Anti-interferon gamma treatment blocks the ability of glutaraldehyde-polymerized allergens to inhibit specific IgE responses.

The lymphokines interleukin 4 and interferon gamma (IFN-gamma) have been shown to play an important role in regulation of polyclonal immunoglobulin E (IgE) and IgG2a responses in vitro and in vivo. We demonstrate here that treatment with chemically modified ovalbumin (OA) results in long-lived, 97-99% inhibition of allergen-specific murine IgE responses and 10(3)-10(4)-fold increases in anti-OA IgG2a. Responses to unrelated antigens are not affected. Treatment with unmodified OA under the same conditions fails to inhibit primary or secondary IgE responses or to increase IgG2a but does lead to pronounced increases in OA-specific IgG1 production. Glutaraldehyde-polymerized ovalbumin (OA-POL)-induced changes in IgE and IgG2a responses are abrogated by in vivo treatment with purified monoclonal anti-IFN-gamma antibody (XMG 1.2), a finding indicative of preferential IFN-gamma production upon exposure to chemically modified, but not native, allergen. The results suggest the possibility that the pattern of cytokine synthesis elicited after exposure to protein antigens, and the resulting immune response, may be dependent upon the form of antigen to which the individual is exposed and consequently may be subject to manipulation.

Identification of a common idiotype on myelin oligodendrocyte glycoprotein-specific autoantibodies in chronic relapsing experimental allergic encephalomyelitis.

The myelin/oligodendrocyte glycoprotein (MOG) is a target antigen for autoantibody-mediated demyelination in chronic relapsing experimental allergic encephalomyelitis (CREAE) in the Strain 13 guinea pig. Anti-idiotypic antibodies directed against a demyelinating MOG-specific monoclonal antibody (8-18C5) have identified a cross-reactive idiotype in 10/10 CREAE sera. In nine of these sera inhibition studies demonstrated that this idiotype was at or in close proximity to the combination site of guinea pig anti-MOG autoantibodies. This cross-reactive anti-MOG idiotype may represent an important target for the anti-idiotypic regulation of demyelinating antibody responses in CREAE.

The effects of synthetic alpha-subunit peptides on thyroid-stimulating immunoglobulin activity.

Synthetic peptides, representing specific portions of the alpha-subunit of the human glycoprotein hormones, can inhibit both the binding of labeled TSH to thyroid membranes and adenylate cyclase stimulation by TSH in vitro. The same synthetic peptides (alpha 26-46 and alpha 31-45) significantly (P less than 0.05) inhibited the adenylate cyclase-stimulating activity of thyroid-stimulating immunoglobulins (TSI) from 10 patients with hyperthyroid Graves' disease. Peptide alpha 26-46 was the most potent, resulting in 79.1 +/- 8.8% (+/- SE) inhibition at 133 micrograms/mL, while peptide alpha 31-45 inhibited TSI activity by 36.3 +/- 5.2%. Peptides alpha 61-75 and alpha 81-92, that had only minimal ability to inhibit TSH-mediated cAMP generation, did not significantly inhibit TSI activity. The inhibitory action of alpha 26-46 was dose dependent, and a significant negative correlation was found between the maximum TSI activity of the serum sample and the inhibition achieved by the synthetic peptide, suggesting that differences in TSI affinity and/or titer may account for the variable inhibitory activity of the peptides. These results suggest that TSI interact with the TSH receptor at the site that recognizes the portion of the TSH alpha-subunit represented by the synthetic peptide alpha 26-46 and, thus, support the concept that the TSH-binding site of the TSH receptor is the site of antigen binding between TSI and the thyroid cell.

A patient with Graves' disease who developed hypothyroidism associated with thyroid stimulation blocking immunoglobulin during anti-thyroid drug therapy.

A girl, 12 years of age, developed Graves' disease compounded with rheumatic fever and idiopathic thrombocytopenic purpura. Thrombocytopenia improved under short-term treatment with steroids and her mitral valvular insufficiency, due to the rheumatic fever, disappeared 4 years later. Initially, she had been treated with propylthiouracil (PTU) for 28 months. She suffered a relapse 9 months after stopping PTU and so she was given further PTU therapy. However, hypothyroidism developed 11 months after the initiation of therapy and continued, though further PTU treatment was discontinued. She now receives 1-thyroxine and maintains a euthyroid state. At the onset of the patient's hyperthyroidism, the TSH-binding inhibitor immunoglobulin (TBII) and the thyroid stimulating antibodies (TSAb) were found to be positive. During the remission period, only the thyroid stimulation blocking immunoglobulin (TSBI) was weakly positive. At relapse, only TBII was mildly positive. When hypothyroidism developed, both TBII and TSBI were positive, and TSAb was negative in all testings of her diluted IgGs. The patient's TBII and thyroid dysfunction were unaffected by high-dose intravenous gammaglobulin therapy or by treatment with prednisolone 0.5 mg/kg/day for 2 weeks. In conclusion, the emergence of TSBI during or after anti-thyroid drug therapy might possibly lead to hypothyroidism in patients with Graves' disease.

