OBJECTIVE: To screen better promoters and provide more powerful tools for basic research and gene therapy of hemophilia. METHODS: Bioinformatics methods were used to analyze the promoters expressing housekeeping genes with high abundance, so as to select potential candidate promoters. The GFP reporter gene vector was constructed, and the packaging efficiency of the novel promoter was investigated with EF1 α promoter as control, and the transcription and activities of the reporter gene were investigated too. The activity of the candidate promoter was investigated by loading F9 gene. RESULTS: The most potential RPS6 promoter was obtained by screening. There was no difference in lentiviral packaging between EF1 α-LV and RPS6-LV, and their virus titer were consistent. In 293T cells, the transduction efficiency and mean fluorescence intensity of RPS6pro-LV and EF1 αpro-LV were proportional to the lentiviral dose. The transfection efficiency of both promoters in different types of cells was in the following order: 293T>HEL>MSC; Compared with EF1 αpro-LV, RPS6pro-LV could obtain a higher fluorescence intensity in MSC cells, and RPS6pro-LV was more stable in long-term cultured HEL cells infected with two lentiviruses respectively. The results of RT-qPCR, Western blot and FIX activity (FIX∶C) detection of K562 cell culture supernatant showed that FIX expression in the EF1 α-F9 and RPS6-F9 groups was higher than that in the unloaded control group, and there was no significant difference in FIX expression between the EF1 α-F9 and RPS6-F9 groups. CONCLUSION After screening and optimization, a promoter was obtained, which can be widely used for exogenous gene expression. The high stability and viability of the promoter were confirmed by long-term culture and active gene expression, which providing a powerful tool for basic research and clinical gene therapy of hemophilia.
Humans ; Transduction, Genetic ; Genetic Vectors ; Hemophilia A/genetics* ; Transfection ; Blood Coagulation Factors/genetics* ; Lentivirus/genetics*

Objective: To analyze the clinical characteristics, laboratory examination, diagnosis, treatment, and outcome of hereditary factor Ⅹ (FⅩ) deficiency. Methods: Clinical data of 11 patients with congenital FⅩ deficiency were retrospectively analyzed from July 2009 to February 2021. Results: There were 3 males and 8 females. Median age was 39 (5-55) years. The media duration of follow-up was 81.67 (1.87-142.73) months. Of the 11 patients, 10 had bleeding symptoms, 7 had ecchymosis or hemorrhage after skin bump, 7 had nosebleed, 6 had gingival hemorrhage, and 1 had muscle hematoma. Among the female patients, 6 had menorrhagia and 1 experienced bleeding after vaginal delivery. Family history of FⅩ deficiency was found in one case. Eight patients had a history of surgery, and four had postoperative bleeding. Laboratory findings were characterized by significantly prolonged activated partial thromboplastin time, prothrombin time, and decreased FⅩ activity (FⅩ∶C) . Four cases underwent gene mutation analysis and five new mutations were found. Four cases were treated with prothrombin complex concentrates (PCC) and seven cases with fresh frozen plasma (FFP) . One female patient had significantly reduced menstrual volume after PCC prophylactic therapy. One patient received FFP for prophylactic infusion with no bleeding during and after the operation. Conclusion: Most patients with congenital FⅩ deficiency had bleeding symptoms and there was no significant correlation between severity of bleeding symptoms and FⅩ∶C. Prophylaxis should be applied in patients with severe bleeding tendencies. Gene mutation test is significant for screening, diagnosis, and prognosis prediction of congenital FX deficiency.
Adolescent ; Adult ; Blood Coagulation Factors/therapeutic use* ; Blood Coagulation Tests ; Child ; Child, Preschool ; Factor X Deficiency/genetics* ; Female ; Hemorrhage/drug therapy* ; Humans ; Male ; Middle Aged ; Plasma ; Retrospective Studies ; Young Adult

