Route of Antigen Presentation Can Determine the Selection of Foxp3-Dependent or Foxp3-Independent Dominant Immune Tolerance.

It has been shown that dominant tolerance, namely in transplantation, requires Foxp3 regulatory T cells. Although most tolerance-inducing regimens rely on regulatory T cells, we found that induction of tolerance to proteins in aluminum hydroxide can be achieved in Foxp3-deficient mice using nondepleting anti-CD4 Abs. This type of tolerance is Ag specific, and tolerant mice retain immune competence to respond to unrelated Ags.

Necroptosis is a key pathogenic event in human and experimental murine models of non-alcoholic steatohepatitis.

Hepatocyte cell death, inflammation and oxidative stress constitute key pathogenic mechanisms underlying non-alcoholic fatty liver disease (NAFLD). We aimed to investigate the role of necroptosis in human and experimental NAFLD and its association with tumour necrosis factor α (TNF-α) and oxidative stress. Serum markers of necrosis, liver receptor-interacting protein 3 (RIP3) and phosphorylated mixed lineage kinase domain-like (MLKL) were evaluated in control individuals and patients with NAFLD.

Mechanisms Underlying CD4+ Treg Immune Regulation in the Adult: From Experiments to Models.

To maintain immunological balance the organism has to be tolerant to self while remaining competent to mount an effective immune response against third-party antigens. An important mechanism of this immune regulation involves the action of regulatory T-cell (Tregs). In this mini-review, we discuss some of the known and proposed mechanisms by which Tregs exert their influence in the context of immune regulation, and the contribution of mathematical modeling for these mechanistic studies.

The fate of CD4+ T cells under tolerance-inducing stimulation: a modeling perspective.

Non-depleting anti-CD4 monoclonal antibodies (MAbs) induce long-term dominant tolerance mediated by regulatory T cells in several animal models of transplantation, allergy and autoimmunity. However, despite many studies on tolerance induction following CD4 blockade, the consequences of this intervention on T-cell kinetics are still unknown. Mathematical models have been useful to understand lymphocyte dynamics, estimating rates of proliferation and cell death following an intervention.

Sub-optimal CD4+ T-cell activation triggers autonomous TGF-β-dependent conversion to Foxp3+ regulatory T cells.

Classical in vitro Treg conversion assays, which rely on optimal T-cell activation in the presence of exogenous TGF-β, induce Foxp3 expression at a frequency far above that which is observed in vivo in Treg-dependent models of oral or transplantation tolerance. We have found that suboptimal murine T-cell activation in vitro results in induction of Foxp3 expression, in the absence of exogenous TGF-β, at a frequency similar to that which we found in vivo upon anti-CD4-induced transplantation tolerance. We show that TCR triggering with either low-dose anti-CD3 or low-dose agonist peptide, as well as down-modulation of the TCR signal with non-depleting anti-CD4, promotes TGF-β production by T cells, an event that precedes Foxp3 expression and is Foxp3 independent.

CD4-blockade can induce protection from peanut-induced anaphylaxis.

Monoclonal antibodies (mAb) have been shown effective in inducing immune tolerance in a range of animal models of autoimmunity, allergy, and transplantation. We investigated whether CD4-blockade, effective in inducing transplantation tolerance, could prevent systemic immune responses leading to anaphylaxis. We found that treatment with a non-depleting anti-CD4 mAb could prevent peanut-induced anaphylaxis following subsequent systemic exposure to crude peanut extract (CPE).

Identification of regulatory Foxp3+ invariant NKT cells induced by TGF-beta.

Invariant NKT (iNKT) cells were shown to prevent the onset of experimental autoimmune encephalomyelitis in mice following administration of their specific TCR agonist alpha-galactosylceramide. We found that this protection was associated with the emergence of a Foxp3(+) iNKT cell population in cervical lymph nodes. We demonstrate that the differentiation of these cells is critically dependent on TGF-beta in both mice and humans.