Products of polymorphonuclear cell injury inhibit IgG enhancement of monosodium urate-induced superoxide production.

The generation of polymorphonuclear cell (PMN) superoxide ion (O2-) by monosodium urate (MSU) crystals may be important in the pathogenesis of acute gout. Coating MSU crystals with IgG prior to exposure to PMN markedly augmented O2- generation. This augmentation was inhibited by supernates, termed cell lysate, derived from sonicated PMN or PMN exposed to MSU crystals for 5 hours at 37 degrees C. Lysate was effective in inhibiting O2- production when incubated with MSU crystals prior to, during, or after MSU crystals were exposed to IgG. No IgG could be eluted from crystals exposed to both lysate and IgG. Immunoelectron microscopy showed virtually no IgG on crystal surfaces after incubation of crystals with lysate and IgG. These data suggest that products of PMN injury can modulate further PMN responses to MSU crystals. This phenomenon provides a negative feedback loop and is one possible mechanism for the self-limitation of acute gouty attacks.

Isoprinosine abolishes the blocking factor-mediated inhibition of lymphocyte responses to Epstein-Barr virus antigens and phytohemagglutinin.

Acute infectious mononucleosis (IM) is accompanied by measurable abnormalities of immune function, including a transient immunosuppression. The sera of patients with acute IM contain an IgG blocking factor which binds to T-lymphocytes and decreases their responses to antigens and mitogens. The experiments reported herein indicate that isoprinosine, an immunopotentiating agent, can reverse this inhibition of T cells by IM-associated IgG blocking factor. Isoprinosine may be a useful tool in understanding the interactions between blocking factors and lymphocytes; moreover, isoprinosine may be of value in patients with abnormal clinical responses to Epstein-Barr virus (EBV) such as chronic IM or persistent active EBV infections.

Multiple sclerosis de novo CNS IgG synthesis. Effect of CNS irradiation.

Megavoltage CNS irradiation was given to 20 patients with clinically definite multiple sclerosis (MS) to determine if de novo CNS IgG synthesis could be eradicated. In all five patients given 1,200 rads, a transient reduction in the de novo CNS IgG synthesis rate was noted. In ten patients given 1,800 rads, the following occurred: a reduction in synthesis rate in three patients, a reduction followed by enhancement in two, only enhancement in four, and no change in one. In all five additional patients, a therapy of adrenocorticotropic hormone (ACTH) followed by prednisone in combination with 1,800 rads produced greater and more persistent decreases in CNS IgG synthesis, but did not block the enhancement effect. Only two of 19 patients who had abnormal CNS IgG synthesis rates had reductions to normal; no patients showed changes in the number or pattern CSF IgG oligoclones. Hence, no treatment eradicated de novo CNS IgG synthesis. A persistent decrease in CSF leukocytes occurred in all 20 patients due to the reduction of small lymphocytes (not dose related). The blood-brain-barrier to albumin concentration was transiently damaged in 11 of 15 patients given irradiation, but when patients were premedicated with ACTH/prednisone therapy, no damage was found. None of the patients demonstrated neurological improvement, change in the activity of their disease, or persistent adverse effects.

Immune responses in vitro. IV. Suppression of primary M, G, and A plaque-forming cell responses in mouse spleen cell cultures by class-specific antibody to mouse immunoglobulins.

