Rare double heterozygous mutations in antithrombin underlie hereditary thrombophilia in a Chinese family

VTE is a complex disorder with two main manifestations: DVT and PE. Deficiency of natural anticoagulants plays an important role in the pathogenesis of VTE. Antithrombin (AT) deficiency is one of the most common hereditary thrombophilia in Asia. Subjects with AT deficiency have two mutations in the same allele of the SERPINC1 gene: p.Arg45Gln and p.Ser114Arg (Arg13Gln and Ser82Arg, according to the antithrombin mutation database). DNA sequencing, ELISA (enzyme-linked immuno sorbent assay), plasmid transfection, and homology modeling were performed to study the molecular pathophysiological mechanism of the deficiency. Recombinant expression of these mutations demonstrated a relevant functional effect on the p.Ser114Arg mutation, since it almost abolished the secretion of AT to the conditioned medium and increased intracellular retention, while the p.Arg45Gln mutation had negligible effects. Homology modeling showed that some atoms from Arg114 interfered with the atoms of the β-strand, the abstract power between Arg45 and S2 was larger than that between Gln45 and S2, and the electrostatic energy (?617.281 to ?452.079 K) was the primary contributor to this difference. The functional mutation responsible for the deficiency of this potent anticoagulant p.Ser114Arg probably has conformational consequences on the folding of the protein leading to its intracellular accumulation and impaired secretion.     

Combined protein C and protein S deficiency in a family with repetitive thromboembolism and segregated gene mutations

A young man with repetitive deep venous thrombosis of the legs and the inferior vena cava, and his family were eventually diagnosed by means of molecular genetic analysis as having both hereditary protein C and protein S deficiency. There have been a few reports of families with combined protein C and protein S deficiency and only one report of such a family characterized at the DNA level. This was the first reported family in Japan with combined deficiency of protein C and protein S accompanied by segregation of gene lesions.     

Severe thrombophilic diathesis starting with hepatic vein thrombosis (BUDD-CHIARI syndrome) in a family with a new Protein S gene mutation

We report the case of a 26-year-old man with a chronic Budd-Chiari syndrome with ascites, caused by a hereditary Protein S deficiency, in a Turkish family with consanguinity. In this family, the father, the two sisters and the young brother suffered from severe venous thrombosis of the limbs, with pulmonary embolism in two of them. Those thrombotic events are caused by a hitherto not reported mutation in the PROS 1 gene on chromosome 3, resulting in a severe familial Protein S deficiency. No other thrombophilic defect was detected in the family, despite extensive investigation. Furthermore, we observe hereditary twenty-nail dystrophy in this family, the two genes probably segregating independently. Prophylaxis is discussed.     

Venous thromboembolism associated with double heterozygosity for R506Q mutation of factor V and for T298M mutation of protein C in a large family of a previously described homozygous protein C-deficient newborn with massive thrombosis

It is remarkable that certain patients with heterozygous protein C (PC) deficiency manifest venous thromboembolism (VTE), whereas others, particularly those belonging to families with homozygous PC deficiency, remain asymptomatic. The goals of the present study of a family, in which the proband had homozygous PC deficiency, were to identify members with and without VTE, to determine the mutation causing PC deficiency, and to search for the R506Q mutation of factor V (FV) causing activated PC resistance. Heterozygosity for a T298M mutation in exon 9 of the PC gene was found in the father of the homozygous proband who died of massive thrombosis. Based on analysis of a three- dimensional molecular model of PC, we speculate that this mutation causes type I deficiency due to disruption of packing of hydrophobic side chains and loss of an H-bond between Q184 and T298. Forty-six family members were examined for the T298M mutation by polymerase chain reaction (PCR) amplification of exon 9 and restriction analysis using Mae III and for the FV R506Q mutation by PCR amplification of exon 10 and restriction analysis using Mnl I. VTE was observed in five of 11 members who were heterozygous for both PC and FV mutations. In contrast, VTE was not observed for the PC mutation in 13 heterozygotes who had normal FV, including the parents of the deceased proband, 10 heterozygotes for the FV mutation who had normal PC, and 12 individuals bearing neither mutation. These observations extend recent evidence of an increased thrombotic risk conferred by the coexistence of heterozygous PC deficiency and heterozygous activated PC resistance and support the paradigm in which hereditary thrombophilia is often a multigenic disease.     

