Severe hypodysfibrinogenemia in compound heterozygotes of the fibrinogen AαIVS4 + 1G>T mutation and an AαGln328 truncation (fibrinogen Keokuk)

Abstract

Two siblings with hypofibrinogenemia have lifelong trauma-related bleeding. Recently, the brother experienced recurrent thrombosis after cryoprecipitate infusions following surgery. The sister had 6 miscarriages. Plasma clots in each were resistant to compression and fibrinolysis and were soluble in 5 M urea. Examination by sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) revealed only the presence of crosslinked γ–γ fibrin chain dimers without high polymers of α_n. Fibrin clots contained an abnormal 35-kDa constituent recognized by an antibody to the mature fibrinogen Aα–chain residues 241-476 but not by antibodies to Aα219-348 or Aα349-406. DNA analysis revealed a heterozygous CAA → TAA mutation at the codon for amino acid 328 of the Aα gene in these siblings and 2 asymptomatic family members. The Gln328stop mutation (fibrinogen Keokuk) predicted a 46% truncation and the production of a 35-kDa Aα chain. Analysis of purified fibrinogen revealed expression of the abnormal Aα chain in 4 family members but found no normal fibrinogen in the 2 hypofibrinogenemic patients. This paradox was resolved when they and their asymptomatic mother were found to be heterozygous for a second Aα mutation, a GT → TT splice site mutation in intron 4 (IVS4 + 1 G> T). However, compound heterozygosity for both mutations was required for the expression of severe hypodysfibrinogenemia and for clinical symptoms.