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. However, it is still not clear the way regRF distinguishes activated cells from naive ones. RegRF molecules, apart from individual paratopes specific to unique sequences of B- and T-cell receptors, have a shared paratope. We assume that regRF by means of a shared paratope recognizes one of the surface activation molecules of CD4+ T lymphocytes and initiates the cell death. Programmed death-1 (PD-1) has been tested as a potential receptor of the shared regRF paratope and transmitter of the negative regRF signal into activated CD4+ T lymphocytes. METHODS: The specificity of the shared regRF paratope to PD-1 was determined by ELISA. T cell activation was performed with immobilized anti-CD3ε antibodies. Flow cytometry was used to study the effect of regRF on PD-1+CD4+ lymphocytes. RESULTS: We found that regRF binds to PD-1. IgG Fc fragments carrying epitopes specific to the shared paratope of regRF compete with PD-1 for binding to regRF. It follows that regRF recognizes specifically PD-1 by means of a shared paratope. RegRF-containing serum reduced the number of PD-1+CD4+ lymphocytes in proportion to their increase resulting from the action of anti-CD3ε antibodies. CONCLUSION: RegRF uses PD-1 pathway to control activated CD4+ T lymphocytes.

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. Neonatal immunization with CD4 may also be effective, since it can increase natural tolerance to CD4 and prevent its subsequent breakdown by gp120. Thus, anti-gp120 lymphocytes and anti-CD4 lymphocytes are potential neonatal stimulation targets. To determine which of these targets can be manipulated during the neonatal period, a computer model of the immune network was used. The computer model predictions were tested in a rat model of autoimmune CD4 T lymphocytopenia induced by gp120. The in silico studies predicted that stimulating a clone against an external antigen that is in idiotype-anti-idiotype interactions with an autoclone, when stimulation is performed during the time that the dynamic behavior type of the immune network is being established, changes the autoimmune response from self-perpetuating to transient. Experimental studies confirmed the predictions of the computer model and showed that neonatal immunization with gp120 suppresses anti-CD4 autoantibody production and prevents the development of autoimmune CD4 T lymphocytopenia triggered in adult rats by gp120. Neonatal HIV-1 gp120 immunization enhances natural tolerance to CD4.

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. The variability of rheumatoid factor (RF) specificities present in the blood of RA patients was also studied. METHODS: The regRF were studied in RA patients with active disease and in remission. Variability in the specificities of RF associated with RA was studied by concurrent inhibition of RF latex fixation by variants of modified IgG. RESULTS: Patients in remission had regRF levels higher than in healthy subjects. The regRF in remission was characterized by tight binding to its antigen, as in healthy subjects. The regRF levels in patients with active RA varied dramatically, and regRF binding to its antigen was weak. The exacerbation of Still's disease coincided with low regRF levels and affinity, while an improvement in patient condition was associated with an increase in regRF levels and affinity. The RF specific to RA, which was detected by the RF latex-fixation method, was a nonhomogeneous population of antibodies that included RF to lyophilized IgG, to IgG immobilized on polystyrene, and to rabbit IgG. CONCLUSION: Stimulating regRF production might enable improved RA therapy.

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. The aim of this study was to determine whether IgG Fc fragments bearing regRF epitopes suppress experimental autoimmune encephalomyelitis, and to evaluate the potential of a strategy of stimulating production of regRF to treat multiple sclerosis. Two days after myelin basic protein injection, rats were immunized with Fc fragments exhibiting regRF epitopes, as well as with Fc fragments without those epitopes. The effect of Fc immunization on clinical signs of EAE and immunological parameters was evaluated. Stimulation of regRF production by IgG Fc fragments bearing regRF epitopes diminished EAE symptoms in rats, while immunization with Fc fragments without those epitopes worsened EAE. The improvement of EAE symptoms in rats treated with Fc fragments bearing regRF epitopes was associated with regRF production and with the relatively low number of blood CD4 T lymphocytes during disease development. In experiments involving immunizing intact rats and lymph node mononuclear cell cultures, Fc fragments bearing regRF epitopes decreased the CD4 T lymphocyte population indirectly, via regRF production. RegRF is a promising biotarget in MS, and Fc fragments bearing regRF epitopes are a potential therapeutic agent for MS.

