Platelet glycoprotein GPIbα mutations are the basic defect behind Bernard-Soulier syndrome, a rare inherited macrothrombocytopenia characterized by anomalies of the GPIbα, GPIbb and GPIX subunits of von Willebrand factor receptor. A 32-year old man was investigated for suspected Bernard-Soulier syndrome. Ristocetin induced agglutination was absent. Flow cytometry and Western blot analysis showed a severe reduction in GPIbα, but sequencing revealed only a biallelic c.386A>G substitution, theoretically leading to a p.Asn110Glu variation. To further clarify the data, megakaryocyte cultures were set. Though the maturation of megakaryocytes was normal, proplatelet formation was defective and GPIbα mRNA was not detectable. GPIX protein was slightly reduced and GPIbb polypeptide almost absent. Computational analysis showed that the c.386A>G mutation disrupted an exon splicing enhancer motif involved in the proper maturation of the GPIbα transcript. The c.386A>G mutation suggests a unique mutational mechanism causing the virtual absence of GPIbα without creating a stop codon. © 2011 Ferrata Storti Foundation.
A A386G biallelic GPIb alpha gene mutation with anomalous behavior: a new mechanism suggested for Bernard-Soulier syndrome pathogenesis
VIANELLO, FABRIZIO;FABRIS, FABRIZIO
2011
Abstract
Platelet glycoprotein GPIbα mutations are the basic defect behind Bernard-Soulier syndrome, a rare inherited macrothrombocytopenia characterized by anomalies of the GPIbα, GPIbb and GPIX subunits of von Willebrand factor receptor. A 32-year old man was investigated for suspected Bernard-Soulier syndrome. Ristocetin induced agglutination was absent. Flow cytometry and Western blot analysis showed a severe reduction in GPIbα, but sequencing revealed only a biallelic c.386A>G substitution, theoretically leading to a p.Asn110Glu variation. To further clarify the data, megakaryocyte cultures were set. Though the maturation of megakaryocytes was normal, proplatelet formation was defective and GPIbα mRNA was not detectable. GPIX protein was slightly reduced and GPIbb polypeptide almost absent. Computational analysis showed that the c.386A>G mutation disrupted an exon splicing enhancer motif involved in the proper maturation of the GPIbα transcript. The c.386A>G mutation suggests a unique mutational mechanism causing the virtual absence of GPIbα without creating a stop codon. © 2011 Ferrata Storti Foundation.File | Dimensione | Formato | |
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