Leucocyte migration inhibition test as an index of immunological response to measles virus. IV. Blood, spleen, lymph nodes and peritoneal exudate cell reaction.

The migration inhibition test of leucocytes isolated both from the peripheral blood, spleen and lymph nodes as well as peritoneal exudate cells of guinea pigs, immunized with the various doses of measles virus was determined. For in vitro testing of cellular immunity to measles virus, viral antigens could be used in both infective and inactivated form.     

Staphylococcal enterotoxin B induced release of macrophage migration inhibition factor from normal lymphocytes

Staphylococcal enterotoxin B (SEB), a potent lymphocyte mitogen, inhibits migration of peritoneal exudate cells from most guinea pigs but does not inhibit migration of purified macrophages. Experiments were designed to test the ability of highly purified SEB to induce normal lymphocytes to release migration inhibition factor (MIF). Supernatants of lymph node lymphocytes cultured with SEB inhibited the migration of purified macrophages, indicating the release of a migration inhibition factor. Mitomycin-C blocked the SEB-induced release of MIF. SEB-induced MIF localized in the albumin fraction on Sephadex G-200 chromatography. Antibody to SEB specifically blocked the inhibitory effect of SEB on migration of normal guinea pig peritoneal exudate cells.     

Blocking of delayed hypersensitivity by humoral antibody in an in vivo mouse transfer assay using sensitized guinea pig cells

Humoral antibody was shown to interfere specifically with the expression of cell-mediated immunity (delayed hypersensitivity) in an in vivo system. Mice that received peritoneal exudate cells obtained from guinea pigs sensitized to 1-chloro-2,4dinitrobenzene (DNCB) exhibited delayed hypersensitivity reactions after challenge with the sensitizing agent. While control groups that received either normal sera, saline, or anti-BSA (bovine serum albumin) in addition to peritoneal exudate cells from sensitized guinea pigs exhibited positive delayed reactons to challenge with DNCB, mice that received anti-DNP (dinitrophenyl group) in addition to the senstized cells were prevented from exhibiting a delayed reaction to DNCB.     

Dose-response relationship in the migration inhibition test using peritoneal exudate cells and blood leucocytes of tuberculin sensitive guinea pigs

A comparison of the direct migration inhibition using peritoneal exudate cells and peripheral blood leucocytes from the same tuberculin sensitive guinea pigs was performed. Three antigen concentrations: 3, 15, and 75 microgram of PPD per ml were used. Both type of cells provided similar results except at early incubation intervals when leucocytes, in the presence of lower doses of the antigen, displayed stronger inhibition than peritoneal cells. Thus, in our study, peripheral blood leucocytes are at least equivalent to peritoneal exudate cells in the migration inhibition test.     

Macrophage migration-inhibition in desensitized guinea pigs

The migration of peritoneal exudate cells obtained from guinea pigs with delayed skin reactivity to egg albumin (EA) and diphtheria toxoid (DT) was inhibited in the presence of antigen. A dose of 2 mg of EA given intravenously 8 days after sensitization specifically abolished the migration inhibition tested 5 weeks later. When the challenge was given into a foot pad 6 weeks after sensitization the migration inhibition was partially suppressed 3 to 28 days later.Repeated skin testing did not affect the migration results of the challenged or unchallenged guinea pigs.The demonstration in vitro of desensitization argues that the mechanism is either a reduced number or a reduced responsiveness of the specific effector cells of delayed hypersensitivity, or an inhibitory effect of cells stimulated by the specific antigen. If a humoral inhibitory factor is involved, it is either tightly bound by the cells or produced during the migration assay.     

RNA extracts of lymphoid cells sensitized to DNP-oligolysines convert nonresponder lymphoid cells to responder cells which release migration inhibition factor

Strain 13 nonresponder peritoneal exudate cells were converted to responder status to α or ?,DNP-oligolysines after incubation of the cells with RNA extracts prepared from responder guinea pigs skin test sensitive to these synthetic antigens. The conversion of nonresponder strain 13 cells was assessed by the direct cell migration inhibition correlate of delayed hypersensitivity. Nonresponder cells were not converted by RNA extracts prepared from unimmunized responder guinea pigs or from non-responder strain 13 guinea pigs previously injected with DNP-oligolysines. Thus, it seems possible to correct immunological unresponsiveness in vitro in spite of a specific genetically determined deficiency of the immune response related to the Ir gene.     

