In roughly 30% of patients with haemophilia selleckchem A, replacement therapy with factor VIII results in the development of neutralizing antibodies [1]. The development of these inhibitory antibodies in such a high percentage of patients is, from the point of view of the immunology, unexpected since intravenous injection of antigens is considered an inefficient mechanism for promoting an immune response. These inhibitors can, in some cases, be eliminated by immune tolerance protocols. A better understanding of the mechanisms that lead to inhibitor development is critical to devising improved schemes for reducing inhibitor development
and eliminating existing inhibitors. Improved models of inhibitor development are central not only to understanding the development of antibodies in response to replacement therapy but also to evaluating new therapeutic agents. Development of therapeutic agents with improved properties, such as increased half-life or higher activity, holds promise to improve therapy. However, these altered properties arise from changes in the protein structure. It is important to evaluate these new molecules at the preclinical level to insure, to the greatest extent possible, that these improved agents are not immunogenic
before moving into clinical trials. Newer models that incorporate our growing understanding of inhibitor development in haemophilia patients are being developed. These models, once validated, check details can Pifithrin-�� mw be an important step in evaluating new therapies. Newer therapeutics with altered properties also pose a challenge in terms of evaluating their efficacy. It is not always clear that clinical or ex vivo assays are good surrogate markers for in vivo activity with these newer agents. In studies in vivo on mice, the tail clip has been a standard assay and does a good job of measuring blood loss in an acute setting. But in haemophilia
patients much of the bleeding is associated with joint injury and a model that could mimic some aspects of the human disease would be a useful addition to our armamentarium. Furthermore, in molecules with prolonged half-life, an assessment of efficacy should perhaps incorporate the longer duration of high levels of antigen. Newer models of bleeding and healing in mice may give us a more subtle analysis of in vivo efficacy and help in the preclinical evaluation of new therapeutics. The rules that govern the immunogenicity of clotting factor concentrates, and in particular that of FVIII, depend primarily of the immunological status of the host who is programmed to mount a response towards an allogenic protein.