OBJECTIVE: To analysis clinical phenotype and potential genetic cause of a family affected with hereditary coagulation factor Ⅻ deficiency. METHODS: The prothrombin time (PT), activated partial thromboplastin time (APTT), fibrinogen (FIB), D-Dimer (D-D), coagulation factor Ⅻ activity (FⅫ:C) and coagulation factor Ⅻ antigen (FⅫ:Ag) were determined for phenotype diagnosis of the proband and his family members(3 generations and 5 people). Targeted capture and whole exome sequencing were performed in peripheral blood sample of the proband. Possible disease-causing mutations of F12 gene were obtained and further confirmed by Sanger sequencing. The corresponding mutation sites of the family members were analyzed afterwards. The online bioinformatics software AutoPVS1 and Mutation Taster was used to predict the effects of mutation sites on protein function. RESULTS: The APTT of the proband was significantly prolonged, reaching 180.9s. FⅫ:C and FⅫ:Ag of the proband was significantly reduced to 0.8% and 4.17%, respectively. The results of whole exome sequencing displayed that there were compound heterozygous mutations in F12 gene of the proband, including the c.1261G＞T heterozygous nonsense mutation in exon 11 (causing p.Glu421*) and the c.251dupG heterozygous frameshift mutation in exon 4 (causing p.Trp85Metfs*53). Both mutations are loss of function mutations with very strong pathogenicity, leading to premature termination of the protein. AutoPVS1 and Mutation Taster software predicted both mutations as pathogenic mutations. The results of Sanger sequencing revealed that c.1261G＞T heterozygous mutation of the proband was inherited from his mother, for which his brother and his daughter were c.1261G＞T heterozygous carriers. Genotype-phenotype cosegregation was observed in this family. CONCLUSION The c.1261G＞T heterozygous nonsense mutation in exon 11 and the c.251dupG heterozygous frameshift mutation in exon 4 of the F12 gene probably account for coagulation factor Ⅻ deficiency in this family. This study reports two novel pathogenic F12 mutations for the first time worldwide.
Blood Coagulation Disorders ; Codon, Nonsense ; Factor XII/genetics* ; Female ; Heterozygote ; Humans ; Male ; Mutation ; Pedigree

Objective To investigate the correlation between the polymorphism of 4 coagulation-related genes, rs1799963 （coagulation factor V gene Leiden）, rs6025 （prothrombin gene G20210A）, rs1042579 （thrombomodulin protein gene c.1418C>T） and rs1801131 （methylenetetrahydroflate reductase gene） and lower extremity deep venous thrombosis （LEDVT）. Methods The 4 genotypes mentioned above of 150 LEDVT patients and 153 healthy controls were detected by the kompetitive allele specific polymerase chain reaction （KASP）, then related blood biochemical indicators were collected, binary Logistic regression was established to screen the independent risk factors of LEDVT, and the correlation between polymorphism of 4 coagulation-related genes and LEDVT and its indicators under different genetic modes after adjusting confounding factors were analyzed. Results Five variables, D-dimer, fibrinogen degradation product, homocysteine, sex and age might be the risk factors of LEDVT. These variables were put into 4 genetic inheritance models, and adjusted in binary Logistic regression. The results suggested that the mutations of rs1042579 were correlated with LEDVT under dominant inheritance mode. Conclusion The gene polymorphism of rs1799963, rs6025 and rs1801131 has no significant correlation with the formation of LEDVT. The gene polymorphism of rs1042579 plays a role under dominant inheritance mode, and might be an independent risk factor for formation of LEDVT.
Blood Coagulation/genetics* ; Humans ; Lower Extremity ; Polymorphism, Genetic ; Risk Factors ; Venous Thrombosis/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*

Traumatic brain injury (TBI) is a leading cause of death and disability worldwide. The finding that cellular microparticles (MPs) generated by injured cells profoundly impact on pathological courses of TBI has paved the way for new diagnostic and therapeutic strategies. MPs are subcellular fragments or organelles that serve as carriers of lipids, adhesive receptors, cytokines, nucleic acids, and tissue-degrading enzymes that are unique to the parental cells. Their sub-micron sizes allow MPs to travel to areas that parental cells are unable to reach to exercise diverse biological functions. In this review, we summarize recent developments in identifying a casual role of MPs in the pathologies of TBI and suggest that MPs serve as a new class of therapeutic targets for the prevention and treatment of TBI and associated systemic complications.
Animals ; Astrocytes ; metabolism ; pathology ; Biological Transport ; Blood Coagulation Factors ; genetics ; metabolism ; Brain ; metabolism ; pathology ; physiopathology ; Brain Injuries, Traumatic ; genetics ; metabolism ; pathology ; physiopathology ; Cell-Derived Microparticles ; chemistry ; metabolism ; pathology ; Cytokines ; blood ; genetics ; Disease Models, Animal ; Disseminated Intravascular Coagulation ; genetics ; metabolism ; pathology ; physiopathology ; Gene Expression Regulation ; Humans ; Microglia ; metabolism ; pathology ; Neurons ; metabolism ; pathology ; Signal Transduction

OBJECTIVETo identify potential mutations in a family affected with inherited factor Ⅶ (FⅦ) deficiency.

METHODSProthrombin time (PT), activated partial thromboplastin time (APTT), fibrinogen, FⅦ activity (FⅦ:C) and other coagulant parameters of the proband and 15 family members were measured. Potential mutations were screened in the pedigree by polymerase chain reaction and direct DNA sequencing.