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.     

Studies on the mechanism of suppression of delayed hypersensitivity by the antischistosomal compund niridazole.

Niridazole given in a single oral dose of 100 mg/kg to guinea pigs sensitized to ortho-chlorobenzoyl chloride-bovine gamma-globulin (OCB-BGG) regularly abolished delayed cutaneous reactivity. Little effect was observed, however, when cells from these animals were tested in vitro with either direct or indirect assays for migration inhibitory factor (MIF). On the other hand, sera taken from nonsensitized guinea pigs after they had received 100 mg/kg of niridazole markedly diminished antigen-induced inhibition of migration of sensitized peritoneal exudate cells in vitro. The immunosuppressive effects of such sera could not be produced by niridazole itself, thereby suggesting an effect of niridazole metabolites. This suppressive activity was readily removed from the serum by dialysis. The active serum blocked the production of MIF by sensitized lymph node cells but did not affect the action of preformed MIF on macrophages. The effect of this serum was reversible; lymph node cells incubated for 24 hr with active serum, then washed and reincubated with antigen in normal serum, produced normal amounts of MIF. These studies suggest that metabolites of niridazole, but not the parent compound itslef, suppress delayed hypersensitivity in guinea pigs and prevent MIF production by lymphocytes without affecting the macrophage response to MIF.     

Hapten-specific leukocyte migration inhibition. I. Inhibition of cells from animals immunized with DNP-KLH by epsilon-DNP-L-lysine Ficoll.

Guiena pigs were immunized with dinitrophenyl-keyhole limpet hemocyanin (DNP-KLH) or with hemocyanin in complete Freud's adjevant. The migration of oil-induced peritoneal exudate cells was measured in the presence and absence of epsilon-dinitrophenyl-lysine-tyrosinyl Ficoll (DNPL-F). When the cells came from animals immunized with DNP-KLH their migration was inhibited by DNPL-F. Control cells from animals immunized with KLH or not immunized migrated normally in the presence of DNPL-F.     

Cell-mediated immunity to Dirofilaria immitis.

Cell-mediated immunity to Dirofilaria immitis (DI) in guinea pigs was confirmed by the migration inhibition test (MIT), the blast transformation test (BTT), the delayed skin reaction, and the skin reaction by passive transfer with sensitized peritoneal exudate (PE) cells. All migration inhibition (MI) positive cases were always associated with positive skin reactions and two cases showed positive skin reactions without MI. The cellular antibody confirmed by MIT first appeared on the 4th day after single sensitization, but DNA synthesis in splenic lymphocytes had already started on the 3rd day in the absence of delayed skin reaction and MI. Then, the role of this cellular antibody in the immune mechanism against DI infection was investigated by the in vitro and in vivo cytotoxicity test using microfilariae (Mf) of this species as a target. The cytotoxic activity significantly increased in the sensitized splenic and PE cells, and in vivo normal PE cells implanted into sensitized animals.     

Passive transfer of cell-mediated immunity in xenogeneic animals

Cell-mediated immunity (delayed hypersensitivity) to 1-chloro-2,4-dinitrobenzene (DNCB) was passively transferred from sensitized guinea pigs to mice. Transfer was accomplished by subcutaneous injection of peritoneal exudate cells of sensitized guinea pigs.     

A comparison of peritoneal exudate cells and peripheral blood leukocytes in direct and indirect migration inhibition tests as in vitro assays for tuberculin hypersensitivity in guinea pigs.

