to PHA, but not to LPS, of syngeneic lymphocytes in a coculture system, and which are radiosensitive. The role of PHA as a second stimulus of histamine-induced suppressor cells, and the relation between these cells and PHA or Con A-induced suppressor cells, are discussed.     

Adoptive transfer of delayed-type hypersensitivity to Sendai virus: II. Different modes of antigen presentation determine K,D-region or I-region restriction of T cells mediating delayed-type hypersensitivity to Sendai virus

Requirements for antigen presentation for in vitro stimulation of two subpopulations of Td lymphocytes were investigated. One subset was K,D-region-restricted and required infection or fusion of virus particles with stimulator cells for induction. The other subpopulation was I-region-restricted and required presentation of antigen by adherent cells (presumably macrophages). Presentation of antigen on Ia antigen positive stimulator cells (LPS blasts) failed to lead to stimulation of I-region-restricted T lymphocytes, thus suggesting that phagoctyosis and processing of antigen rather than association of viral antigens via fusion or infection was required for stimulation of these T lymphocytes.     

Activity and Properties of Macrophage Migration Inhibitory Factor produced by Mixed Lymphocyte Cultures

THE macrophage migration test is an in vitro demonstration of delayed hypersensitivity. Supernatant fluids of sensitive lymphocytes cultured for 24 h in the presence of specific antigen contain migration inhibitory factor (MIF) that arrests the migration of macrophages of unsensitized animals in vitro¹,². In vivo, it induces delayed skin reactions³. The use of the macrophage migration test, based on differences of transplantation antigens in donor and recipient, to show histocompatibility has been suggested⁴. The test was also recommended as an indicator of immunological reactivity after organ transplantation, to demonstrate impending rejection⁵. It can demonstrate homograft sensitivity, for migration of peritoneal exudate cells (containing lymphocytes and macrophages) of CBA mice previously sensitized by grafts from A/Jax donors was inhibited when they were mixed with peritoneal exudate cells of the donor strain. However, histocompatibility was not demonstrated, for mixtures of peritoneal exudate cells of ungrafted CBA mice and A/Jax mice migrated regularly during the 24 h test⁶.     

Macrophage Migration Inhibition by Serum from Desensitized Animals Previously Sensitized with Tubercle Bacilli

MIGRATION of peritoneal exudate cells removed from guinea-pigs or mice exhibiting delayed hypersensitivity is inhibited by specific antigen^1–3. This in vitro macrophage migration inhibition has been regarded as a useful immunological test for delayed skin hypersensitivity^4,5. Studies of the mechanism of this phenomenon revealed that, in contact with specific antigen, lymphocytes from sensitized animals released into the medium a specific substance (migration inhibitory factor; MIF) capable of inhibiting the migration of normal macrophages^6,7. When injected intradermally into normal guinea-pigs, MIF elicits inflammatory reactions characterized by induration, erythema and mononuclear cell infiltration⁸.     

The nature of the suppressive effect of interferon and interferon inducers on the in vitro immune response

Viral-induced interferon inhibition of the primary in vitro plaque-formong cell (PFC) response in the mouse (C57B1/6) involves a dynamic relationship between the nature of the antigen, the concentration of interferon added to antigen-stimulated cultures, and the time of addition of interferon relative to antigen addition. The PFC response to a thymus-dependent antigen (sheep red blood cells) was more easily suppressed by viral-induced interferon than was that to a thymus-independent antigen (E. coli 0127 LPS), both in terms of inhibitory concentrations of interferon and the time at which the interferon could be added to cultures after antigen and still inhibit the PFC response. These differential effects of interferon could be related to the difference in cellular requirements (B and T lymphocytes) of the two antigens. Interferon was effective in inhibiting the in vitro PFC response of antigen-primed spleen cells, indicating that it can block the response of memory lymphocytes. By using interferon inducers as inhibitors of the in vitro PFC response, it was possible to show that at least two antigenically distinct interferons may be involved in suppressing the immune response. It is known that one type of interferon is induced by virus and synthetic double-stranded polyribonucleotides. The other type is stimulated by antigen and T cell mitogens. A model is proposed to explain the nature of these interferon inhibitory effects in terms of mediation of immune suppressor cell effects.     

