Induced antigen-binding polyreactivity in human serum IgA.

Previous studies have shown that polyreactive antibodies play an important role in the frontline defense against the dissemination of pathogens in the pre-immune host. Interestingly, antigen-binding polyreactivity can not only be inherent, but also acquired post-translationally. The ability of individual monoclonal IgG and IgE antibodies to acquire polyreactivity following contact with various agents that destabilize protein structure (urea, low pH) or have a pro-oxidative potential (heme, ferrous ions) has been studied in detail.

The effect of experimental conditions in root dentin microcracks detection by micro-computed tomography.

The aim of the study was to assess the effect of different experimental conditions on registration of microcracks by means of micro-computed tomography. Twenty roots of permanent lower incisors were instrumented with SAF system, filled with a single-cone technique and retreated with the Pro Taper Universal Retreatment system. Each sample was measured in dry, water, and moist conditions.

Enhanced Pro-apoptotic Effects of Fe(II)-Modified IVIG on Human Neutrophils.

Mild modification of intravenous immunoglobulin (IVIG) has been reported to result in enhanced polyspecificity and leveraged therapeutic effects in animal models of inflammation. Here, we observed that IVIG modification by ferrous ions, heme or low pH exposure, shifted the repertoires of specificities in different directions. Ferrous ions exposed Fe(II)-IVIG, but not heme or low pH exposed IVIG, showed increased pro-apoptotic effects on neutrophil granulocytes that relied on a FAS-dependent mechanism.

Diagnostic Profiling of the Human Public IgM Repertoire With Scalable Mimotope Libraries.

Specific antibody reactivities are routinely used as biomarkers, but the antibody repertoire reactivity (igome) profiles are still neglected. Here, we propose rationally designed peptide arrays as efficient probes for these system level biomarkers. Most IgM antibodies are characterized by few somatic mutations, polyspecificity, and physiological autoreactivity with housekeeping function.

[Pooled Human Immunoglobulin Preparations as Immunomodulating Drugs].

It is time to celebrate the 125th anniversary of the first successful attempt to develop and use a specific high-titer antitoxic serum for treating diphtheria, a deadly infectious disease. This was followed by major advances in passive immunotherapy 75 years ago (production of pooled human IgG for subcutaneous injection) and 50 years ago (widespread technology for producing immunoglobulin preparations for intravenous administration). More than 200 tons of pooled human IgG are produced per year worldwide.

Heme-Exposed Pooled Therapeutic IgG Improves Endotoxemia Survival.

Antibody repertoires of healthy humans and animals contain a fraction of antibodies able to acquire additional polyspecificity following exposure to several biologically relevant redox molecules (free heme, reactive oxygen species, ferrous ions, HOCl, etc.). The physiological role of these "hidden" polyspecific antibodies is poorly understood.

Relationship between natural and heme-mediated antibody polyreactivity.

Polyreactive antibodies represent a considerable fraction of the immune repertoires. Some antibodies acquire polyreactivity post-translationally after interaction with various redox-active substances, including heme. Recently we have demonstrated that heme binding to a naturally polyreactive antibody (SPE7) results in a considerable broadening of the repertoire of recognized antigens.

Mechanism and functional implications of the heme-induced binding promiscuity of IgE.

A fraction of antibodies from healthy immune repertoires binds to heme and acquires the ability to recognize multiple antigens. The mechanism and functional consequences of heme-mediated antigen binding promiscuity (polyreactivity) are not understood. Here, we used SPE7, a mouse monoclonal IgE specific for dinitrophenyl that has been thoroughly characterized at the molecular level, as a model antibody to elucidate the mechanism and functional consequences of heme-mediated polyreactivity.

The human IgG anti-carbohydrate repertoire exhibits a universal architecture and contains specificity for microbial attachment sites.

Despite the paradigm that carbohydrates are T cell-independent antigens, isotype-switched glycan-specific immunoglobulin G (IgG) antibodies and polysaccharide-specific T cells are found in humans. We used a systems-level approach combined with glycan array technology to decipher the repertoire of carbohydrate-specific IgG antibodies in intravenous and subcutaneous immunoglobulin preparations. A strikingly universal architecture of this repertoire with modular organization among different donor populations revealed an association between immunogenicity or tolerance and particular structural features of glycans.

