von Willebrand factor and platelet function

Systemic inflammation in midlife is associated with late-life functional limitations

Systemic inflammation generally coexists with functional limitations that seriously affect quality of life. This study aimed to investigate the association between systemic inflammation in midlife and the risk of functional limitations in late-life. A total of 10,044 participants with an average age of 53.9 ± 5.7 years at baseline were included in a cohort study. At the last follow-up, the prevalence of impaired activities of daily living (ADLs), instrumental activities of daily living (IADLs), and lower extremity function (LEF) was 14.7%, 21.6%, and 50.3%, respectively. The values of four inflammatory biomarkers were used to calculate the inflammation composite score. Compared with the participants in the lowest quartile of the inflammation composite score (Q1), those in the highest quartile (Q4) exhibited an odds ratio (OR) of 1.589 and a 95% confidence interval (CI) of 1.335-1.892 for impaired ADLs, an OR of 1.426 and a 95% CI of 1.228-1.657 for impaired IADLs, and an OR of 1.728 and a 95% CI of 1.526-1.957 for impaired LEF. The association between systemic inflammation and functional limitations was partly mediated by cardiac and brain function. The present study provides evidence that systemic inflammation in midlife is associated with a higher risk of late-life functional limitations. Protecting vital organ functions in midlife may have a positive impact on reducing the risk of future functional limitations.Trial registration: www.clinicaltrials.gov ; Unique identifier: NCT00005131.

An Insight into Glyco-Microheterogeneity of Plasma von Willebrand Factor by Mass Spectrometry

Human plasma von Willebrand Factor (VWF) plays essential roles in primary hemostasis in cooperation with other coagulations factors. There is ample indication that glycosylation affects many biological phases during the protein life cycle. However, comprehensive characterization of all probable N-glycosites simultaneous with O-glycosites is still not fully revealed. Thus, the intention of this exploration was to estimate the occupancy of all canonical N-glycosites besides simultaneous characterization of N- and O-glycoforms. An RP-LC-MS/MS system functionalized with CID and HCD tandem mass was utilized to analyze VWF. N-Glycosite occupancy varied along the protein backbone chain. Out of 257 HCD spectra, 181 characterized glycoforms were specified as either N- or O-glycosites. Sequential cleavage of glycosidic bonds along with Human Database mass matching have confirmed the glycoform structures. A total of 173 glycoforms represented most commonly biantennary and infrequently tri- and tetra-antennary N-glycans beside high mannose, hybrid, ABH antigen-terminated, and sulfated N-glycans. Many glycoforms were common across all N-sites. Noteworthy, previously unreported N-glycosites within domain D'(TIL'-E') showed glycosylation. Moreover, sialylated core 1 and core 2 O-glycans were detected on 2298T. Given subtle characterization of site-specific glycoforms, we can attain a profound understanding of the biological roles of VWF as well as facilitate the production of VWF-based therapeutics.

Proteolytic processing of von Willebrand factor subunit: heterogeneity in type-IIA von Willebrand disease

Type IIA von Willebrand disease (vWD) is a heterogeneous disorder for which two different pathogenetic mechanisms have been proposed: increased proteolytic susceptibility of von Willebrand factor (vWF), and/or interference of its post-translational processing. Subunit analysis of vWF in type-IIA vWD has revealed an increased relative proportion of the 176- and 140-kDa subunit-derived fragments, suggesting an augmented fragmentation of vWF, even in the resting state. We analyzed the subunit pattern of vWF in plasma from five previously described patients with type-IIA vWD. All of them showed the above-mentioned pattern. In addition, the presence of a new band with an apparent molecular mass of 200 kDa, not described in normal individuals or in patients with vWD, was repeatedly observed in one of these patients. This patient also exhibited an abnormal vWF multimeric structure in platelets and in plasma, before and after desmopressin administration, when the blood was collected either in the presence or in the absence of proteinase inhibitors. We believe that an abnormal primary structure of vWF could be responsible for this abnormal proteolytic fragmentation pattern, as well as for the abnormal multimerization of vWF. Moreover, an abnormal susceptibility to proteolysis appears to be present, as suggested by the increase in the relative proportion of the 176-kDa fragment observed in the same patient. Future sequencing studies and genetic analysis may clarify whether there are one or two different defects related to the vWF of that patient. Our results indicate that the subunit analysis of vWF may reveal additional defects present in type-IIA vWD that may help our understanding of the pathogenesis of such disease.

The role of the 5'-flanking region in the cell-specific transcription of the human von Willebrand factor gene

Transcriptional regulation of the human von Willebrand factor (vWF) gene was investigated in calf pulmonary artery endothelial (CPAE), HeLa, COS 7 and Hep G2 cells. Various lengths of flanking sequences extending up to 2123 bp 5' of the transcription initiation site and containing 19 bp of the first exon, were linked to the bacterial chloramphenicol acetyltransferase (CAT) gene and these constructs were assayed in transient transfection assays. Sequences up to 89 bp upstream of the cap site showed transcriptional activity in all cell types. Sequences between -147 and -419 bp markedly reduced CAT activity in CPAE cells and abolished it in other cell lines. A domain from -592 to -810 bp generated low levels of expression only in CPAE cells. This transcriptional activity was repressed with constructs containing 1041 to 1240 bp upstream of the cap site. Endothelial cell-specific transcription was restored by a construct that contained 1286 bp upstream of the cap site. The additional 46 bp upstream of the negative regulatory domain were within the 5' end of an inverse human Alu-family DNA repeat. RNAase-protection assays confirmed the correct transcriptional initiation. The sequence between -89 and -420 contained at least one negative regulatory element able to repress the CAT gene expression controlled by the heterologous thymidine kinase promoter in all cell types. A construct that included the sequence from -89 to -1286 bp increased the transcriptional activity directed by the thymidine kinase promoter only in CPAE cells. These results indicate that negative and positive elements in the 5'-flanking region interact to regulate vWF gene expression.

