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Research Article Free access | 10.1172/JCI118091

The role of fibrinogen D domain intermolecular association sites in the polymerization of fibrin and fibrinogen Tokyo II (gamma 275 Arg-->Cys).

M W Mosesson, K R Siebenlist, J P DiOrio, M Matsuda, J F Hainfeld, and J S Wall

University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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University of Wisconsin Medical School, Sinai Medical Center, Milwaukee 53233, USA.

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Published August 1, 1995 - More info

Published in Volume 96, Issue 2 on August 1, 1995
J Clin Invest. 1995;96(2):1053–1058. https://doi.org/10.1172/JCI118091.
© 1995 The American Society for Clinical Investigation
Published August 1, 1995 - Version history
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Abstract

Intermolecular end-to-middle domain pairing between a thrombin-exposed 'A' polymerization site in the central 'E' domain of fibrin, and a constitutive complementary 'a' site in each outer 'D' domain ('D:E'), is necessary but not alone sufficient for normal fibrin assembly, as judged from previous studies of a congenital dysfibrinogen, Tokyo II (gamma 275 arg-->cys), which showed defective fibrin clot assembly and a normal D:E interaction (Matsuda, M., M. Baba, K. Morimoto, and C. Nakamikawa, 1983. J. Clin. Invest. 72:1034-1041). In addition to the 'a' polymerization site, two other constitutive intermolecular association sites on fibrinogen D domains have been defined: between gamma chain regions containing the carboxy-terminal factor XIIIa crosslinking site ('gamma XL:gamma XL'); and between sites located at the outer ends of each molecule ('D:D') (Mosesson, M. W., K. R. Siebenlist, J. F. Hainfeld, and J. S. Wall, manuscript submitted for publication). We evaluated the function of these sites in Tokyo II fibrinogen, and confirmed that there was a normal fibrin D:E interaction, as determined from a normal fibrin crosslinking rate in the presence of factor XIIIa. We also found a normal gamma XL: gamma XL interaction, as assessed by a normal fibrinogen crosslinking rate. Judging from electron microscopic images, factor XIIIa-crosslinked Tokyo II fibrinogen failed to form elongated double-stranded fibrils like normal fibrinogen. Instead, it formed aggregated disordered collections of molecules, with occasional short fibrillar segments. In addition, Tokyo II fibrin formed an abnormal, extensively branched clot network containing many tapered terminating fibers. These findings indicate that the Tokyo II fibrinogen defect results in a functionally abnormal D:D self-association site, and that a normal D:D site interaction is required, in addition to D:E, for normal fibrin or fibrinogen assembly.

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