Antibody polyreactivity in health and disease: statu variabilis.

An Ab molecule or a BCR that is able to bind multiple structurally unrelated Ags is defined as polyreactive. Polyreactive Abs and BCRs constitute an important part of immune repertoires under physiological conditions and may play essential roles in immune defense and in the maintenance of immune homeostasis. In this review, we integrate and discuss different findings that reveal the indispensable role of Ag-binding polyreactivity in the immune system.

Targeted silencing of DNA-specific B cells combined with partial plasma cell depletion displays additive effects on delaying disease onset in lupus-prone mice.

Targeting autoreactive B lymphocytes at any stage of their differentiation could yield viable therapeutic strategies for treating autoimmunity. All currently used drugs, including the most recently introduced biological agents, lack target specificity. Selective silencing of double-stranded DNA-specific B cells in animals with spontaneous lupus has been achieved previously by the administration of a chimeric antibody molecule that cross-links their DNA-reactive B cell immunoglobulin receptors with inhibitory FcγIIb (CD32) receptors.

The protective effect of modified intravenous immunoglobulin in LPS sepsis model is associated with an increased IRA B cells response.

Intravenous immunoglobulin preparations (IVIg) that have undergone a mild oxidizing treatment with ferrous ions have an increased polyspecificity, which is not associated with a higher propensity to form aggregates. Among other biological properties of the modified IVIg, a protective effect in LPS sepsis model stands out as the native preparation is totally devoid of it or even exacerbates sepsis. A recent finding identified an LPS induced subset of B1 lymphocytes that migrate from the peritoneal cavity to the spleen acquiring the expression of CD93, GM-CSF as well as the capacity to control sepsis.

Antibody polyspecificity: what does it matter?

Polyspecificity (polyreactivity) is currently considered an intrinsic property of a subset of antibodies, primarily of naturally occurring autoantibodies. Polyspecificity is no longer viewed as a biologically irrelevant stickiness. Furthermore, the capacity to bind defined sets of unrelated antigens finds its structural explanation.

Intravenous immunoglobulins exposed to heme (heme IVIG) are more efficient than IVIG in attenuating autoimmune diabetes.

Intravenous immunoglobulins (IVIG) are known to have a therapeutic effect in some autoimmune diseases. We examined the effect of IVIG and heme-exposed IVIG on the development of immune mediated diabetes induced in C57BL/6 mice by multiple low doses of streptozotocin. IVIG were used in a dose of 200mg/kg daily for 15 days.

Progression of lupus-like disease drives the appearance of complement-activating IgG antibodies in MRL/lpr mice.

Objectives: Nucleic acids are known to induce complement activation, which results in the masking and removal of apoptotic cells exposing nuclear components. Dysregulation of these events is characteristic of SLE, a systemic autoimmune disease characterized by the appearance of ANAs. In this study, we aimed to investigate the relationship between development of ANAs and their effect on complement activation by nucleic acids.

Selective silencing of autoreactive B lymphocytes-Following the Nature's way.

A novel approach for the selective silencing of targeted autoreactive B lymphocytes is reviewed that mimics the physiological mechanisms for suppressing B cell activity. It is based on the use of bi- or tri-specific chimeric antibodies that cross-link BCRs with a pre-selected antigen-binding specificity with one or more inhibitory types of receptors on the surface of the same disease-associated B lymphocyte. The effect of these engineered antibodies was proved to be specific as they only suppressed the production of the targeted pathological antibodies while sparing those with other specificities.

Heterogeneous antigen recognition behavior of induced polyspecific antibodies.

Polyspecific antibodies represent a significant fraction of the antibody repertoires in healthy animals and humans. Interestingly, certain antibodies only acquire a polyspecific antigen-binding behavior after exposure to protein-modifying conditions, such as those found at inflammation sites, or used in small- and large-scale immunoglobulin purification. This phenomenon is referred to as "criptic polyspecificity".

Exposure of IgG to an acidic environment results in molecular modifications and in enhanced protective activity in sepsis.

IgG molecules are exposed on a regular basis to acidic conditions during immunoaffinity purification procedures, as well as during the production of some therapeutic immunoglobulin preparations. This exposure is known to induce in them an antigen-binding polyreactivity. The molecular mechanisms and the possible biological significance of this phenomenon remain, however, poorly understood.