The suppressive effects of monospecific goat anti-mouse globulins on primary immunoglobulin class-specific plaque-forming cell responses in mouse spleen cell cultures were investigated. Anti-micro suppressed responses in all immunoglobulin classes, whereas anti-gamma(1) and anti-gamma(2) suppressed the gamma(1) and gamma(2) responses but not gammaM or gammaA responses, and anti-gammaA suppressed only gammaA responses. The mechanism of action of the anti-micro was studied in detail because of its suppression of responses in all immunoglobulin classes. The anti-micro was specific for micro-chain determinants; its activity was dose dependent, but was not mediated by killing cells with surface micro-chain determinants. Free gammaM but not gammaG myeloma proteins in solution effectively competed with micro-bearing cells for the anti-micro. An excess of anti-micro was necessary in the cultures for 48 hr to insure complete suppression of 5-day responses. However, after removal of excess anti-micro at 48 hr, responses could be stimulated by newly added antigen in cultures where incubation was prolonged to 7 days. Anti-micro was most effective when added at the initiation of cultures and had no suppressive effect when added at 48 hr. Excess antigen did not effectively compete with anti-micro for antigen receptors. Precursors of antibody-forming cells were shown to be the cell population where the suppressive activity of anti-micro was mediated. The experiments suggest that anti-micro combines with micro-chain determinants in antigen-specific receptors on the surfaces of antibody-forming cell precursors, prevents effective stimulation by antigen and subsequent antibody production. To explain suppression of responses in all Ig classes by anti-micro, several models were proposed. It is not possible to determine from the data whether stimulation of precursor cells with gammaG or gammaA receptors requires concommitant stimulation of separate cells with only gammaM receptors, or whether cells bearing gammaM receptors are precommitted to or differentiate into cells capable of synthesis of other Ig classes, or whether receptors of gammaM and another Ig class are present on some virgin precursors or the second Ig receptor appears after antigenic stimulation.

Immune responses in vitro. V. Suppression of M, G, and A plaque-forming cell responses in cultures of primed mouse spleen cells by class-specific antibody to mouse immunoglobulins.

Suppression of Ig class-specific PFC responses by class-specific antibody to mouse immunoglobulin was studied in cultures of spleen cells from immunized mice. In contrast to cultures from normal mice where anti-micro suppressed responses in all Ig classes, anti-micro had progressively less suppressive effect on gamma(1) and gamma(2) responses in cultures from immunized mice with time after immunization. This was most pronounced at 10 days after immunization when anti-micro suppressed gammaM and gammaA responses, but had no or slight effect on gamma(1) or gamma(2) responses which were still suppressed with anti-gamma(1) and anti-gamma(2). These changes in precursor cell susceptibility to anti-micro were antigen specific.

Electron microscopic localization of immunoglobulin E on the surface membrane of human basophils.

We have examined human leukocyte preparations for the presence of surface-bound IgE by electron microscopy. Basophil-enriched leukocytes were reacted with burro anti-IgE, a hybrid antibody to burro IgG and ferritin, and ferritin, with or without prior incubation of the cells with an IgE myeloma protein. In the absence of preincubation with IgE small amounts of ferritin were fixed to the surface of basophils but on no other cells. When cells were preincubated with IgE the amount of ferritin fixation on the basophils was markedly increased and a small amount of ferritin was also bound to platelets but again to no other leukocytes. The distribution of ferritin on the basophil surface appeared dependent upon the temperature at which the cells were kept during and after reaction with the various reagents. Basophil sections from cells kept at 0 degrees C had ferritin bound to the surface membrane in patches distributed around the entire circumference. Basophil sections from cells prepared at room temperature had ferritin distributed assymetrically covering a surface membrane segment one-fifth to one-half of the circumference. In control studies in which monomeric IgG was substituted for the IgE and burro anti-IgG was used instead of burro anti-IgE, no cellular fixation of ferritin was observed.

Lymphocyte membrane dynamics. Metabolic release of cell surface proteins.

Cell surface proteins of normal and neoplastic lymphocytes were labeled with iodide-(125)I by lactoperoxidase-catalyzed iodination. Incubation of (125)I-labeled iodide cells in vitro resulted in the release of iodinated surface proteins at a rapid rate which was dependent on cellular respiration and protein synthesis. Comparisons by disc electrophoresis showed a marked similarity between urea-soluble surface proteins extracted from iodinated cells and iodinated material released by the cells during in vitro incubation. The rate of release of cell surface proteins from thymus cells was three times faster than that of spleen cells or bone marrow-derived thoracic duct lymphocytes. In addition, different proteins were released at different rates as evidenced by the rate of release of (125)I of rabbit anti-mouse immunoglobulin specifically bound to mouse spleen cells and comparisons by disc electrophoresis of urea-soluble iodinated surface proteins extracted from cells before and after incubation. The results suggest that a dynamic state exists at the cell surface. The possible role of the release of cell surface proteins in cell regulation and communication is discussed.