Erythrocyte Saturation with IgG Is Required for Inducing Antibody-Mediated Immune Suppression and Impacts Both Erythrocyte Clearance and Antigen-Modulation Mechanisms.

Anti-D prevents hemolytic disease of the fetus and newborn, and this mechanism has been referred to as Ab-mediated immune suppression (AMIS). Anti-D, as well as other polyclonal AMIS-inducing Abs, most often induce both epitope masking and erythrocyte clearance mechanisms. We have previously observed that some Abs that successfully induce AMIS effects could be split into those that mediate epitope masking versus those that induce erythrocyte clearance, allowing the ability to analyze these mechanisms separately. In addition, AMIS-inducing activity has recently been shown to induce Ag modulation (Ag loss from the erythrocyte surface). To assess these mechanisms, we immunized mice with transgenic murine RBCs expressing a single Ag protein comprising a recombinant Ag composed of hen egg lysozyme, OVA sequences comprising aa 251-349, and the human Duffy transmembrane protein (HOD-Ag) with serial doses of polyclonal anti-OVA IgG as the AMIS-inducing Ab. The anti-OVA Ab induced AMIS in the absence of apparent epitope masking. AMIS occurred only when the erythrocytes appeared saturated with IgG. This Ab was capable of inducing HOD-RBC clearance, as well as loss of the OVA epitope at doses of Ab that caused AMIS effects. HOD-RBCs also lost reactivity with Abs specific for the hen egg lysozyme and Duffy portions of the Ag consistent with the initiation of Ag modulation and/or trogocytosis mechanisms. These data support the concept that an AMIS-inducing Ab that does not cause epitope masking can induce AMIS effects in a manner consistent with RBC clearance and/or Ag modulation.

Understanding the immunogenicity and antigenicity of nanomaterials: Past, present and future.

Nanoparticle immunogenicity and antigenicity have been under investigation for many years. During the past decade, significant progress has been made in understanding what makes a nanoparticle immunogenic, how immune cells respond to nanoparticles, what consequences of nanoparticle-specific antibody formation exist and how they challenge the application of nanoparticles for drug delivery. Moreover, it has been recognized that accidental contamination of therapeutic protein formulations with nanosized particulate materials may contribute to the immunogenicity of this type of biotechnology products. While the immunological properties of engineered nanomaterials and their application as vaccine carriers and adjuvants have been given substantial consideration in the current literature, little attention has been paid to nanoparticle immuno- and antigenicity. To fill in this gap, we herein provide an overview of this subject to highlight the current state of the field, review past and present research, and discuss future research directions.

Immune modulation by bacterial outer membrane vesicles.

Gram-negative bacteria shed extracellular outer membrane vesicles (OMVs) during their normal growth both in vitro and in vivo. OMVs are spherical, bilayered membrane nanostructures that contain many components found within the parent bacterium. Until recently, OMVs were dismissed as a by-product of bacterial growth; however, findings within the past decade have revealed that both pathogenic and commensal bacteria can use OMVs to manipulate the host immune response. In this Review, we describe the mechanisms through which OMVs induce host pathology or immune tolerance, and we discuss the development of OMVs as innovative nanotechnologies.

Implicancia de la inmunidad innata del epitelio bronquiolar en la modulación y prevención del asma / Implication of innate immunity in modulating bronchial epithelium and prevention of asthma

El asma alérgica ha incrementado su prevalencia, constituyéndose como un problema mundial de salud. Factores ambientales derivados de la vida moderna han sido vinculados a este fenómeno a través de la hipótesis de la higiene; la cual postula que la vida urbana disminuye la potenciación de la inmunidad innata, lograda a través del reconocimiento de estímulos microbianos por los receptores Toll-like (TLRs), conduciendo a la mayor prevalencia de respuestas alérgicas. Las investigaciones en asma en el último siglo han tenido como objetivo la disminución de la respuesta inmune adaptativa Th2 asociada a las alergias; sin embargo han conseguido escasos avances terapéuticos. Actualmente, es creciente el número de evidencias que implican a los componentes estructurales de la vía aérea en el inicio y progresión del asma; no obstante su rol en la prevención de la inflamación alérgica no ha sido suficientemente evaluado. Por lo tanto, el presente trabajo de Tesis Doctoral tuvo como objetivo general el estudio de la interacción de la inmunidad innata del epitelio bronquiolar y la inflamación alérgica del asma.