Inherited heterozygous protein C deficiency and dysfunctional protein S with recurrent venous thrombotic diseases: a study of three generations of a Japanese family.

We describe a rare occurrence of a family affected with venous thrombosis, exhibiting a protein C (PC) deficiency and dysfunctional protein S (PS). The propositus and his father developed recurrent venous-thrombosis. Their PC deficiency was characterized by low levels of both antigen and activity, and their dysfunctional PS was suggested by low PS activities despite the presence of normal free PS antigen. Over three generations, six family members had a PC deficiency, and three had both a PC deficiency and a dysfunctional PS. The mode of inheritance of PC deficiency appears to be autosomal dominant.     

Identification of 19 protein S gene mutations in patients with phenotypic protein S deficiency and thrombosis. Protein S Study Group

Protein S is a protein C-dependent and independent inhibitor of the coagulation cascade. Deficiency of protein S is an established risk factor for venous thromboembolism. We have used a strategy of specific amplification of the coding regions and intron/exon boundaries of the active protein S gene (PROS1) and direct single-strand solid phase sequencing, to seek mutations in 35 individuals with phenotypic protein S deficiency. Nineteen point mutations (16 novel) in 19 probands (or relatives of probands) with venous thromboembolism are reported here. Fifteen of the 19 mutations were expected to be causal and included 10 missense mutations (Lys9Glu, Glu26Ala, Gly54Glu, Cys145Tyr, Cys200Ser, Ser283Pro, Gly340Asp, Cys408Ser, Ser460Pro, and Cys625Arg). Three of the 15 mutations resulted in premature stop codons (delete T 635 producing a stop codon at position 126, Lys368stop and Tyr595stop) and two were at intron/exon boundaries (+1 G to A in intron d and +3 A to C in intron j). Of the remaining four mutations, three were within intronic sequence and one was a silent mutation within the coding region and did not alter amino acid composition. In two of the 10 missense mutations, reduced plasma protein S activity compared with antigen level suggested the presence of variant (type II) protein S.     

Co-segregation of thrombosis with the factor V Q506 mutation in an extended family with resistance to activated protein C

The activated protein C (APC) resistance phenotype results from a mutation at one of the cleavage sites of factor V by APC (Q506). We describe a large family with an APC resistance phenotype and without any other detectable coagulation defect, including eight subjects who had developed deep venous thrombosis (mean age of the first thrombosis episode 29 years; range 17-55 years). The factor V Q506 mutation was detected in the seven patients with thrombosis who could be tested and in 13 asymptomatic subjects (mean age 17 years; range 5-33 years). The APC resistance was detectable in only 10 heterozygotes among the 19 tested. These data suggest that, in affected families, the risk for the factor V Q506 mutation carriers to develop thrombosis may be very high and that factor V genotyping must be performed in patients with thrombosis even without any detectable APC resistance phenotype.     

A novel mutation of the calcium sensing receptor gene is associated with chronic pancreatitis in a family with heterozygous SPINK1 mutations

Background

The role of mutations in the serine protease inhibitor Kazal type 1 (SPINK1) gene in chronic pancreatitis is still a matter of debate. Active SPINK1 is thought to antagonize activated trypsin. Cases of SPINK1 mutations, especially N34S, have been reported in a subset of patients with idiopathic chronic pancreatitis. However, the inheritance pattern is still unknown. Some cases with N34S heterozygosity have been reported with and without evidence for CP indicating neither an autosomal recessive nor dominant trait. Therefore SPINK1 mutations have been postulated to act as a disease modifier requiring additional mutations in a more complex genetic model. Familial hypocalciuric hypercalcemia (FHH) caused by heterozygous inactivating mutations in the calcium sensing receptor (CASR) gene is considered a benign disorder with elevated plasma calcium levels. Although hypercalcemia represents a risk factor for pancreatitis, increased rates of pancreatitis in patients with FHH have not been reported thus far.

