Objective: To analyze the clinical manifestations and molecular pathogenesis of 18 patients with inherited protein S (PS) deficiency. Methods: Eighteen patients with inherited PS deficiency who were admitted to the Institute of Hematology & Blood Diseases Hospital from June 2016 to February 2019 were analyzed: activity of protein C (PC) and antithrombin (AT) , PS activity were measured for phenotype diagnosis; high throughput sequencing (HTS) was used for screening of coagulation disease-related genes; Sanger sequencing was used to confirm candidate variants; Swiss-model was used for three-dimensional structure analysis. Results: The PS:C of 18 patients ranged from 12.5 to 48.2 U/dL. Among them, 16 cases developed deep vein thrombosis, including 2 cases each with mesenteric vein thrombosis and cerebral infarction, and 1 case each with pulmonary embolism and deep vein thrombosis during pregnancy. A total of 16 PROS1 gene mutations were detected, and 5 nonsense mutations (c.134_162del/p.Leu45*, c.847G>T/p.Glu283*, c.995_996delAT/p.Tyr332*, c.1359G> A/p.Trp453*, c.1474C>T/p.Gln492*) , 2 frameshift mutations (c.1460delG/p.Gla487Valfs*9 and c.1747_1750delAATC/p.Asn583Wfs*9) and 1 large fragment deletion (exon9 deletion) were reported for the first time. In addition, the PS:C of the deep vein thrombosis during pregnancy case was 55.2 U/dL carrying PROC gene c.565C>T/p.Arg189Trp mutation. Conclusion: The newly discovered gene mutations enriched the PROS1 gene mutation spectrum which associated with inherited PS deficiency.
Antithrombin III/genetics* ; Female ; Genetic Testing ; Humans ; Mutation ; Pregnancy ; Protein C/genetics* ; Protein S/genetics* ; Protein S Deficiency/genetics*

Farnesoid X receptor (FXR) has been identified as an inhibitor of platelet function and an inducer of fibrinogen protein complex. However, the regulatory mechanism of FXR in hemostatic system remains incompletely understood. In this study, we aimed to investigate the functions of FXR in regulating antithrombin III (AT III). C57BL/6 mice and FXR knockout (FXR KO) mice were treated with or without GW4064 (30 mg/kg per day). FXR activation significantly prolonged prothrombin time (PT) and activated partial thromboplastin time (APTT), lowered activity of activated factor X (FXa) and concentrations of thrombin-antithrombin complex (TAT) and activated factor II (FIIa), and increased level of AT III, whereas all of these effects were markedly reversed in FXR KO mice. In vivo, hepatic AT III mRNA and protein expression levels were up-regulated in wild-type mice after FXR activation, but down-regulated in FXR KO mice. In vitro study showed that FXR activation induced, while FXR knockdown inhibited, AT III expression in mouse primary hepatocytes. The luciferase assay and ChIP assay revealed that FXR can bind to the promoter region of AT III gene where FXR activation increased AT III transcription. These results suggest FXR activation inhibits coagulation process via inducing hepatic AT III expression in mice. The present study reveals a new role of FXR in hemostatic homeostasis and indicates that FXR might act as a potential therapeutic target for diseases related to hypercoagulation.
Animals ; Antithrombin III ; Blood Coagulation ; Hepatocytes ; Liver ; Mice ; Mice, Inbred C57BL ; Mice, Knockout ; Receptors, Cytoplasmic and Nuclear/genetics*

OBJECTIVE: To analyze the phenotype and genotype of a patient affected with inherited antithrombin deficiency. METHODS: All exons and exon-intron boundaries of the AT genes were subjected to PCR amplification and Sanger sequencing. The influence of variants on the disease was predicted using bioinformatic software (MutationTaster). RESULTS: The results of all coagulation tests were normal, though the antithrombin activity and antigen content of the proband and his father have decreased significantly (34%, 48% and 12.97 mg/dL, 15.60 mg/dL, respectively). His mother was normal. Genetic analysis revealed that the proband and his father both carried a heterozygous g.2736dupT variant of the AT gene. Bioinformatic analysis suggested that the variant may be pathogenic. CONCLUSION The proband and his father both had type I hereditary antithrombin deficiency caused by a g.2736dupT variant of the AT gene. The variant was unreported previously.
Antithrombin III/genetics* ; Antithrombin III Deficiency/genetics* ; DNA Mutational Analysis ; Genetic Testing ; Heterozygote ; Humans ; Male ; Mutation ; Pedigree