ABSTRACT: Recently, asthma rates have increased becoming a global health problem. The role of environmental factors in this increase, due to modern lifestyles, has been suggested by the hygiene hypothesis, which postulated that the urban hygienic conditions skip the early exposure to microbes hence that are clue to promote innate immune activation by signalling through the Toll-like receptors (TLRs) and thus preventing the allergic responses. Even though many investigations on asthma have been focused on the reduction of the allergic Th2-nflammatory response in the last century, the therapeutic advances have been scarce. Nowadays, there is increasing evidence of the involvement of the airway epithelial cells on the origin and progression of asthma. However, the role of these cells in preventing the triggering of allergic inflammation has not been evaluated. Therefore, the main objective of this thesis was to study the interaction of innate immunity of bronchiolar epithelium and allergic inflammation in asthma.

Antigen modulation confers protection to red blood cells from antibody through Fcγ receptor ligation.

Autoantibodies and alloantibodies can damage self-tissue or transplanted tissues through either fixation of complement or ligation of FcγRs. Several pathways have been described that imbue self-tissues with resistance to damage from complement fixation, as a protective measure against damage from these Abs. However, it has been unclear whether parallel pathways exist to provide protection from FcγR ligation by bound Abs. In this article, we describe a novel pathway by which cell surface Ag is specifically decreased as a result of Ab binding (Ag modulation) to the extent of conferring protection to recognized cells from Fcγ-dependent clearance. Moreover, the Ag modulation in this system requires FcγR ligation. Together, these findings provide unique evidence of self-protective pathways for FcγR-mediated Ab damage.

Modulation of thyroid hormone receptors, TRα and TRß, by using different doses of triiodothyronine (T3) at different times.

OBJECTIVE: To examine the effect of different doses of triiodothyronine (T3) on mRNA levels of thyroid hormone receptors, TRα and TRß, at different times. MATERIALS AND METHODS: 3T3-L1 adipocytes were incubated with T3 (physiological dose: F; supraphysiological doses: SI or SII), or without T3 (control, C) for 0.5, 1, 6, or 24h. TRα and TRß mRNA was detected using real-time polymerase chain reaction. RESULTS: F increased TRß mRNA levels at 0.5h. After 1h, TRα levels increased with F and SI and TRß levels decreased with SII compared with C, F, and SI. After 6h, both genes were suppressed at all concentrations. In 24h, TRα and TRß levels were similar to those of C group. CONCLUSIONS: T3 action with F began at 1h for TRα and at 0.5h for TRß. These results suggest the importance of knowing the times and doses that activate T3 receptors in adipocytes.

Modulation of thyroid hormone receptors, TRα and TRβ, by using different doses of triiodothyronine (T3) at different times / Modulação dos receptores de hormônio tireoidiano, TRα e TRβ, utilizando diferentes doses de triiodotironina (T3) em diferentes tempos

OBJECTIVE: To examine the effect of different doses of triiodothyronine (T3) on mRNA levels of thyroid hormone receptors, TRα and TRβ, at different times. MATERIALS AND METHODS: 3T3-L1 adipocytes were incubated with T3 (physiological dose: F; supraphysiological doses: SI or SII), or without T3 (control, C) for 0.5, 1, 6, or 24h. TRα and TRβ mRNA was detected using real-time polymerase chain reaction. RESULTS: F increased TRβ mRNA levels at 0.5h. After 1h, TRα levels increased with F and SI and TRβ levels decreased with SII compared with C, F, and SI. After 6h, both genes were suppressed at all concentrations. In 24h, TRα and TRβ levels were similar to those of C group. CONCLUSIONS: T3 action with F began at 1h for TRα and at 0.5h for TRβ. These results suggest the importance of knowing the times and doses that activate T3 receptors in adipocytes.

