peripheral tolerance

If these peripheral tolerance mechanisms also fail, autoimmunity may arise.

Immune tolerance is maintained by central and peripheral tolerance.

The second type of immunological tolerance is peripheral tolerance.

Recent evidence suggests that mast cells may be important mediators of T-dependent peripheral tolerance.

This may be one mechanism whereby peripheral tolerance is lost in SLE.

It occurs in three forms: central tolerance, peripheral tolerance and acquired tolerance.

Peripheral tolerance by deletion of and reversible anergy in matureT cells.

These data suggest a breakdown of peripheral tolerance and accumulation of autoreactive T cells in the periphery.

In this way, lymph node stromal cells participated in maintaining of the peripheral tolerance.

When it is functional, it can cause immune unresponsiveness to self-antigens via both central and peripheral tolerance.

Peripheral tolerance is immunological tolerance developed after T and B cells mature and enter the periphery.

Additional mechanisms of peripheral tolerance active in the periphery exist to silence these cells such as anergy, deletion, and regulatory T cells.

In addition, IL-2 may have a role in activation-induced T-cell death, therefore causing peripheral tolerance [ 6, 7].

A major mechanism of peripheral tolerance induction appears to involve the recognition of tolerizing antigens by T cells in the absence of costimulation [ 19].

A short, 5-day course of FcR-binding, anti-CD3 antibody treatment was able to re-establish peripheral tolerance in animal models of autoimmune disease, thereby completely reversing disease.

This is because B cells need co-stimulatory signals from T cells as well as the presence of its recognized antigen to proliferate and produce antibodies (Peripheral tolerance).

The autoimmune disease, type 1 diabetes can be caused by defective apoptosis, which leads to aberrant T cell AICD and defective peripheral tolerance.

It has recently become apparent that mechanisms of peripheral tolerance also exist, and we have considered the possibility that skewed X inactivation in a peripheral tolerizing compartment might also lead to inefficient tolerance.

Discussion A controlled balance between initiation and downregulation of immune responses (peripheral tolerance) is important for maintaining immune homeostasis, whereas dysfunctional immune regulation may lead to chronic inflammation or autoimmunity [ 29 ] .

A normal cell will display peptides from normal cellular protein turnover on its class I MHC, and CTLs will not be activated in response to them due to central and peripheral tolerance mechanisms.

Diamond's primary interests are in the mechanisms of central and peripheral tolerance of autoreactive B cells, and the defects in these mechanisms that are present in autoimmune disease, as well as the role of antibodies in brain disease.

Central tolerance is distinct from periphery tolerance in that it occurs while cells are still present in the primary lymphoid organs (thymus and bone-marrow), prior to export into the periphery, while peripheral tolerance is generated after the cells reach the periphery.

While autoimmunity is thought to result from the breakdown of central and peripheral tolerance, an undesirable immune responses such as transplant organ rejection occurs when the immune system is working properly and recognizes the transplanted organ as being non-self, leading to rejection of the transplanted tissue.

Regulatory T cells can be considered both central tolerance and peripheral tolerance mechanisms, as they can be generated from self(or foreign)-reactive T cells in the thymus during T cell differentiation, but they exert their immune suppression in the periphery on other self(or foreign)-reactive T cells.