PURPOSE: Urosepsis in adults comprises approximately 25% of all sepsis cases, and is due to complicated urinary tract infections in most cases. However, its mechanism is not fully clarified. Urosepsis is a very complicated disease with no effective strategy for early diagnosis and treatment. This study aimed to identify possible target-related proteins involved in urosepsis using proteomics and establish possible networks using bioinformatics. METHODS: Fifty patients admitted to the Urology Unit of Lanzhou General PLA (Lanzhou, China), from October 2012 to October 2015, were enrolled in this study. The patients were further divided into shock and matched-pair non-shock groups. 2-DE technique, mass spectrometry and database search were used to detect differentially expressed proteins in serum from the two groups. RESULTS: Six proteins were found at higher levels in the shock group compared with non-shock individuals, including serum amyloid A-1 protein (SAA1), apolipoprotein L1 (APOL1), ceruloplasmin (CP), haptoglobin (HP), antithrombin-III (SERPINC1) and prothrombin (F2), while three proteins showed lower levels, including serotransferrin (TF), transthyretin (TTR) and alpha-2-macroglobulin (A2M). CONCLUSION Nine proteins were differentially expressed between uroseptic patients (non-shock groups) and severe uroseptic patients (shock groups), compared with non-shock groups, serum SAA1, APOL1,CP, HP, SERPINC1and F2 at higher levels, while TF, TTR and A2M at lower levels in shock groups.these proteins were mainly involved in platelet activation, signaling and aggregation, acute phase protein pathway, lipid homeostasis, and iron ion transport, deserve further research as potential candidates for early diagnosis and treatment. (The conclusion seems too simple and vague, please re-write it. You may focus at what proteins have been expressed and introduce more detail about its significance.).
Adult ; Aged ; Antithrombin III ; Apolipoprotein L1 ; blood ; Ceruloplasmin ; Female ; Haptoglobins ; Humans ; Male ; Middle Aged ; Prealbumin ; Pregnancy-Associated alpha 2-Macroglobulins ; Proteomics ; Prothrombin ; Sepsis ; blood ; diagnosis ; etiology ; genetics ; Serum Amyloid A Protein ; Transferrin ; Urinary Tract Infections ; complications

Antithrombin and protein C are two crucial members in the anticoagulant system and play important roles in hemostasis. Mutations in SERPINC1 and PROC lead to deficiency or dysfunction of the two proteins, which could result in venous thromboembolism (VTE). Here, we report a Chinese 22-year-old young man who developed recurrent and serious VTE in cerebral veins, visceral veins, and deep veins of the lower extremity. Laboratory tests and direct sequencing of PROC and SERPINC1 were conducted for the patient and his family members. Coagulation tests revealed that the patient presented type I antithrombin deficiency combined with decreased protein C activity resulting from a small insertion mutation c.848_849insGATGT in SERPINC1 and a short deletion variant c.572_574delAGA in PROC. This combination of the two mutations was absent in 400 healthy subjects each from southern and northern China. Then, we summarized all the mutations of the SERPINC1 and PROC gene reported in the Chinese Han population. This study demonstrates that the combination of antithrombin deficiency and decreased protein C activity can result in severe VTE and that the coexistence of different genetic factors may increase the risk of VTE.
Antithrombin III ; genetics ; Antithrombin III Deficiency ; etiology ; genetics ; China ; Female ; Humans ; Male ; Middle Aged ; Mutation ; Pedigree ; Protein C ; genetics ; metabolism ; Venous Thromboembolism ; complications ; genetics ; Young Adult

OBJECTIVETo explore the phenotype, genotype and molecular mechanism for two pedigrees affected with hereditary antithrombin (AT) deficiency.