Methods

We studied a family with a FHH-related hypercalcemia and chronic pancreatitis. DNA samples were analysed for mutations within the cationic trypsinogen (N29I, R122H) and SPINK1 (N34S) gene using melting curve analysis. Mutations within CASR gene were identified by DNA sequencing.

Results

A N34S SPINK1 mutation was found in all screened family members. However, only two family members developed chronic pancreatitis. These patients also had FHH caused by a novel, sporadic mutation in the CASR gene (518T>C) leading to an amino acid exchange (leucine->proline) in the extracellular domain of the CASR protein.

Conclusion

Mutations in the calcium sensing receptor gene might represent a novel as yet unidentified predisposing factor which may lead to an increased susceptibility for chronic pancreatitis. Moreover, this family analysis supports the hypothesis that SPINK1 mutations act as disease modifier and suggests an even more complex genetic model in SPINK1 related chronic pancreatitis.

     

Frequency of the S65C mutation of HFE and iron overload in 309 subjects heterozygous for C282Y

BACKGROUND/AIMS: HFE-related haemochromatosis is a common disorder of iron metabolism. Most affected individuals are homozygous for the C282Y mutation of HFE. Some are compound heterozygotes for C282Y/H63D. A small proportion have neither of these genotypes. We have investigated the phenotype of compound heterozygotes for C282Y and another missense mutation S65C. METHODS: Genotype for the S65C mutation was determined in 309 subjects heterozygous for C282Y and negative for H63D, referred because of increased serum iron indices or family screening. A control sample comprising 315 individuals was also studied. RESULTS: Twelve individuals were compound heterozygotes for C282Y and S65C. Seven, referred for family screening, had normal serum iron indices. Five subjects had elevated serum iron indices; three of these had elevated hepatic iron and have received treatment for iron overload. Transferrin saturation was significantly elevated in C282Y/S65C compound heterozygotes compared with simple C282Y heterozygotes. CONCLUSIONS: Some C282Y/S65C compound heterozygotes have elevated serum iron indices and iron overload. The penetrance of this genotype is low and other genetic and environmental factors may influence the expression of iron loading. Screening for S65C may be useful in individuals with iron overload who are not homozygous for C282Y or compound heterozygous for C282Y/H63D.     

Activated protein C resistance and the factor V Leiden mutation in children with thrombosis

To determine the prevalence of activated protein C resistance and the factor V Leiden mutation (position 1691, arginine 506 to glutamine substitution) in children with thrombosis, plasma samples from children with thrombosis were tested for activated protein C resistance. DNA was analyzed for the factor V Leiden mutation. Five of 34 children (15%) had activated protein C resistance; each was heterozygous for the factor V Leiden mutation. All 5 children heterozygous for the factor V Leiden mutation suffered non-CNS venous thromboses comprising 21% of the group of children (5/24) with non-CNS venous thrombotic events. Each of these 5 children had a family history of thrombosis. In conclusion, children with non-CNS venous thrombosis should be evaluated for the factor V Leiden mutation. Children most likely affected are those with a family history of thrombosis. Am. J. Hematol. 57:29–32, 1998. © 1998 Wiley-Liss, Inc.     

First de novo mutations in the protein C gene of two patients with type I deficiency: a missense mutation and a splice site deletion

In a series of 40 patients with symptomatic protein C deficiency, we identified two sporadic cases with novel mutations that probably affect gene expression. The mutations, a 5-bp deletion of the donor splice site of intron f (nucleotides 3455 to 3459) and a mutation of nucleotide 8523 in exon IX leading to the substitution of Ser 270 by Pro, were not found in the protein C gene of the patients' parents. Transmission of the paternal and maternal protein C alleles was apparently normal on the basis of frequent polymorphisms in exons I, VI, and VIII. We also checked the transmission of the chromosomal material by analyzing the beta-globin gene frameworks and three variable number of tandem repeats (VNTRs). By combining the results of intragenic polymorphism, VNTR and beta-globin gene framework analyses, we were able to exclude nonpaternity and confirm the de novo origin of the mutation.     

