Factor VIII circulates as a heterodimer composed of heavy (A1A2B domains) and light (A3C1C2 domains) chains, whereas the contiguous A1A2 domains are separate subunits in the active cofactor, factor VIIIa. Whereas the A1 subunit maintains a stable interaction with the A3C1C2 subunit, the A2 subunit is weakly associated in factor VIIIa and its dissociation accounts for the labile activity of the cofactor. In examining the ceruloplasmin-based factor VIII A domain model, potential hydrogen bonding based upon spatial separations of 2-fold increases in either or both decay rates compared with wild type; whereas, 7 mutants showed >2-fold increased rates in factor VIIIa decay compared with factor VIII decay. These results suggested that multiple residues at the A1-A2 and A2-A3 domain interfaces contribute to stabilizing the protein. Furthermore, these data discriminate residues that stabilize interactions in the procofactor from those in the cofactor, where hydrogen bonding in the latter appears to contribute more significantly to stability. This observation is consistent with an altered conformation involving new inter-subunit interactions involving A2 domain following procofactor activation.