Leishmania enriettii: Immune induction of macrophage activation in an experimental model of immunoprophylaxis in the mouse

This study describes some of the parameters of the cellular immune response elicited in mice by inoculation of the nonpathogenic protozoan parasite, Leishmania enriettii. Incubation in vitro of leishmania-infected mouse peritoneal macrophages with spleen cells from syngeneic leishmania-immune animals resulted in activation of the phagocytes, leading to intracellular parasite destruction. Activation required interaction of sensitized lymphocytes with parasite antigen released or displayed by infected macrophages. The effect was dependent both on the dose of parasites used for in vivo priming and on the number of spleen cells cocultivated with parasitized macrophages. The activating capacity of lymphocytes was abrogated by anti-Thy-1 antiserum treatment and was retained in the effluent cells after nylon-wool separation. Activation was followed by lysis of part of the macrophage monolayer. Destruction of the phagocytes did not appear to result from the activation process per se and may represent a cytotoxic activity of sensitized lymphocytes for macrophages bearing parasite antigen on their surface.     

Studies on the recognition of xenogeneic cells by nonimmune macrophages. I. Destruction of chicken fibroblasts in vitro by murine macrophages.

Human cord blood lymphocytes were compared with adult lymphocytes with regard to proportions of cells with surface markers for surface immunoglobulin (Ig), receptors for C′3 and the Fc-portion of IgG, as well as two types of erythrocyte rosettes (rapid and late E-rosettes). A significant decrease (P < 0.02 ? 0.05) in both early and late E-rosettes was noted when cord cells were compared to adult lymphocytes. After 20 hr of incubation at 37 °C, proportions of cells bearing Fc receptors in cord blood samples showed striking increments (P < 0.001) when compared with adult lymphocytes. T cell enrichment studies and sequential depletion of cells bearing Fc receptors as well as E-rosette forming cells indicated that the precursors of cells generating Fc receptors in vitro did not arise from cells with Fc receptors or T cell markers.     

Biological characterization of T and B lymphocytes separated from normal mouse spleen by a physical adherence column method

The capacity of spleen cell populations enriched for T and B lymphocytes by a physical adherence column method to respond in vitro to phytomitogens and allogeneic lymphocytes was determined. Column filtrate cells (T lymphocytes) responded well to phytohaemagglutinin- and mitomycin-C-treated allogeneic spleen cells, but poorly to pokeweed mitogen. Adherent cell populations from the column (B and some T lymphocytes) responded well to pokeweed mitogen, but poorly to phytohaemagglutinin- and mitomycin-C-treated allogeneic cells.Purified peripheral T lymphocytes prepared from normal mouse spleen by the column method reconstituted the depleted in vitro antibody response to the thymic-dependent SRBC antigen of all B lymphocyte sources tested, namely, spleen cells from congenitally athymic mice, neonatally thymectomized mice, and adult thymectomized mice which had been reconstituted with bone marrow, and a lymphocyte population prepared by incubating spleen cells with anti-θ serum and complement. When transferred with sheep erythrocytes to congenitally athymic mice, purified peripheral T cells restored the in vivo IgM and IgG responses of these animals. These results confirm that the column filtrate is a thymus derived subpopulation of cells capable of cell-mediated immunity and cooperation with B lymphocytes in humoral immunity both in vitro and in vivo.     

The polyvalent protease inhibitor, trasylol, inhibits DNA synthesis of mouse lymphocytes by an indirect mechanism.

By the use of incorporation of radiolabeled thymidine, uridine, and leucine into mouse lymphocytes, the inhibitory effect of the protease inhibitor, trasylol, on antigenor mitogen-induced lymphocyte triggering was studied in vitro. DNA synthesis, as well as RNA and protein syntheses, were effectively inhibited by 0.3–2.5 × 10^?7 mol of trasylol when responses were induced by homologous antigen, allogeneic cells, phytohemagglutinin, or endotoxic lipopolysaccharide of Escherichia coli. The inhibitory effect of trasylol was reversible. On the contrary, DNA synthesis by nonadherent spleen cells was hardly inhibited by the inhibitor when the cells were stimulated with a relatively large amount of concanavalin A. Antigen-induced DNA synthesis by non-adherent lymph node cells was enhanced by the culture supernatant of macrophages. This helping effect of macrophage supernatant was effectively inhibited either by soluble or insoluble trasylol. These results suggest that the inhibitory action of trasylol on lymphocyte triggering may operate indirectly to interfere with the helping action of macrophages on lymphocytes.