AI Article Synopsis
- Hemophilia A is caused by mutations in blood coagulation factor VIII, and researchers developed a method to produce a modified version of factor VIII from mice.
- The production process achieved high levels of expression and purification, resulting in a highly active form of the protein that is more stable than its human counterpart.
- When tested in hemophilia A mice, the recombinant murine factor VIII did not trigger a strong immune response, offering a potential model for studying immune tolerance related to factor VIII.
Article Abstract
Hemophilia A is the inherited bleeding disorder that results from mutation of blood coagulation factor VIII (fVIII). Described here is the generation of a regulated expression system producing recombinant murine fVIII. Murine B-domainless fVIII was expressed at a peak level of 4 units/106 cells/24 h in serum-free media. Subsequently, a two-step purification procedure resulted in 5,300-fold enrichment and a 70% yield. Highly purified recombinant murine fVIII had a specific coagulant activity of 660 units per nanomole. It underwent proteolytic processing by thrombin to yield an activated heterotrimer that demonstrated significantly greater stability than activated human fVIII. Recombinant murine fVIII was utilized to generate an anti-fVIII polyclonal antibody. Intravenous injection of recombinant murine fVIII into hemophilia A mice failed to induce a significant anti-fVIII immune response using a schedule that yielded high titer inhibitory antibodies to human fVIII. This may provide an important model for the study of immune tolerance to fVIII.
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