1.
Engineering less immunogenic and antigenic FVIII proteins.
Pratt, KP
Cellular immunology. 2016;:12-7
-
-
Free full text
-
Abstract
The development of neutralizing antibodies against blood coagulation factor VIII (FVIII), referred to clinically as "inhibitors", is the most challenging and deleterious adverse event to occur following intravenous infusions of FVIII to treat hemophilia A. Inhibitors occlude FVIII surfaces that must bind to activated phospholipid membranes, the serine proteinase factor IXa, and other components of the 'intrinsic tenase complex' in order to carry out its important role in accelerating blood coagulation. Inhibitors develop in up to one of every three patients, yet remarkably, a substantial majority of severe hemophilia A patients, who circulate no detectable FVIII antigen or activity, acquire immune tolerance to FVIII during initial infusions or else after intensive FVIII therapy to overcome their inhibitor. The design of less immunogenic FVIII proteins through identification and modification ("de-immunization") of immunodominant T-cell epitopes is an important goal. For patients who develop persistent inhibitors, modification of B-cell epitopes through substitution of surface-exposed amino acid side chains and/or attachment of bulky moieties to interfere with FVIII attachment to antibodies and memory B cells is a promising approach. Both experimental and computational methods are being employed to achieve these goals. Future therapies for hemophilia A, as well as other monogenic deficiency diseases, are likely to involve administration of less immunogenic proteins in conjunction with other novel immunotherapies to promote a regulatory cellular environment promoting durable immune tolerance.
2.
Cellular immune responses in hemophilia: why do inhibitors develop in some, but not all hemophiliacs?
White, GC, Kempton, CL, Grimsley, A, Nielsen, B, Roberts, HR
Journal of thrombosis and haemostasis : JTH. 2005;(8):1676-81
-
-
Free full text
-
Abstract
Advances in molecular immunology over the past two decades permit a better understanding of why antibodies develop to peptide antigens like factor VIII and the events that lead to the development of these antibodies. Two important variables that are critical in antibody formation are (i) the molecular defect in FVIII and the consequences of that defect on translation and protein production, and (ii) the major histocompatibility complex (MHC) molecules which bind specific peptide sequences and present those peptides to CD4 T lymphocytes to initiate the cellular cascade leading to B-cell stimulation and differentiation, and ultimately to antibody formation. Inhibitors develop in hemophilia because transfused FVIII can be seen as a foreign protein and elicits an immune response in much the same way that any other foreign protein might elicit an immune response. However, not all hemophiliacs generate an immune response, either because they do not recognize FVIII as foreign or because their MHC phenotype is such that a cellular immune response is not initiated. In this model, it is the combination of molecular defect and MHC phenotype that determines inhibitor formation. The interplay of these two variables in the context of why some but not all hemophiliacs develop antibodies after treatment with replacement factor is reviewed.