Peritoneal exudate cells (PEC) and peripheral blood leukocytes (PBL) are most frequently used in the migration inhibition test. The aim o this work was to compare the ability of these two types of cells to reflect tuberculin hypersensitivity in the migration inhibition test. We sensitized 36 guinea pigs with complete Freund's adjuvant and 20 controls were injected with incomplete Freund's adjuvant. Migration of PEC in medium containing 5, 15, or 75 μg of PPD/ml was assessed after 30 min, and 1, 2, 4, 18, 24, and 48 hr of incubation. The migration of PEC from sensitized animals was inhibited, the inhibition being dose dependent and, with lower concentrations of the antigen, becoming significant only after 4 hr or later. With both PEC and PBL from the same sensitized animal we observed virtually identical migration inhibition in the presence of 75 μg of PPD/ml. A correlation was found between the migration inhibition indices of PEC and PBL. In the indirect test, active supernatants containing lymphokines caused nearly identical migration inhibition of PEC and PBL from normal animals. It follows that in the guinea pig PEC and PBL behave alike both in the direct and in the indirect migration inhibition tests. Thus, PEC and PBL appear to be equally valuable sources of cells for migration inhibition tests.     

Antigenic determinants of hen egg-white lysozyme in delayed hypersensitivity. I. Macrophage migration inhibition activities of lysozyme fragments.

Five kinds of fragments of hen egg-white lysozyme (HL) were tested by macrophage migration inhibition (MMI) assay using peritoneal exudate cells (PEC) of guinea pigs immunized with HL in complete Freund's adjuvant. (See article). These four kinds of HL fragments were also shown to be composed of the immunodominant groups of the HL molecule for circulating antibody against HL in guinea pigs. The relationships between the antigenic sites related to circulating antibody and the cellular recognition sites are discussed.     

Identification and purification of immunosuppressive activity in the urine of rats and a human patient treated with niridazole.

Administration of the antischistosomal compound niridazole to mice, guinea pigs, and humans results in the suppression of several manifestations of cell-mediated immunity. Sera from animals treated with niridazole blocked the in vitro production of migration inhibitory factor (MIF) while niridazole itself was inactive, suggesting that these effects are caused by water soluble mediators. We now report that crude extracts prepared from the urine of rats and a patient receiving nirdazole, but not from pretreatment control urine, similarly suppress antigen-induced inhibition of migration of peritoneal exudate cells from sensitized guinea pigs. With immunosuppressive activity monitored by the direct MIF assay, combined solvent extraction and chromatographic techniques were used to fractionate immunosuppressive activity from the urine of niridazole-treated rats and the patient; the most active fractions, purified about 100-to 1000-fold as compared to methanol-water extracts of dried voided urine, inhibited MIF production at 0.1 to 0.01 ng/ml of assay mixture. These purified fractions also showed immunosuppressive activity by an in vivo assay wherein doses as low as 1 mug/kg injected intravenously (i.v.) into mice suppressed cell-mediated granuloma formation around Schistosoma manisoni eggs. Identically purified fractions prepared from urine of rats and the patient before they received niridazole showed no immunosuppressive activity either in the MIF or in the granuloma assay systems.     

Antigenic determinants of hen egg-white lysozyme in delayed hypersensitivity. II. Antigenicity and immunogenicity of the N- and C-terminal peptide.

Various small fragments of (see article) which is one of the immunodominant groups of hen egg-white lysozyme (HL), were tested for macrophage migration inhibition (MMI) of peritoneal exudate cells (PEC) from guinea pigs immunized with HL. P17 was split in the middle with cyanogen bromide. The terminal portion of (see article) showed positive MMI, whereas the non-terminal half of P17, P17i (sequence 13-27) only showed very weak MMI activity. A fragment derived from the middle portion of P17, P17m (sequence 11-22), was inactive. When P17 were reduced and alkylated, one of the resultant peptides, P17N (sequence 1-[CM-Cys-6]-27) still has MMI activity with PEC taken from guinea pigs immunized with HL, although no antibody reacting with it was detected, but P17C (sequence 123-[CM-Cys-127]-129) was inactive. The peptides P17 and P17N were both immunogenic in guinea pigs in respect to the delayed hypersensitivity response. Again P17t and P17N were immunodominant groups, but the reactivity of P17i in MMI assay of this group of animals was greater than that in guinea pigs immunized with HL. The reactivities of HL with PEC taken from guinea pigs immunized with P17 or P17N were generally weaker than those of the antigens used for immunization.     

