Recent data indicate that human T lymphocytes can adhere to elastin and respond to co-stimulatory signals of that protein. This reactivity is mediated by non-integrin receptor, elastin binding protein. In addition, another receptor belonging to integrin family may be also involved. T cell interactions with elastin (but not other extracellular matrix proteins) appear to be upregulated in healthy males and at least patients with vasculitis. Interestingly, statins in pharmacological concentrations strongly and selectively block those interactions. Our data point to the potential role of T cell interactions with elastin in immunopathology of vasculitis and atherosclerosis.
The immune response triggered following pathogen recognition, though required to clear the infection, can be detrimental if it is produced in excess or fails to resolve promptly. Excessive inflammation contributes to infectious and noninfectious pathologies in the gut (such as inflammatory bowel disease), lung (such as bronchiolitis), and in a variety of autoimmune conditions. T cells contribute significantly to pathology during inflammation. Global anti-inflammatory strategies can alleviate the consequences of exuberant inflammation by suppressing T cell activity, but may leave the patient vulnerable to opportunistic infection. More specific therapies aim to suppress only those T cells involved in the disease process, and one such approach is to target late costimulatory molecules. These are not expressed on na?ve or resting memory cells. Rather, they have a specific window of expression and their ligation results in the production of abundant inflammatory cytokines. By targeting these molecules, it is hoped that inflammation will reduce, but that therapies will be specific enough to avoid, global immune suppression. This review focuses on the late costimulatory molecule OX40, compare it with other T cell costimulators, and highlight why it is a more suitable target for immune intervention than other immune suppressive strategies.
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