Phenotype variability and neonatal diabetes in a large family with heterozygous mutation of the glucokinase gene

Monogenic diabetes caused by mutations in the glucokinase gene (GCK-MODY) is usually characterized by a mild clinical phenotype. The clinical course of diabetes may be, however, highly variable. The authors present a child with diabetes manifesting with ketoacidosis during the neonatal period, born in a large family with ten members bearing a heterozygous p.Gly223Ser mutation in GCK. DNA sequencing and multiplex ligation-dependent probe amplification were used to confirm GCK mutation and exclude other de novo mutations in other known genes associated with monogenic diabetes. Continuous glucose monitoring (CGM) was used to assess daily glycemic profiles. At the onset of diabetes the child had hyperglycemia 765 mg/dl with pH 7.09. Her glycated hemoglobin level was 8.6% (70.5 mmol/mol). The C-peptide level was below normal range (<0.5 pmol/ml) at onset, and the three- and 6-month follow-up examinations. Current evaluation at age 3 still showed unsatisfactory metabolic control with HbA1c level equal to 8.1% (65.0 mmol/mol). CGM data showed glucose concentrations profile similar to poorly controlled type 1 diabetes. The patient was confirmed to be heterozygous for the p.Gly223Ser mutation and did not show any point mutations or deletions within other monogenic diabetes genes. Other family members with p.Gly223Ser mutation had retained C-peptide levels and mild diabetes manageable with diet (five individuals), oral hypoglycemizing agents (five patients), or insulin (one patient). This mutation was absent within all healthy family members. Heterozygous mutations of the GCK gene may result in neonatal diabetes similar to type 1 diabetes, the cause of such phenotype variety is still unknown. The possibility of other additional, unknown mutations seems to be the most likely explanation for the unusual presentation of GCK-MODY.     

A novel type of familial hypercholesterolemia: double heterozygous mutations in LDL receptor and LDL receptor adaptor protein 1 gene

Background

Autosomal recessive hypercholesterolemia (ARH) is an extremely rare inherited hypercholesterolemia, the cause of which is mutations in low-density lipoprotein (LDL) receptor adaptor protein 1 (LDLRAP1) gene.

Methods

A total of 146 heterozygous familial hypercholesterolemic (FH) patients with a mutation in LDLR gene were screened for genes encoding proprotein convertase subtilisin/kexin type 9 (PCSK9) and LDLRAP1.

Results

Among the 146 subjects, we identified a 79-year-old Japanese female with double mutations in LDLR gene (c.2431A > T) and LDLRAP1 gene (c.606dup). Two other relatives with double mutations in those genes in her family were also identified. Although the proband exhibited massive Achilles tendon xanthoma and coronary and aortic valvular disease, serum LDL-C level of subjects with double mutations was similar with that of subjects with single LDLR mutation (284.0 ± 43.5 versus 265.1 ± 57.4 mg/dl).

Conclusion

Additional mutation in LDLRAP1 may account for severer phenotype in terms of xanthoma and atherosclerotic cardiovascular disease in FH patients.     

Increased thrombosis incidence in a family with an inherited protein S deficiency and a high oxygen affinity hemoglobin variant

Inherited protein S deficiency and the presence of a rare high oxygen affinity hemoglobin variant: Hb Rainier [β 145 (HC2) Tyr → Cys] were found in a family. Among 16 studied members, nine were found as carriers of protein S deficiency (type I with decrease of total, free, and activity levels). Six subjects carried the high-affinity hemoglobin variant, which displayed an increase of blood viscosity. Four members combined both abnormalities. Three had thrombotic accidents before the age of 30. We suggest the combination of protein S deficiency and the presence of this hemoglobin variant can lead to a severe primary hypercoagulable state with pathological consequences compared to each genetic defect alone. © 1994 Wiley-Liss, Inc.     