Experimental study of cellular immunity after administration of inactivated and live virus vaccine]

Experiments were conducted on guinea pigs with the use of cell migration inhibition test of the peritoneal exudate; stimulation of a definite level of cell immunity in response to the administration of both live and of inactivated vaccine virus was shown. The results obtained are used for the interpretation of the action mechanism of the inactivated preparation in two-stage smallpox vaccination.     

Suppression of the intradermal hypersensitivity reaction of the delayed type by a serum fraction from patients containing leukocyte migration inhibition factor]

The blood serum of patients with active tuberculosis of the lungs and chronic pneumonia inhibited migration of donor's leukocytes and macrophages of the peritonal exudate of guinea pigs when compared with migration of similar cells in the medium with the serum of cattle or donors. After chromatography these sera were fractionated on the columns with Sephadex G-100. Fractions containing the leukocyte migration inhibition factor (LMIF) suppressed, up to complete abolition, the intradermal reaction to tuberculin in man and guinea pigs sensitized with BCG. The LMIF is supposed to act in the regulation of delayed hypersensitivity reaction.     

Experimental allergic orchitis and aspermatogenesis. VI. Transfer of allergic orchitis with immune cells.

Typical experimental allergic orchitis (EAO) and aspermatogenesis were successfully transferred to strain 13 guinea pigs with peritoneal exudate and lymph node cells from male and female donor guinea pigs (lacking detectable antibody) previously sensitized with 9 mug of highly purified GP1 glucoprotein isolated from the sperm acrosome. Attempts to transfer the disease with circulating antibody from hyperimmunized animals were not successful. These studies support a cell-mediated basis for the immunopathologic events in EAO.     

Alveolar macrophages in pulmonary immune responses. I. Role in the initiation of primary immune responses and in the selective recruitment of T lymphocytes to the lung

Antigen inoculated intratracheally (IT) into animals can induce primary immune responses and selectively recruit specific T cells to the lung. In the current study, the role of alveolar macrophages (AM) in these two responses was investigated. Antigen-pulsed bronchoalveolar cells (BAC) inoculated IT into guinea pigs generated a population of immune T cells that proliferated in vitro on reexposure to antigen-pulsed macrophages (M?). The possibility that antigen-pulsed donor BAC shed antigen that was subsequently processed and presented by host M? was ruled out by genetic experiments. Thus, peritoneal exudate lymphocytes (PEL) from (2 X 13)F1 guinea pigs primed with antigen-pulsed BAC from strain 2 animals responded preferentially to antigen-pulsed strain 2 M? rather than to antigen-pulsed strain 13 M?. In a second set of studies, antigen-pulsed BAC inoculated IT into guinea pigs selectively recruited antigen-specific T cells to the lung. Genetic experiments verified that inoculated BAC were the source of the antigen-presenting cells responsible for selective recruitment. Thus, antigen-pulsed strain 2 BAC inoculated IT recruited a greater proportion of (2 X 13)F1 T cells that recognized antigen in the context of strain 2 M? than F1 T cells that recognized antigen on strain 13 M?. Taken together, these studies suggest that AM contribute to the regulation of pulmonary immunity by both inducing T lymphocyte immunity and selectively recruiting specific T cells to the lung.     

In vitro migration of peritoneal and spleen cells and its inhibition in some avion species

Cell migration and its inhibition was tested by the capillary tube technique with peritoneal exudate cells and spleen cells of chicken, turkey, goose, guinea fowl, and Japanese quail. Peritoneal cells were produced by ip administration of proteose peptone and harvested 24 hr later. Liquid paraffin proved to be unsatisfactory for preparation of peritoneal cells in some avian species. Mononuclear cells represented no more than 50–60% of the peritoneal cell populations, the other 50% being polymorphonuclear cells in all five avian species studied. Cell migration was demonstrated with chicken, turkey, and goose peritoneal and spleen cells, but not with those of guinea fowl and Japanese quail. The composition of the cell populations in the migration areas was nearly the same as in the initial preparations of peritoneal and spleen cells. Spleen cell migration was inhibited to a greater extent than that of peritoneal cells. Migration inhibitory factor (MIF) produced by chicken and turkey lymphocytes exhibited some species specificity.