METHODSClinical diagnosis was validated by assaying of coagulation parameters including prothrombin time, activated partial thromboplastin time, thrombin time, fibrinogen, antithrombin activity (AT:A) and specific antigen (AT:Ag), protein C activity, as well as protein S activity. To detect potential mutations in the probands, all exons, exon-intron boundaries and the 3', 5' untranslated regions were amplified by PCR and subjected to direct sequencing. Suspected mutation was confirmed by reverse sequencing and silver staining. The effect of mutations on the AT protein was analyzed with bioinformatics software.

RESULTSThe AT:Ag of pedigree 1 was normal, but its AT:A has reduced to 30%. A heterozygous c.235C>T mutation in exon 2 causing p.Arg47Cys, in addition with two single nucleotide polymorphisms (c.981G>A, c.1011G>A) in exon 5 were identified in the patient. His four children, except for the elder daughter, were heterozygous for the mutations. The plasma levels of AT:A and AT:Ag in proband 2 have decreased to 39% and 103 mg/L, respectively. A heterozygous deletion (g.5890-5892delCTT) leading to loss of p.Phe121 was also detected in his father. Bioinformatic analysis suggested that the missense mutation Arg47Cys can affect the functions of AT protein. Meanwhile, lacking of Phe121 will result in loss of hydrogen bonds with Ala124, Lys125 and the cation π interactions with Lys125, Arg47, which may jepordize the stability of the protein.

CONCLUSIONThe proband 1 had type II AT deficiency, while proband 2 had type I AT deficiency. The p.Arg47Cys and g.5890-5892delCTT mutations of the AT gene are significantly correlated with the levels of AT in the two probands, respectively.

Adult ; Aged, 80 and over ; Antithrombin III ; genetics ; metabolism ; Antithrombin III Deficiency ; enzymology ; genetics ; physiopathology ; Exons ; Female ; Genetic Testing ; Genotype ; Humans ; Male ; Mutation ; Partial Thromboplastin Time ; Pedigree ; Phenotype ; Protein C ; genetics ; metabolism ; Protein S ; genetics ; metabolism

OBJECTIVETo explore the high risk factors of thrombosis in paroxysmal nocturnal hemoglobinuria (PNH). It has been reported that in Chinese patients with venous thrombosis, the mutation frequency in PROC c.574_576 del (rs199469469), PROC c.565C>T (rs146922325) and THBD c.-151G>T (rs1698852) was higher than that of normal controls, indicating its importance in thrombophilia pathogenesis.

METHODS142 patients with PNH diagnosed between 2009 and 2015 were enrolled in the study. Clinical data were analyzed and thrombophilia risk factors, such as the level of protein C, protein S, antithrombin III, APC resistance, blood fat, phospholipid antibody, were evaluated. Samples from patients and 100 normal controls were detected for the mutations of PROC c.574_576 del (rs199469469), PROC c.565C>T (rs146922325) and THBD c.-151G>T (rs1698852) by Sanger sequence.

RESULTSOf the 142 PNH patients, 21 (14.8%) patients had at least 1 episode of thrombotic event. Only 2 patients had arterial thrombosis and 19 patients had venous thrombosis. The median age of patients with thrombosis was 35 years old, similar to those without episode (40 years old, P=0.687). The ratios of males and females were 1.33 in thrombosis group and 1.57 in non-thrombosis group (P=0.728) , respectively. Patients with thrombosis had the same disease pattern compared with those without episode. Although there was no difference in the level of hemoglobin, WBC and PLT count, and LDH level between patients with thrombosis and those without episode, patients with thrombosis showed higher RBC, higher percentage of CD59(-) granulocytes and RBC, and Flaer(-) granulocytes compared with those without episode. The routine thrombophilia screening tests did not show any difference either between PNH patients and normal controls, or between patients with or without thrombosis. There were two mutations in rs199469469 and rs16984852 sites in patients with PNH, but the mutated patients did not have any thrombosis. Mutation rs146922325 was found in PNH patients. The mutation rate was similar between PNH patients and normal controls, thrombotic PNH and non-thrombotic PNH (P>0.05).