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. At the same time, no experimental model has been developed that clearly demonstrates the autoimmune mechanism by which atherosclerosis develops and reproduces the full picture of atherosclerosis solely by means of an immune response, without resorting to additional interventions such as a high-cholesterol diet or the use of genetic models of hyperlipidemia. Previously, we were able to induce atherosclerosis-like lesions in the aorta and the development of pericardial fat in rats by immunizing them with human native lipoproteins. The purpose of this study was to test whether atherosclerosis can be induced in normocholesterolaemic rabbits by immunizing them with human native high-density lipoproteins (hnHDL). METHODS: Rabbits were immunized with hnHDL. Aortic wall structure, plasma cholesterol level, and antibodies against HDL were studied. RESULTS: Immunization with hnHDL was found to cause atherosclerosis-like lesions in the rabbit aorta such as adipocytic and chondrocytic metaplasia, proteoglycan deposits, leukocytic infiltration. Atherosclerosis-like lesions developed in the aorta of hnHDL-immunized rabbits against a background of normal blood LDL-cholesterol level. Therefore, a high plasma cholesterol level is not the sole cause of atherosclerosis. The immune response against HDL is an independent cause of atherogenesis. CONCLUSIONS: A rabbit model of atherosclerosis caused by immunization with hnHDL can be widely used to examine the mechanisms occurring during atherogenesis.

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). RegRF prevents autoimmunity and reduces experimental autoimmune reactions. RegRF comprises a population of anti-idiotypic antibodies that have a unique paratope specific to the antigen-binding sites of the antibodies, and a shared paratope specific to neoepitopes of IgG Fc fragments. Given the specificity of regRF, we can anticipate that IgG would be able to induce regRF production, and consequently that the immunosuppressive effect of IgG may be mediated by regRF. We found that IgG induces regRF production in a culture of B lymphocytes obtained from the red bone marrow of intact rats. IgG does not expose neoepitopes recognized by the shared paratope of regRF, and does not acquire them in culture. Therefore, the stimulation of regRF production induced by IgG is not a result of the interaction between the shared paratope of regRF and the neoepitopes of IgG. Fc fragments of IgG are unable to stimulate regRF production. Fab fragments inhibit spontaneous regRF production. F(ab´)2 fragments stimulate regRF production in lymphocyte culture. We theorize that IgG activates regRF-producing lymphocytes through idiotype-anti-idiotype interactions.

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. OBJECTIVE: The aim of this study is to test the hypothesis that regRF prevents autoimmunity by limiting the expansion of lymphocytes. METHODS: To test this hypothesis, we used a model of experimental autoimmune encephalitis. RESULTS: We found that in the lymph nodes that drain the injection site in rats producing regRF in response to immunization with myelin basic protein (MBP) the proportion of CD4+lymphocytes was lower than in rats in which MBP-immunization did not induce higher regRF levels. RegRF-containing plasma obtained from MBP-immunized rats induces complement-dependent killing of MBP-activated lymphocytes. Activated MBP-specific lymphocytes are not sensitive to the regRF-containing plasma of intact rats. CONCLUSION: The regRF produced during the immune response is a specific control factor for the expansion of antigen-activated CD4+lymphocytes.

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 aim of this study is to examine the role of anti-CD4 autoantibodies and physiological rheumatoid factor (RF) in the development of CD4+ lymphocytopenia. Immunization of Wistar rats with gp120 HIV-1 induces chronic production of anti-CD4 autoantibodies and decreases CD4+ lymphocytes in the blood. However, the anti-CD4 autoantibodies produced as part of the immune response to gp120 do not kill CD4+ cells directly. In rats producing anti-CD4 autoantibodies, a low level of peripheral CD4 lymphocytes is associated with high blood RF levels. The sera containing RF killed lymphocytes when the lymphocytes were pretreated with sera containing anti-CD4 autoantibodies. Thus, the death of CD4+ lymphocytes in rats immunized with gp120 is a result of the combined action of anti-CD4 autoantibodies and RF, and the action of these factors can be separated in time. The fact that two signals are needed for CD4+ lymphocyte death in HIV gp120-immunized rats does not contradict the hypothesis of the activation-induced death of uninfected CD4+ cells in HIV-infected humans.

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. Nevertheless it remains unclear how this mysterious network of immune cells is organized, how it operates, and how it exerts control over autoimmunity. This article presents an attempt to understand how the immune network functions and how it controls autoreactivity. We present a mathematical model of the immune network that is based on principles of immune network organization and function that we arrived at from a survey of the available literature. To test the principles on which the mathematical model is based, we studied the model and compared the different responses to antigen that it generated with the results obtained from experimental studies of immune response. The modeled kinetics of idiotype and anti-idiotype in response to the administration of antigen are in good agreement with the experimental kinetics of idiotypic and anti-idiotypic antibodies. To obtain evidence of the existence of idiotypic mechanisms for regulating autoimmunity, we studied a mathematical model containing autoclones and compared the model results with data from experimental studies in a model of autoimmune hemolytic anemia in mice. Because the results from the theoretical and the experimental studies coincide, there is justification to conclude that autoreactive lymphocytes are normal components of the immune network within which they are regulated. We discuss a possible molecular/cellular mechanism for negative control of autoreactive cells as affected by anti-idiotypic antibodies.