Infrared Spectral Patterns of Thyroglobulin Bearing Thyroiditogenic Epitopes.

Thyroglobulin is a major autoantigen to which autoimmune response, destroying the thyroid gland in Hashimoto's thyroiditis, is directed. To detect a pathological autoimmune response to thyroglobulin, as well as the successful induction of experimental autoimmune thyroiditis, thyroglobulin carrying thyroiditogenic epitopes is necessary. It is not known which features of thyroglobulin structure determine the presence of thyroiditogenic epitopes and can serve as markers of their presence.

Rat Experimental Autoimmune Gastritis Model.

Background: Autoimmune gastritis (AIG) is an autoimmune disease of the stomach characterized by the destruction of the oxyntic mucosa, which stops producing acid and becomes both functionally and morphologically atrophic. The pathogenic mechanisms behind the disease are still poorly understood. There is no early diagnosis and specific AIG therapy.

Regulatory Rheumatoid Factor is Specific to PD-1 and Uses PD-1 Pathway to Control CD4 T Lymphocytes.

Background: We have earlier discovered a new factor of autoimmunity downregulation, called regulatory rheumatoid factor (regRF). Being anti-idiotypic antibodies, regRF restricts the expansion of CD4 T lymphocytes to the idiotype of which it is specific, according to the negative feedback principle. It has been shown that only activated CD4 T lymphocytes are the target of regRF.

Neonatal immunization prevents the development of a chronic autoimmune response against CD4 caused by HIV-1 gp120 in rats.

The AIDS autoimmune hypothesis suggests that suppression of the autoimmunity against CD4 T lymphocytes should positively affect the course of HIV infection. The aim of this study was to determine whether neonatal immunization can be used to prevent induction of anti-CD4 autoimmune response triggered by HIV-1. The induction of anti-CD4 lymphocytes in HIV infection proceeds via their idiotypic interactions with anti-gp120 lymphocytes; therefore, the creation of tolerance to gp120 by means of neonatal immunization with gp120 may prevent subsequent induction of anti-CD4 lymphocytes.

Reduction in experimental autoimmune thyroiditis by IgG Fc fragments bearing regRF epitopes.

Previously, we identified a new immunoregulatory factor, the production of which provides rats with resistance to certain experimental autoimmune diseases. It has been named regulatory rheumatoid factor (regRF). RegRF inhibits the expansion of CD4 T lymphocytes by killing activated cells.

Fourier-transform infrared spectroscopy of human IgG Fc fragments, which are a promising drug for the treatment of autoimmune diseases.

IgG Fc fragments that expose regulatory rheumatoid factor epitopes (regRF epitopes) have emerged as a promising immunosuppressive drug. Immunization of rats with such Fc fragments reduced symptoms of experimental autoimmune diseases. The immunosuppressive effect of Fc fragments is based on stimulating the production of regRF, which kills activated CD4 T lymphocytes.

Regulatory and other rheumatoid factors in rheumatoid arthritis patients with active disease or in remission.

Background: Previously, we identified a regulatory rheumatoid factor (regRF), the production of which provides rats with resistance to collagen-induced arthritis (CIA). Immunization with conformers of IgG Fc fragments carrying epitopes specific to regRF reduces symptoms of CIA. The aim of this study was to determine whether there is a link between regRF levels and rheumatoid arthritis (RA) activity in humans in order to assess the potential of regRF as a therapeutic biotarget in RA.

Suppression of experimental autoimmune encephalomyelitis by IgG Fc fragments bearing regRF epitopes.

Previously we identified a rheumatoid factor, the production of which provides rats with resistance to experimental autoimmune diseases. It has been named regulatory rheumatoid factor (regRF). Immunization with conformers of IgG Fc fragments carrying epitopes specific to regRF reduces rat collagen-induced arthritis.

Аtherosclerosis-like changes in the rabbit aortic wall induced by immunization with native high-density lipoproteins.

Introduction: A high level of total cholesterol or low-density lipoprotein (LDL) cholesterol is considered the main cause of atherosclerosis and cardiovascular disease. For this reason, experimental atherosclerosis is induced by creating high blood cholesterol in animals. However, the hypothesis that atherosclerotic processes are mostly caused by immune (autoimmune) mechanisms has recently been gaining traction.

Comparison of the specificity of rheumatoid factor detected by latex fixation with that of regulatory rheumatoid factor.

Background: Rheumatoid factor (RF), originally defined as pathological autoantibodies to IgG that are detected in rheumatoid arthritis, turned out to be multi-specific antibodies, some of which exhibit immunoregulatory properties. Recently, we identified a RF, the production of which confers resistance to experimental autoimmune diseases and is associated with the remission of autoimmune diseases. To differentiate the RF, we discovered from the one associated with rheumatic disease onset or progression and to reflect its immunoregulatory properties, we named it regulatory rheumatoid factor (regRF).