OBJETIVO: Examinar o efeito de diferentes doses de triiodotironina (T3) sobre a expressão gênica dos receptores TRα e TRβ em diferentes tempos. MATERIAIS E MÉTODOS: Adipócitos, 3T3-L1, foram incubados com T3 nas doses fisiológica (F, 10nM) e suprafisiológicas (SI, 100nM ou SII, 1000nM) ou veículo (controle, C) durante 0,5, 1, 6 ou 24h. mRNA dos TRs foram detectados utilizando PCR em tempo real. RESULTADOS: Níveis de TRβ aumentaram em F em 0,5h. Após 1h, níveis de TRα aumentaram em F e SI comparado ao C, enquanto TRβ diminuiu no SII comparado com C, F, e SI. Após 6h, ambos os genes foram suprimidos em todas concentrações. Em 24h, níveis de TRα e TRβ retornaram aos do C. CONCLUSÕES: Ação do T3 em F iniciou-se em 1h para TRα e 0,5h para TRβ. Esses resultados são importantes para determinar tempo inicial e dose de T3 em que os receptores de HT são ativados em adipócitos.

Follicular lymphoma and the immune system: from pathogenesis to antibody therapy.

Follicular lymphoma (FL) is a B-cell tumor arising in germinal centers and retaining features of its normal B-cell counterpart. Lymphomagenesis appears stepwise from the t(14;18) translocation, through FL-like cells, to FL in situ, then to overt FL. Surface Ig is mandatory and carries a striking V-region modification because of introduction of glycan addition sites during somatic mutation. These are positively selected and acquire unusual high mannoses, which interact with lectins. The Ig-associated mannoses appear essential for FL, providing a disease- specific target for antibody attack. Antibody therapy is currently focused on anti-CD20 (rituximab), which appears to rely predominantly on the Fcγ module recruiting suitably activated macrophages. Immunogloblulin and, to some extent, CD20, can each escape antibody attack in vitro by modulation, but this is difficult to demonstrate clinically. Instead, studies of anti-CD20 therapy of FL suggest that effector modulation, similar to that seen in the suppression of autoimmune inflammation by infusions of normal human IgG, may be important. Both antigenic and effector modulations might be minimized by repeated small doses of more potent antibodies. Clearly, mechanisms of attack vary with the malignancy, the target molecule, and the antibody design, offering opportunities for optimizing this promising strategy.

Distinct early inflammatory events during ear tissue regeneration in mice selected for high inflammation bearing Slc11a1 R and S alleles

High inflammatory AIRmax mice homozygous for Slc11a1 R and S alleles were produced. AIRmaxSS mice showed faster ear tissue regeneration than AIRmaxRR mice, suggesting that the Sallele favored tissue restoration. Here, we investigated the gene expression profiles and the inflammatory reactions of AIRmaxRR and AIRmaxSS mice during the initial phase of ear tissue regeneration. We observed superior levels of analysis of wound myeloperoxidase and edema inAIRmaxSS mice, although similar cell influx was verified in both lines. Of the genes, 794 were up- and 674 down-regulated in AIRmaxRR, while 735 genes were found to be up- and 1616 down-regulated in AIRmaxSS mice 48 h after punch. Both mouse lines showed significant over-represented genes related to cell proliferation; however AIRmaxSS displayed up-regulation of inflammatory response genes. Quantitative PCR experiments showed higher expressions of Tgfb1, Dap12 and Trem1 genes in AIRmaxSS mice. These results indicate that Slc11a1 gene modulated the early inflammatory events of ear tissue regeneration.

Specific T-cell proliferation to myelin peptides in relapsing-remitting multiple sclerosis.