Characterization and subcellular localization of KCNQ1 with a heterozygous mutation in the C terminus

Numerous mutations in KCNQ1, a gene encoding the alpha -subunit of cardiac delayed rectifier potassium channels, have been found in long QT syndrome (LQTS). Among them, several mutations in the C terminus have been shown to cause autosomal recessive or subclinical autosomal dominant LQTS. Here, we report a heterozygous mutation, T587M, which is also in the KCNQ1 C-terminal domain. The same mutation was found in three independent probands that were clearly symptomatic with family history of cardiac sudden death. Functional assay using a heterologous expression system with a mammalian cell line (COS7 cells) revealed that the mutant displayed neither functional channels when expressed alone nor dominant-negative effect when co-expressed with wild-type (WT) KCNQ1. To examine the cellular trafficking of KCNQ1, green fluorescent protein (GFP) was tagged to the cytoplasmic C terminus of WT or mutant KCNQ1. This procedure did not affect the essential properties of expressed WT KCNQ1 channels. On confocal microscopic images, GFP-tagged WT KCNQ1 showed a plasma membrane fluorescence pattern, whereas the GFP-tagged mutant showed a perinuclear fluorescence pattern. Co-expression of the mutant with GFP-tagged WT KCNQ1 did not influence its normal cellular transport. Therefore, the T587M mutant cannot traffic to the plasma membrane and may form no subunit assembly with WT KCNQ1. These findings provide a novel molecular basis for the clinical finding that this C-terminal mutation produced a severe form of RWS-type LQTS.     

Inherited deficiency of protein S in a Japanese family with recurrent venous thrombosis: a study of three generations

We found a new thrombophilic tendency in a family with protein S deficiency. The propositus, a 38-year-old Japanese man, is an offspring of consanguineous marriage and suffered from recurrent episodes of thromboembolism. Hemostatic studies, including platelet counts, platelet aggregation, assays of coagulation factors, and plasminogen activity were all within normal limits. The levels of antithrombin III, alpha 2-macroglobulin, protein C, and protein C inhibitor were also normal. However, functional protein S activity in plasma was markedly decreased (9%) in the propositus. The family study revealed that the reduced levels of functional protein S, less than 5% to 29% of normal (normal range: mean +/- 2 SD of 15 normal adults were 44 to 180%), were found in 11 members of this family over three generations. Six of 11 members had severe protein S deficiency (less than 5%), whereas five had partial deficiency. Four of eight adults with protein S deficiency had recurrent episodes of thrombosis. Immunologic levels of protein S antigen were variable in this family and did not correlate closely with the functional levels. These results suggest that the recurrent thrombotic disease in this family appears to be associated with an inherited deficiency of functional protein S.     

Cerebral venous sinus thrombosis and aneurysm in a patient with double heterozygous beta-thalassemia major: A case report

Rationale:Thalassemia is an inherited disease associated with thromboembolic events (TEE) and cerebral artery disease. Here, we report a patient with beta-thalassemia presenting with intracerebral hemorrhage due to cerebral venous sinus thrombosis (CVST), and intracranial aneurysms were found after examination. We believe that it is very rare for this patient to have two kinds of cerebrovascular diseases.Patients’concern:A 25-year-old woman suffered from headache for nine days. She had a history of thalassemia and splenectomy nine years prior.Diagnosis:Intracranial hemorrhage, Cerebral venous sinus thrombosis, Intracranial aneurysm and double heterozygous beta-thalassemia major.Interventions:The patient was treated with low-molecular-weight heparin sodium injection (4100IU sc q12 h) and then switched to warfarin after four days of overlap with low-molecular-weight heparin sodium injection. Oral hydroxyurea was prescribed before discharged from the hospital.Outcomes:The patient''s headache was relieved significantly within 48 h, and re-examination of CT showed that the hemorrhage was completely absorbed one week later.Lessons:CVST and intracranial aneurysms are associated with the pathological mechanism of thalassemia, and patients with beta-thalassemia should be monitored and educated for long-term prevention, especially those with risk factors.