Immunoglobulin G amplifies the production of regulatory rheumatoid factor in vitro through idiotype-anti-idiotype interactions.

Immunoglobulin G can inhibit antibody response. The mechanism of immunosuppression by immunoglobulins remains unknown. Recently, we found a new factor of immunoregulation referred to as regulatory rheumatoid factor (regRF).

Physicochemical characteristics of human IgG Fc fragments that expose regulatory rheumatoid factor neoepitopes and may show promise as antirheumatic agents.

Previously, we showed that immunoglobulin G (IgG) Fc fragments can expose neoepitopes specific to antibodies that were named regulatory rheumatoid factor (regRF). RegRF confers resistance to experimental autoimmune diseases. Immunization of rats with rat Fc fragments exposing neoepitopes recognized by regRF reduces the symptoms of collagen-induced arthritis.

Mechanism by which Regulatory Rheumatoid Factor Prevents Experimental Autoimmune Encephalomyelitis.

Background: One mechanism that underlies protection from autoimmunity and avoidance of uncontrolled inflammation is the controlled contraction of lymphocyte expansion during the immune response. We identified regulatory rheumatoid factor (regRF), the production of which is associated with resistance to and remission of experimental autoimmune diseases. RegRF is anti-idiotypic antibodies to lymphocyte receptors against autoimmune disease-inducing antigens; at the same time, it is specific to epitopes in the hinge Fc fragments of IgG.

Immune Response to Native Lipoproteins Induces Visceral Obesity and Aortic Wall Injury in Rats: The Role of Testosterone.

Objectives: The underlying mechanism of atherosclerosis and visceral obesity remains unknown.The purpose of this study was to test the hypothesis that atherosclerosis and visceral obesity are caused by an immune response to native plasma lipoproteins, and the atherogenic and adipogenic effects of the antibodies to native lipoproteins stem from the androgen deficiency that is created.

Methods: Wistar rats were immunized with native human (nh) low-density (LDL) or high-density lipoproteins (HDL).

The Role of Neutrophil Proteases in LPS-Induced Production of Regulatory Rheumatoid Factor that Suppresses Autoimmunity.

Background: We recently identified a regulatory rheumatoid factor (regRF), the production of which is associated with autoimmune disease resistance and remission. In studies of regRF in the blood of healthy rats, spontaneous increases in the regRF level were noted. We suggest that in the normal state, a mechanism exists for maintaining the activity of the pool of regRF-producing lymphocytes at a level that makes it possible to control the expansion of autoreactive lymphocytes.

Fc fragments of immunoglobulin G are an inductor of regulatory rheumatoid factor and a promising therapeutic agent for rheumatic diseases.

We recently identified rheumatoid factor, the production of which neither predicts nor exacerbates experimental autoimmune disease, but the opposite, namely it is associated with autoimmune disease resistance and remission. We have named it regulatory rheumatoid factor (regRF). The aim of this study was to determine whether rat Fc fragments and human Fc fragments are an antigen for regRF, and to determine the conditions for obtaining them.

Combined Action of Anti-CD4 Autoantibodies and Rheumatoid Factor in the Development of CD4 Lymphocytopenia in Rats Immunized with HIV-1 gp120.

The development of immunodeficiency in HIV-infected patients is known to result from CD4 lymphocyte depletion. Most CD4 lymphocyte cells destined to die are not infected. The mechanism of HIV-uninfected cell death has not yet been fully elucidated.

The idiotypic network in the regulation of autoimmunity: Theoretical and experimental studies.

The regulation of autoimmunity is a key issue in fundamental immunology. Despite outstanding achievements on this front, we currently have more questions than answers. The idea of an immune network as a regulatory mechanism is quite attractive, since it enables us to explain the selectivity (specificity), and moreover the clonality, of the regulation.

Role of idiotype-anti-idiotype interactions in the induction of collagen-induced arthritis in rats.

The mechanism of autoantibodies (rheumatoid factor (RF) and anti-collagen autoantibodies) induction in collagen-induced arthritis (CIA) is unknown. The study assessed the hypothesis that activation of autoantibody-producing clones is mediated by idiotype-anti-idiotype (IAI) interactions with lymphocytes on heterologous collagen. It was demonstrated that RF-containing serum of rats immunized with bovine collagen (BCII) in ELISA competes with BCII for binding to anti-BCII antibodies.

Evidence in favor of a role of idiotypic network in autoimmune hemolytic anemia induction: theoretical and experimental studies.

Formation dynamics of antibodies to rat erythrocytes (REs) and auto-antibodies to mouse erythrocytes were studied in an experimental model of autoimmune hemolytic anemia (AHA) in mice. The experimental conditions of AHA were simulated in a mathematical model of an immune network. It was found that maximal production of auto-antibodies and antibodies to REs do not synchronize.