C Toriani-Terenzi scite author profile

C Toriani-Terenzi

5Publications

68Citation Statements Received

101Citation Statements Given

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161

101

Affiliations

Università Cattolica del Sacro Cuore

Publications

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Th1 and Th2 Cytokine Modulation by IL-10/IL-12 Imbalance in Autoimmune Haemolytic Anaemia (AIHA)

Fagiolo

Toriani-Terenzi²

2002

Autoimmunity

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Recent studies about autoimmune diseases in animal models and in humans focused their attention on lymphocyte activation and in vitro cytokine production. The respective contribution of the Th1 and Th2 cytokines to the pathogenesis of autoimmune diseases is still a matter of debate. In this study the role of IL-2, IL-4, IFN-gamma, IL-10 and IL-12 cytokines were investigated by examining their spontaneous and mitogen-induced (OKT3 and PHA or LPS) synthesis and T-cells proliferative response by peripheral blood mononuclear cells to determine their role in the pathogenesis of AIHA. Thirteen patients affected by AIHA, idiopathic or associated with other diseases, and 13 healthy subjects, randomly selected from a group of blood donors, were investigated. This study indicated that AIHA is characterised by increased basal synthesis of IL-4 and decreased levels of IFN-gamma compared with healthy controls (p < 0,01). These results suggest that there is a basal decrease of Th1 cytokine and an increase of the Th2 ones. Enhanced IL-2 levels in AIHA patients are likely due to the necessity of a T-cell proliferation stimulus rather than produced as Th1 prevalent stimulation. Furthermore, it has been observed a significant increase in IL-12 production in LPS stimulated cultures from healthy controls, but not in AIHA patients, that shows IL-10 increased levels, which could cause a secondary decrease in IFN-gamma production and a stimulation of Th2 differentiation. These observations indicate that decreased production of Th1-type cytokines and prevalent Th2 ones leading to autoantibodies production in AIHA may be secondary to the imbalance between IL-10 and IL-12. These results strongly suggest that manipulation of the cytokine network, i.e. IL-10/IL-12 balance, maintained by cells of the innate immune system, can have a strong effect on the incidence of AIHA and their modulation might be useful for a therapeutic control of the disorder.

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IL-10 and the Cytokine Network in the Pathogenesis of Human Autoimmune Hemolytic Anemia

Toriani-Terenzi

Fagiolo

2005

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In animal and human autoimmune hemolytic anemia (AIHA) immunologic tolerance loss against RBC self-antigens could be originated by several mechanisms: ignored self-antigens' epitopes, polyclonal lymphocyte activation, molecular mimicry between self- and foreign antigens, central or peripheral tolerance errors, or immunoregulatory disturbances including the alteration of a cytokine network. To identify the immunologic factors contributing to autoimmune onset and maintenance, several murine strains (such as NZB and NZB/NZW) that spontaneously develop a complex autoimmune syndrome, including AIHA, have been extensively studied. In human AIHA, the respective roles of IL-2, IL-4, IFN-gamma, IL-10, and IL-12 were investigated by examining the spontaneous and mitogen-induced (OKT3 or LPS) production of these cytokines. ELISA methods were used in PBMCs to evaluate whether the manipulation of IL-10/IL-12 balance can have an effect on the incidence of autoimmune diseases and whether this might be useful for the control of AIHA. Results affirmed that AIHA is a disease that exhibits an increased basal synthesis of IL-4 and decreased levels of IFN-gamma by AIHA PBMCs compared with controls and that there is a basal increase of Th2 cytokines. Th1-type cytokine decrease in the basal state occurred in parallel with an increase of constitutive IL-10 production and an IL-12 decrease. In conclusion, decreased production of Th1-type cytokines and the production of autoantibodies in AIHA may be secondary to the imbalance between IL-10 and IL-12, and the neutralization of IL-10 may be efficacious in diminishing the clinical pathology associated with Th2 subset prevalence. In the same way, the treatment with IL-12 could offer a second and independent level of blockade against the consequences of the overstimulation of B cells associated with AIHA.

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ReviewMechanisms of Immunological Tolerance Loss Versus Erythrocyte Self-antigens and Autoimmune Hemolytic Anemia

Fagiolo

Toriani-Terenzi

2003

Autoimmunity

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Recent studies on animal and human autoimmune hemolytic anemia (AIHA) suggest that immunological tolerance loss toward red blood cells (RBC) self-antigens may be originate by different, non-mutually exclusive, mechanisms. According to now available data the identified mechanisms may be: ignorance against RBC self-antigens; molecular mimicry; polyclonal T and/or B cells activation; errors in central or peripheral tolerance; immunoregulatory disorders including cytokine network alteration. In some patients with AIHA, stimulation of PMBC by synthetic Rh peptides indicate that ignorant T and/or B cell clones may recognize cryptic RBC self-antigens. AIHA associated with bacterial or viral infections seems to be produced by polyclonal T and/or B cells activation against foreign antigens which mimic protein or carbohydrate epitopes on RBC. Polyclonal activation of host B cell clones by donor alloreactive T cells causes the AIHA in chronic GVHD. As the tolerance loss is concerned, experiments on mouse lines expressing a transgene with autoantibody activity against murine RBC have shown that non-deleted peripheral B cell clones may produce RBC autoantibodies. In humans a genetic defect of Fas/FasL autoreactive lymphocytes apoptosis may be associated to AIHA. Immunoregulatory disorders due to depletion of CD4+ CD25+ T cells or Th1/Th2 cytokines imbalance may induce autoimmune diseases. In mice AIHA may be induced or improved by cytokines or anticytokine antibodies administration. In NZB/W mice and human AIHA there is an increased production of Th2 cytokines as IL4 and IL10 but INF-gamma reduced production. In addition in human AIHA has been shown a downregulation of IL12 and therefore, an IL10/IL12 immunoregulatory circuit imbalance which might facilitate the RBC autoantibodies production.

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Cytokine network in autoimmune haemolytic anaemia: new probable targets for therapy

Toriani-Terenzi¹,

Pozzetto²,

Bianchi³

et al. 2002

Cancer Detection and Prevention

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IFN-γ and TNF-α production in γ-irradiated blood units by mononuclear cells and GVHD prevention

Fagiolo

Toriani-Terenzi

2002

Transfusion and Apheresis Science

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