Platelet-type von Willebrand disease (PT-VWD) is a rare bleeding disorder with an intrinsic defect in platelets rather than von Willebrand factor (VWF), but has clinical and laboratory features similar to the more common type 2B VWD. The intriguing nature of the pathophysiology and molecular genetics of PT-VWD has created lengthy debate in literature regarding its discrimination from type 2B VWD, and essentially confirming DNA analysis as the gold standard in diagnosis and revealing pathologic mutations. In this report we identify a novel Asp235Tyrmutation in the GP1BA gene of two Iranian patients showing the PT-VWD phenotype who were originally misdiagnosed as type 2B VWD. By structural modelling of the mutant by introducing Tyr235 into the available crystal structure of the glycoprotein (GP)Ibα N-terminal domain, we observed the mutant Tyr235 generates a hydrophobic tip to the extended β-switch loop of GPIbα. Further modelling of the resulting complex with VWFA1 indicates this could result in an enhanced interface compared to wild-type Asp235. This data provides an update to the present knowledge about this rare disorder, and confirms the necessity of genetic testing for accurate diagnosis, and the importance of studying natural mutations to better understand molecular aspects of GPIbα-VWFA1 interaction.
Factor XI (FXI) deficiency disorder is caused by defects in the F11 gene. The affected patients may suffer unexpected and major bleeding after trauma. Hence, the aim of this study was to identify the mutations underlying FXI deficiency in Iranian patients. The genetic basis of FXI deficiency was investigated in nine Iranian patients from unrelated families using conformation-sensitive gel electrophoresis (CSGE) and direct sequencing. Nine different mutations were detected among which seven changes were not previously reported. Among the novel mutations, one was a point mutation that interfered with normal splicing of the mRNA; the other six changes were missense mutations that resulted in amino acid substitutions. Five mutations out of nine were heterozygous and were found in moderately affected patients, whereas the other four changes were homozygous among severely affected patients.
In Haemophilia A (HA), the deficiency in coagulation factor VIII is caused by mutations in the F8 gene. In the past, HA carrier detection in Iran used to be carried out by tracking polymorphic DNA markers - a technical strategy with poor efficacy and accuracy. For some 10 years, however, mutations have been identified by direct DNA sequencing at the Iranian Comprehensive Haemophilia Care Centre (ICHCC), resulting in the detection of 580 different mutations and accurate carrier detection. The aim of this study was to characterize and report the unreported mutations not recorded in the F8 HAMSTeRS database and HGMD, which we have detected amongst all the mutations hitherto identified. After excluding introns 1 and 22 inversions, direct DNA sequencing was used to detect mutations among our patients. These were then confirmed in another affected relative or obligate carrier. Severe cases of HA, where no mutation could be identified, were further investigated by the MLPA method. The new, unreported mutations identified include: 51 missense, 15 nonsense, 45 frame-shifts, 11 splice-site, 1 duplications. We report a large spectrum of mutations identified in the course of the past 10 years at the ICHCC, which offers this service to all patients from regions throughout Iran. Aside from the common introns 1 and 22 inversions, this work demonstrates a high degree of heterogeneity in F8 mutations. The establishment of a comprehensive Iranian HA database will improve the care and genetic counselling of Iranian HA families.
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