BACKGROUND: The identification of major immunogenic peptides in multiple sclerosis (MS) is of great importance for the development of antigen-specific therapies. Cellular reactivity against a selected mix of seven myelin peptides was evaluated in vitro. The evolution of this reactivity over time and its correlation with clinical variables was also analysed. MATERIAL AND METHODS: Forty-two patients with MS, 15 with other demyelinating diseases and 40 healthy donors (HD) were studied. Cell proliferation was measured by 3[H] thymidine incorporation into samples obtained at 0, 3, 6 and 12months of MS patient follow-up. RESULTS: A positive reaction to the peptide mix was detected in 31 of the 42 patients (74%), 12 of the 40 HD (30%) and 6 of the 15 (40%) patients with other demyelinating diseases. Patients with positive proliferation had greater disability (EDSS score, 3 [1-5.5] vs. 1.0[1-2], P=0.021), higher number of relapses (7±4.1 vs. 3±1.2, P<0.001) and shorter time since the last relapse (9±7.5 vs. 32±12.3months, P=0.036). After 12months of follow-up, cell reactivity was maintained in 33 patients (78%). CONCLUSION: A high percentage of patients exhibit a significant and maintained reactivity to myelin peptides over time. Therefore, this mix may be useful as a source of antigen in the development of protocols aimed at inducing specific tolerance in MS.

[Cells antigens' expression modulation during induction treatment of childhood acute lymphoblastic leukemia]. / Zmiany ekspresji determinant komórkowych w trakcie leczenia indukcyjnego dzieci z ostra bialaczka limfoblastyczna.

Leukemias are the most common malignancy in children, and acute lymphoblastic leukemia (ALL) accounts for 85% of all childhood leukemias. Sequential monitoring of MRD (minimal residual disease) in a set time points during the induction therapy in ALL proves to be a powerful and independent predictor of treatment outcome. Crucial limitation of MRD monitoring by flow cytometry is immunophenotypic changes seen at relapse. Up to now there are single publications about immunophenotypic changes during treatment of ALL in children. Objective was to assess changes in expression of cell antigens during induction treatment of ALL. From May 2005 to January 2008, from among 78 patients with ALL treated in Oncology and Hematology Department, Children's University Hospital in Krakow according to international treatment protocol ALL IC-BFM-2002, 42 were enrolled in assessment of antigens' cells modulation expression during induction. Finally, 24 boys and 18 girls were eligible for evaluation. For MRD detection 4-colour flow cytometry with FACS Diva Software v.5.1 (BD Immunocytometry Systems) was used. The panel of monoclonal antibodies used for MRD detection was based on ALL IC-BFM-2002 standard, modified by additional antibodies combinations from ALL-BFM-2000 protocol. Identification of leukemia associated phenotype (LAP), used for cell analysis in sequential time points, with a set monoclonal antibodies panel, was possible in all analyzed patients. Superficial and cytoplasmic antigens modulation was observed in most of the patients during MRD monitoring. Changes of antigens were seen mostly in PB on day 8 and on day 15 both in PB and BM. The most common antigen modulation found in children with cALL was: downmodulation of CD10, CD34, CD19, and upmodulation of CD45, CD11a, CD20. Unequivocal character of modulation of CD66c, CD58, CD38 was difficult to define (up and downmodulation). Introduction of treatment monitoring based on flow cytometry MRD measurement could lead to further individualization of therapy and improovement of cure rates in ALL, as well as to reducing side effects of ALL treatment and decrease total cost of patient therapy.

Antigen loss from antibody-coated red blood cells.

Clinically significant signs and symptoms of hemolysis can result from the transfusion of crossmatch incompatible blood, the development of anti-red blood cell (RBC) alloantibodies posttransfusion, or the development of autoantibodies to RBCs (ie, autoimmune hemolytic anemia). However, a less understood and poorly appreciated phenomenon is when an antibody induces the loss of its target antigen without significant damage to the cells themselves. This has been referred to as "depressed antigen," "antigen suppression," "weakened antigenicity," and "antigen loss." This phenomenon has been observed for multiple blood group antigens on human RBCs, in addition to antigens on leukocytes, platelets, neurons, and neoplastic cells. This review discusses the published human case reports of antigen loss in each of the contexts described above and describes several experimental models, including whole animal models and in vitro culture systems. Our current understanding of the cellular and molecular mechanisms is discussed, and the role of antigen loss phenomena in both normal immune function and in disease states is reviewed.

Identification of an altered peptide ligand based on the endogenously presented, rheumatoid arthritis-associated, human cartilage glycoprotein-39(263-275) epitope: an MHC anchor variant peptide for immune modulation.

