Clinical phenotype and gene mutation analysis of 12 patients with hereditary protein C deficiency in different families / 中华血液学杂志

Objective: To investigate the molecular pathogenesis and clinical features of unrelated 12 patients with inherited coagulation protein C (PC) deficiency in Chinese population. Methods: The PC activity (PC:A) and PC antigen (PC:Ag) were detected by chromogenic substrate and enzyme linked immunosorbent assay, respectively. The nine exons and flanking sequences of the protein C (PROC) gene were amplified by polymerase chain reaction with direct sequencing, and the suspected mutations were validated by reverse sequencing (clone sequencing for deletion mutations) . Results: The PC:A of the 12 probands decreased significantly, ranging from 18% to 55%, and the PC:Ag of the 10 probands decreased significantly. Eleven mutations were found, out of which four mutations [c.383G>A (p.Gly128Asp) , c.997G>A (p.Ala291Thr) , c.1318C>T (p.Arg398Cys) , and c.532G>C (p.Leu278Pro) ] were discovered for the first time. Six mutations were in the serine protease domain, four mutations were located in epidermal growth factor (EGF) -like domains, and one mutation was located in activation peptide. There were two deletion mutations (p.Met364Trp fsX15 and p.Lys192del) , and the rest were missense mutations. Mutations p.Phe181Val and p.Arg189Trp were identified in three unrelated families. All mutations may be inherited, and consanguineous marriages were reported in two families. Among the probands, nine cases had venous thrombosis, two cases had poor pregnancy manifestations, and one case had purpura. Conclusion: Patients with PC deficiency caused by PROC gene defects are prone to venous thrombosis, especially when there are other thrombotic factors present at the same time.

Phenotypic and genotypic analysis of a pedigree affected with hereditary protein C deficiency / 中华医学遗传学杂志

OBJECTIVE@#To analyze the phenotype and genetic variant in a pedigree affected with inherited protein C (PC) deficiency.@*METHODS@#The proband and her family members (7 individuals from 3 generations) were tested for plasma protein C activity (PC:A), protein C antigen (PC:Ag) content and other coagulation indicators. All of the 9 exons and flanking sequences of the proband's PROC gene were amplified by PCR and sequenced. Suspected variants were verified by reverse sequencing of the proband and her family members. Bioinformatic software was used to analyze the pathogenicity and conservation of the variant site. Swiss-PdbViewer was used to analyze the three-dimensional model and the interaction with the mutant amino acid.@*RESULTS@#The PC:A and PC:Ag of the proband, her grandmother, father and elder brother were decreased to 55%, 52%, 48%, 51% and 53%, 55%, 50%, 56%, respectively. Genetic analysis showed that the four individuals have all carried heterozygous c.1318C>T (p.Arg398Cys) missense mutation in exon 9 of the PROC gene. The score of MutationTaster was 0.991, PROVEAN was -3.72, and FATHMM was -2.49, all predicted it to be a harmful mutation. Phylogenetic analysis also showed that Arg398 was weakly conservative among homologous species. Protein model analysis showed that, in the wild type, Arg398 can form a hydrogen bond with Glu341 and Lys395 respectively, when it was mutated to Cys398, the hydrogen bond with Glu341 disappears and an additional hydrogen bond was formed with Lys395, which has changed the spatial structure of the protein.@*CONCLUSION@#The heterozygous missense mutation c.1318C>T (p.Arg398Cys) of the PROC gene probably underlay the decreased PC:A and PC:Ag in this pedigree.

Trombofilia primaria: detección y manifestación clínica en 105 casos / Primary thombophilia: Report of 93 cases and 12 asymptomatic relatives

Background: Thrombophilia is defined as an altered hemostasis that predisposes to thrombosis. It can be primary when there is a family clustering of the disease or secondary, when it is associated to an acquired risk factor. Aim: To report clinical features in a series of patients with primary thrombophilia. Material and methods: Review of clinical records of patients with thrombotic episodes that lead to the suspicios of primary thrombophilia. Analysis of asymptomatic adult close relatives of these patients. Results: We report 93 subjects (56 females, age range 14-77 years) with repeated episodes of thrombosis and a family history of thrombosis and 12 asymptomatic close relatives. Seventy one percent had the first thrombotic episode before the age of 40 years, 62% had more than one thrombotic episode and 37% had a family history of thrombosis. Twenty four percent had protein C deficiency, 24% had antithrombin III deficiency, 18% had resistance to activated C protein by factor V Leiden, 10% had protein S deficiency, and 10% had the G20210 mutation of prothrombin gene. Among acquired defects studied simultaneously, 30% had lupus anticoagulant and 11% had hyperhomocysteinemia. Twenty four percent of cases had more than one thrombophilic risk factor. Among asymptomatic relatives, five had factor V Leiden, four had protein C deficiency and three had the G20210 mutation of prothrombin gene. Conclusions: Thrombophilia must be suspected in young subjects with thrombotic episodes and a family history. The type of coagulation defect will determine prognosis, and the type of treatment.

A molecular model of a point mutation (Val297Met) in the serine protease domain of protein C

A heterozygous GTG to ATG (Val297Met) mutation was detected in a patient with inherited protein C deficiency and deep vein thrombosis. Cosegregation of the mutation with protein C deficiency was observed through a family pedigree study. Molecular models of the serine protease domains of wild type and mutant protein C were constructed by standard comparative method. Val 297 was found to be located in the hydrophobic core of the protein. Although the substitution of Met for Val does not greatly alter the hydrophobicity of the protein, it introduces a bulkier side chain, which yields steric hindrance between this residue and adjacent residues, such as Met364, Tyr393, Ile321, Ile323, and Val378. It seems that the Met can not fit into the tight packing into which it is trapped, thereby probably inducing misfolding and/or greater instability of the protein. Such misfolding and/or instability thereby eventually disturbs the catalytic triad, in consistent with the observed type I deficiency state.