CONCLUSIONSCompared with non-thrombotic patients, PNH thrombotic patients have bigger PNH clone and higher RBC count. There are no differences among the routine thrombophilia factors and the three known venous eligible genes either between PNH patients and normal controls or between thrombotic and non-thrombotic PNH patients.

Adult ; Antithrombin III ; metabolism ; Case-Control Studies ; Clone Cells ; cytology ; Female ; Granulocytes ; cytology ; Hemoglobinuria, Paroxysmal ; genetics ; physiopathology ; Humans ; Leukocyte Count ; Male ; Protein C ; metabolism ; Protein S ; metabolism ; Risk Factors ; Thrombosis ; genetics ; physiopathology

BACKGROUND: Effective treatment and monitoring of tuberculosis (TB) requires biomarkers that can be easily evaluated in blood samples. The aim of this study was to analyze the serum proteome of patients with TB and to identify protein biomarkers for TB. METHODS: Serum samples from 26 TB patients and 31 controls were analyzed by using nano-flow ultra-performance liquid chromatography coupled to quadrupole time-of-flight mass spectrometry in data-independent mode, and protein and peptide amounts were calculated by using a label-free quantitative approach. The generated data were analyzed by using principal component analysis and partial least squares discriminant analysis, a multivariate statistical method. RESULTS: Of more than 500 proteins identified, alpha-1-antitrypsin was the most discriminative, which was 4.4 times higher in TB patients than in controls. Peptides from alpha-1-antitrypsin and antithrombin III increased in TB patients and showed a high variable importance in the projection scores and coefficient in partial least square discriminant analysis. CONCLUSIONS: Sera from patients with TB had higher alpha-1-antitrypsin levels than sera from control participants. Alpha-1-antitrypsin levels may aid in the diagnosis of TB.
Adult ; Aged ; Antithrombin III/analysis ; Biological Markers/blood ; Chromatography, High Pressure Liquid ; Discriminant Analysis ; Female ; Humans ; Male ; Middle Aged ; Multivariate Analysis ; Proteome/*analysis ; *Proteomics ; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization ; Tuberculosis/*blood/genetics/metabolism ; alpha 1-Antitrypsin/analysis

OBJECTIVETo study the molecular mechanisms of inherited antithrombin (AT) deficiency caused by AT L99 mutation.

METHODSWild type (WT), L99V, L99A, L99I and L99S AT were purified from drosophila expression system. The binding capacity of AT and the low molecular weight heparin sodium was analyzed by the heparin binding assay. Surface plasmon resonance (SPR) was used to detect the binding ability of AT to thrombin (FIIa) or AT to coagulation factor Xa (FXa). The activity of AT(AT∶A)was detected by chromogenic assay.

RESULTSThe purified WT and mutant AT were at the same size. No additional band was observed by coomassie blue staining and western blot assay. Compared to the WT AT, the binding abilities of the low molecular weight heparin sodium to the AT L99V, L99A, L99I and L99S were (44.8±3.6)%, (118.9±14.0)%, (15.2±8.8)%, and(23.0±8.2)%, respectively. The binding abilities of FIIa to AT L99V, L99A, L99I and L99S were 13%, 57%, 3%, and 29%, while the binding of FXa to AT L99V, L99A, L99I and L99S were 7%, 51%, 1%, and 25%. The AT∶A of WT, L99V, L99A, L99I and L99S AT were 146.5%, 21.4%, 120.9%, 10.8%, and 39.0%, respectively.

CONCLUSIONThe binding abilities of AT to heparin, FIIa and FXa were damaged by the L99 mutation, which resulted in decreased AT∶A and inherited AT deficiency.

Amino Acids ; genetics ; Animals ; Antithrombin III ; genetics ; Antithrombin III Deficiency ; genetics ; Antithrombins ; Drosophila ; Factor Xa ; genetics ; Genetic Vectors ; Humans ; Mutation

Adolescent ; Adult ; Antithrombin III Deficiency ; genetics ; Antithrombins ; Female ; Humans ; Male ; Mutation ; Pedigree ; Phenotype