We sought to identify an altered peptide ligand (APL) based on the endogenously expressed synovial auto-epitope of human cartilage glycoprotein-39 (HC gp-39) for modulation of cognate, HLA-DR4-restricted T cells. For this purpose we employed a panel of well-characterized T cell hybridomas generated from HC gp-39-immunized HLA-DR4 transgenic mice. The hybridomas all respond to the HC gp-39(263-275) epitope when bound to HLA-DR4(B1*0401) but differ in their fine specificities. First, the major histocompatibility complex (MHC) and T-cell receptor (TCR) contact residues were identified by analysis of single site substituted analogue peptides for HLA-DR4 binding and cognate T cell recognition using both T hybridomas and polyclonal T cells from peptide-immunized HLA-DR4 transgenic mice. Analysis of single site substituted APL by cognate T cells led to identification of Phe265 as the dominant MHC anchor. The amino acids Ala268, Ser269, Glu271 and Thr272 constituted the major TCR contact residues, as substitution at these positions did not affect HLA-DR4(B1*0401) binding but abrogated T cell responses. A structural model for visualisation of TCR recognition was derived. Second, a set of non-classical APLs, modified at the MHC key anchor position but with unaltered TCR contacts, was developed. When these APLs were analysed, a partial TCR agonist was identified and found to modulate the HC gp-39(263-275)-specific, pro-inflammatory response in HLA-DR4 transgenic mice. We identified a non-classical APL by modification of the p1 MHC anchor in a synovial auto-epitope. This APL may qualify for rheumatoid arthritis immunotherapy.

Antigenic profile of human recombinant PrP: generation and characterization of a versatile polyclonal antiserum.

We describe the quality of a rabbit polyclonal antiserum (Sal1) that was raised against mature human recombinant prion protein (rhuPrP). Epitope mapping demonstrated that the Sal1 antiserum recognized six to eight linear antigenic sites, depending on the animal species. The versatility of the antiserum was evident from the range of animal species and immunochemical techniques where it could be applied successfully. Antigen absorption studies revealed differences in the location and number of epitopes remaining after incubation with soluble or aggregated antigen.Our knowledge concerning immunoprophylaxis against prion diseases and the important role played by conformational changes of PrP is increasing rapidly. The findings reported here should add to this body of knowledge.

Differential effect of HIV-1 protease inhibitors on P-glycoprotein function in multidrug-resistant variants of the human CD4+ T lymphoblastoid CEM cell line.

BACKGROUND: P-glycoprotein causing multidrug resistance (MDR) and limiting the efficacy of antineoplastic drugs and protease inhibitors (PIs) is expressed in human CD4+ T lymphocytes, one of the main targets of HIV, in a range of pharmacological barriers and at varying degrees in non-Hodgkin's lymphoma and Kaposi's sarcoma. METHODS: The differential effect of PIs on P-glycoprotein function was studied by measuring drug efflux inhibition, MDR-reversing ability and MAb UIC2 epitope modulation in MDR variants of the human T lymphoblastoid CEM cell line. RESULTS: The treatment of MDR cells with PIs induces different UIC2 epitope modulations indicating a differential recognition and binding of these antiviral drugs by MDR1 P-glycoprotein. In fact, ritonavir, saquinavir and indinavir act differently to the P-glycoprotein blocker in CEM-VBL10 cells. The MDR level of these cells was markedly affected by ritonavir and saquinavir in the order, while the PI indinavir does not seem to compete with the P-glycoprotein drug transport function. In CEM-VBL100 cells, expressing a very high number of P-glycoprotein molecules, only ritonavir acts as an efficient drug efflux inhibitor and MDR-reversing agent. CONCLUSION: The HIV-1 PIs ritonavir and saquinavir even at different levels act as genuine P-glycoprotein substrates by inhibiting dye substrate efflux, modulating UIC2 epitope and reversing drug resistance. Conversely, at least in the in vitro system used in the present study, the PI indinavir does not significantly alter P-glycoprotein drug transport activities and function.