K Pénzes1, C Vezina2, Z Bereczky1, É Katona1, M Kun1, L Muszbek1,3, G E Rivard2. 1. Division of Clinical Laboratory Science, Department of Laboratory Medicine, Medical and Health Science Center, University of Debrecen, Debrecen, Hungary. 2. CHU Sainte-Justine, Montréal, QC, Canada. 3. Vascular Biology, Thrombosis and Hemostasis Research Group of the Hungarian Academy of Sciences, University of Debrecen, Debrecen, Hungary.
Abstract
INTRODUCTION: In factor XIII A subunit (FXIIIA) deficiency, the development of alloantibodies is extremely rare. Only four reports have been published and the antibodies were not characterized. AIM: The aim of this study was to describe the clinical course and the laboratory diagnosis of a FXIII-A deficient patient who developed alloantibodies. METHODS: FXIII activity was assessed with an ammonia release assay. FXIII-A, FXIII B subunit (FXIII-B) and the complex plasma FXIII (FXIII-A2 B2 ) antigens were determined by ELISA. The causative mutation was detected by fluorescent DNA sequencing. The binding of alloantibody to FXIII-A2 and FXIII-A2 B2 was studied by surface plasmon resonance. The cleavage of FXIII-A by thrombin and Ca2+ -induced activation of thrombin-cleaved FXIII were followed by western blotting and activity measurement, respectively. RESULTS: FXIII activity, FXIII-A2 B2 and FXIII-A antigens were below the limit of detection in the patient's plasma. The severe FXIII-A deficiency was due to a novel homozygous mutation resulting in early stop codon (c.127C>T, p.Gln42STOP). The alloantibody bound to FXIII-A2 and FXIII-A2 B2 with equally high affinity (Kd ~10-8 ). It accelerated the elimination of administered FXIII concentrate from the circulation, interfered with thrombin and Ca2+ -induced activation and inhibited FXIII activity. Attempts to eliminate the alloantibody resulted only in transient improvement. Patient developed intracerebral haemorrhage after a minor trauma and died in spite of aggressive replacement therapy with FXIII concentrate. CONCLUSION: The anti-FXIII-A alloantibody caused an unmanageable bleeding complication. The antibody was of combined subtype which accelerated the elimination of FXIII and exerted a multiple inhibitory effect on FXIII activation/activity.
INTRODUCTION: In factor XIII A subunit (FXIIIA) deficiency, the development of alloantibodies is extremely rare. Only four reports have been published and the antibodies were not characterized. AIM: The aim of this study was to describe the clinical course and the laboratory diagnosis of a FXIII-A deficient patient who developed alloantibodies. METHODS: FXIII activity was assessed with an ammonia release assay. FXIII-A, FXIII B subunit (FXIII-B) and the complex plasma FXIII (FXIII-A2 B2 ) antigens were determined by ELISA. The causative mutation was detected by fluorescent DNA sequencing. The binding of alloantibody to FXIII-A2 and FXIII-A2 B2 was studied by surface plasmon resonance. The cleavage of FXIII-A by thrombin and Ca2+ -induced activation of thrombin-cleaved FXIII were followed by western blotting and activity measurement, respectively. RESULTS: FXIII activity, FXIII-A2 B2 and FXIII-A antigens were below the limit of detection in the patient's plasma. The severe FXIII-A deficiency was due to a novel homozygous mutation resulting in early stop codon (c.127C>T, p.Gln42STOP). The alloantibody bound to FXIII-A2 and FXIII-A2 B2 with equally high affinity (Kd ~10-8 ). It accelerated the elimination of administered FXIII concentrate from the circulation, interfered with thrombin and Ca2+ -induced activation and inhibited FXIII activity. Attempts to eliminate the alloantibody resulted only in transient improvement. Patient developed intracerebral haemorrhage after a minor trauma and died in spite of aggressive replacement therapy with FXIII concentrate. CONCLUSION: The anti-FXIII-A alloantibody caused an unmanageable bleeding complication. The antibody was of combined subtype which accelerated the elimination of FXIII and exerted a multiple inhibitory effect on FXIII activation/activity.