RESULTSThe PT of the proband and his younger brother was significantly prolonged to 39.0 s and 30.1 s, respectively. FⅦ:C of the proband and his younger brother was obviously reduced to 2% and 3%, respectively. FⅦ:C of his grandmother, maternal grandmother, aunt, father, mother, maternal uncle and maternal aunt was all below the normal range (80%-108%), which measured 68%, 54%, 71%, 73%, 62%, 72% and 59%, respectively. The other coagulant parameters were in the normal range. Two heterozygous mutations, g.11349G>A and g.11482T>G, both reside in exon 8 of the F7 gene, have resulted in p.Arg304Gln and p.His348Gln substitutions, were identified in the proband. The same mutations were also found in the proband's younger brother. Four maternal members in this family (grandmother, mother, maternal uncle and maternal aunt of the proband) were heterozygous for the p.Arg304Gln mutation, while three paternal members (grandmother, aunt and father of the proband) were heterozygous for the p.His348Gln mutation.

CONCLUSIONThe proband had inherited two independent mutations of the F7 gene including g.11349G>A and g.11482T>G from his mother and father, respectively. The compound heterozygous mutation probably explains the low FⅦ concentrations in this pedigree.

Adult ; Base Sequence ; Blood Coagulation Tests ; Factor VII ; genetics ; metabolism ; Factor VII Deficiency ; blood ; genetics ; Female ; Genetic Testing ; Humans ; Male ; Middle Aged ; Molecular Sequence Data ; Pedigree ; Young Adult

As the most abundant component of coagulation system, fibrinogen not only takes part in clotting, but also works as one of acute phase proteins, which participates in many physiological and pathophysiological processes. Studies of fibrinogen abnormalities contribute to understand the molecular basis of disorders of fibrinogen protein function and metabolism, caused mainly by gene mutation, commonly associated with bleeding, thrombophilia, or both. Diseases affecting fibrinogen could be classified to the acquired or inherited disease. In this review, the research progress on the molecular basis, possible action mechanism of the hereditary fibrinogen abnormalities and its clinical research are summarized.
Afibrinogenemia ; genetics ; Blood Coagulation Disorders ; genetics ; Humans ; Mutation

Thrombophilia that is common among Caucasians is caused by genetic polymorphisms of coagulation factor V Leiden (R506Q) and prothrombin G20210A. Unlike that in Caucasians, thrombophilia that is common in the Japanese and Chinese involve dysfunction of the activated protein C (APC) anticoagulant system caused by abnormal protein S and protein C molecules. Approximately 50% of Japanese and Chinese individuals who develop venous thrombosis have reduced activities of protein S. The abnormal sites causing the protein S molecule abnormalities are distributed throughout the protein S gene, PROS1. One of the most common abnormalities is protein S Tokushima (K155E), which accounts for about 30% of the protein S molecule abnormalities in the Japanese. Whether APC dysfunction occurs in other Asian countries is an important aspect of mapping thrombophilia among Asians. International surveys using an accurate assay system are needed to determine this.
Asian Continental Ancestry Group ; Blood Coagulation ; Blood Proteins/genetics/metabolism ; Humans ; Protein C/genetics/*metabolism ; Protein S/chemistry/genetics/metabolism ; Thrombophilia/epidemiology/*etiology ; Venous Thrombosis/etiology/genetics

OBJECTIVETo determine the cut-off value for coagulation factor Ⅷ activity (FⅧ:C) to von Willebrand factor antigen (vWFAg) ratio which can classify obligatory carriers of hemophilia A and normal females, and assess its feasibility to diagnose suspected carriers in affected families through comparison with the method of gene diagnosis.

METHODSFⅧ:C assay was carried out by a one-stage method in both obligatory carriers and normal females. vWF antigen was measured with ELISA assay. The FⅧ:C/vWF ratio was calculated. Statistic analysis was carried out to determine the cut-off value which can classify the two groups. The ratio was then used to diagnose suspected carriers from families affected with hemophilia A. The results were compared with that by long distance polymerase chain reaction, genetic linkage analysis and/or direct sequencing.

RESULTSThe FⅧ:C/vWFAg value for 90.6% of obligatory carriers was under 0.82. Should 0.82 be selected as the cut-off value to diagnose the 42 suspected carriers, most of them can be readily diagnosed. The results were all in agreement with that of genetic analysis.

CONCLUSIONCut-off value of FⅧ:C/vWFAg may be used for initial diagnose of the suspected carriers from families affected with hemophilia A. The method is quite convenient and reliable.

Blood Coagulation Tests ; methods ; Factor VIII ; genetics ; Female ; Genetic Linkage ; Hemophilia A ; diagnosis ; genetics ; Humans ; Male ; von Willebrand Factor ; genetics