FVIII is a multi-domain protein organized in a heavy and a light chain, and a B-domain whose biological function is still a matter of debate. The 3D structure of a B-domain-deleted FVIII variant has been determined by X-ray crystallography, leaving unexplained the functional nature of the flexible B-domain which could play an important role in the structure-function relationship since it is removed during the activation process. To obtain clues on the function of the B-domain, the morphology of full-length FVIII and its isolated domains was determined in the absence or presence of Ca(2+). Recombinant full-length FVIII, the purified heavy chain, light chain and B-domain as well as B-domain-deleted rFVIII were analysed in buffers of different Ca(2+) concentrations by atomic force microscopy. In the absence of Ca(2+), FVIII appeared as a globular molecule, whereas at high amounts of Ca(2+) up to 50-nm long tail structures emerged. These tails could be identified as unravelled B-domains, as images of isolated B-domains showed the same morphology and heavy chains which include the B-domain were also rich of tails, whereas the isolated light chains and B-domain-deleted FVIII lacked any deviation from a globular shape. The images further suggested that the B-domain interacts with the light chain particularly at low Ca(2+) concentrations. Our results show a Ca(2+)-regulated conformational change of the B-domain in the context of full-length rFVIII. As the B-domain tightly associated with the core of the FVIII molecule under low Ca(2+)-concentrations, a stabilizing function on FVIII under non-activating conditions may be proposed.
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