This study revealed that T cells can discriminate between self- and neoself-antigens and that neoself-reactive T cells are involved in causing autoimmune diseases. Hisashi Arase, Osaka University
Autoimmune diseases are widespread and notoriously difficult to treat. This is partly because why the immune system attacks its tissues in patients with these conditions remains poorly understood.
In a study recently published in Cell, researchers from Osaka University have revealed that the body’s proteins with unusual structures trigger immune cells to unleash a wave of inflammation that leads to autoimmunity.
Autoimmune diseases develop when the body’s immune system mistakenly attacks its tissues instead of fighting off foreign invaders like bacteria or viruses. However, it has long been a mystery why this happens, as the immune system has many checks and balances to ensure it only reacts to ‘non-self’ triggers.
“T cells have been thought to discriminate between small fragments of protein derived from self and non-self proteins presented on the major histocompatibility complex II (MHC-II), and ‘trained’ not to respond self-antigens” explains senior author of the study Hisashi Arase. “However, when the MHC-II is missing a crucial piece called the invariant chain (Ii), it can present larger, misfolded self-antigens, called herself-antigens, to T cells.”
Given that autoantibody to oneself-antigens are frequently found in patients with autoimmune diseases, the researchers explored T cell reactivity in patients with lupus and in mice, in which I was depleted from an adult. They also investigated the effect of Epstein–Barr virus (EBV) infection, a risk factor for lupus, on T cell reactivity to neoself-antigens.
“The results were striking,” says Shunsuke Mori, lead author. “Approximately 10% of clonally expanded T cell repertoire in lupus patients recognized neoself-antigens. Furthermore, induction of neoself-antigens induced lupus-like disease in mice, meaning that they mounted an immune response to the body’s tissues, thereby causing autoimmune disease.”
Furthermore, the researchers found that reactivation of EBV, which most people are infected with but are usually dormant, increases the presentation of oneself-antigens on MHC-II by downregulating the expression of Ii, triggering the activation of T cells directed against the body. This could explain why EBV reactivation is linked to the onset or exacerbation of lupus.
“Our findings demonstrate that T cells discriminate self- and neoself-antigens and do not recognize neoself-antigens as self-antigens, thus leading to the development of autoimmunity when neoself-antigens are presented on MHC-II,” says Arase.
This study substantially increases our understanding of the self-tolerance of T cells as well as the causes of autoimmune disease by identifying oneself-antigens as a distinct class of antigens that trigger an inappropriate immune response. This insight into why the body begins to attack itself could help develop new treatments for autoimmune disorders like lupus.