Effects of an oral dose of isosorbide dinitrate on platelet function and fibrinolysis in healthy volunteers

1. A randomised double-blind placebo-controlled study was performed to investigate the effects of isosorbide dinitrate (ISDN; 20 mg orally) on various aspects of platelet function and fibrinolysis in vivo in 12 healthy volunteers. 2. Measurements were performed at rest (before and after tablet ingestion) and during platelet activation by adrenaline (0.4 nmol kg-1 min-1; 30 min infusion). 3. At rest, ISDN did not alter plasma concentrations of beta-thromboglobulin (beta TG). EC50 values for ADP induced aggregation in vitro (Born aggregometry) or ex vivo filtragometry readings. Adrenaline markedly increased platelet aggregability in vivo as measured by filtragometry and elevated levels of beta TG in plasma. ISDN treatment did not affect these responses in the group as a whole. 4. Individuals responding to ISDN with more pronounced vasodilatation at rest showed a lesser increase in aggregability during the ensuing adrenaline infusion (r = -0.66, P = 0.02) despite higher adrenaline levels during ISDN. In individuals showing a significant decrease in systolic blood pressure (n = 8) ISDN tended to attenuate the adrenaline induced increase in platelet aggregability (filtragometry; P = 0.08), despite higher plasma adrenaline and noradrenaline levels after ISDN ingestion. 5. Plasma concentrations of ISDN and its active metabolites isosorbide-5-mononitrate and isosorbide-2-mononitrate were not correlated to haemodynamic or platelet variables. 6. Fibrinolytic activity (t-PA antigen and activity, PAI-1 antigen and activity) increased similarly during the adrenaline infusion following ISDN and placebo. 7. It is concluded that ISDN may affect platelet aggregation responses to adrenaline in vivo, but only in individuals showing significant haemodynamic responses to ISDN.(ABSTRACT TRUNCATED AT 250 WORDS)

A monoclonal antibody recognizes a von Willebrand factor domain within the amino-terminal portion of the subunit that modulates the function of the glycoprotein IB- and IIB/IIIA-binding domains

We developed a monoclonal antibody, 1C1E7, against vWf that increases ristocetin-induced platelet aggregation in a dose-dependent manner and lowers the threshold concentration of ristocetin needed to obtain a full aggregatory response. The platelet aggregatory effect of asialo vWf (ASvWf) also is enhanced by 1C1E7, in the presence or absence of glycoprotein (GP) IIb/IIIa receptor antagonism. In the presence of ristocetin, both intact 1C1E7 and its Fab fragments enhance specific binding of 125I-vWf to platelets. With 1C1E7, the intermediate and higher molecular weight multimers of vWf are preferentially bound to both GP Ib and GP IIb/IIIa. Thrombin-induced 125I-vWf binding to GP IIb/IIIa also is increased by 1C1E7. Maximal binding of 1C1E7 to vWf corresponds to 0.97 mol/mol vWf monomer with a Kd of 4.7 x 10(-10) M. 1C1E7 reacts with a 34/36-kD tryptic fragment (III-T4) and a 34-kD plasmic fragment (P34), which localizes the epitope between amino acid residues 1 and 272; this was confirmed by NH2-terminal amino acid sequencing. Finally, platelet aggregation by ASvWf was associated with a sharp rise in intracellular Ca2+ only in the presence of 1C1E7. An antibody-mediated conformational change of vWf may result in an improved presentation of the GP Ib- and GP IIb/IIIa-binding domains of mainly the larger multimers; the increased density of vWf on the platelet surface leads to platelet activation. The antibody may thus recognize a domain of relevance for vWf physiology.

A study of von Willebrand's disease in Jordan

This work reports on the results of a 9-year study of von Willebrand's disease and its subtypes in Jordan, a country with a predominantly Arab population. There were a total of 65 patients in 32 families. Detailed study of 61 patients including von Willebrand factor multimers was done for the purpose of subtyping them. Type I and variants were seen in 36 patients (59%). Type II A and variants with decreased ristocetin response accounted for seven patients (11.5%), while 11 (18%) were of type II B. The severe type (type III) accounted for seven patients (11.5%). Von Willebrand's disease was the second most commonly seen inherited bleeding disorder after hemophilia A. It is concluded that although the observed frequency of von Willebrand's disease in this study in Jordan is lower than that in Europe and the USA, the true prevalence cannot be ascertained since many of the mild cases presumably were missed because of referral patterns. Type I and its variants was the most common type found, but the observed frequency of types II B and III was more than that reported in Europeans and Americans.

Further evidence for recessive inheritance of von Willebrand disease with abnormal binding of von Willebrand factor to factor VIII

A new family with a bleeding diathesis and FVIII deficiency secondary to abnormal binding of von Willebrand factor (vWF) to factor VIII (FVIII) is described. Two propositi of this family, an 18-year-old male and a 33-year-old female, both with a history of epistaxis, bruising, bleeding from the gums, epistaxis, hemarthrosis, and hematoma, were analyzed. Also additional members of the same family with no bleeding history were also studied. The propositi showed normal vWF activities, low FVIII activity; one of them had been diagnosed as having hemophilia A and the other was a hemophilia A carrier. Both showed a very poor response to treatment with FVIII concentrates and desmopressin (DDAVP) but a good clinical response to cryoprecipitate. APTT was prolonged and no inhibitory activity was noticeable in their plasmas. Thirty-five units per kilogram body weight of Hemofil M was infused to both propositi and FVIII reached basal level within 60 minutes of the infusion. No FVIII response at all was observed in the female after intravenous DDAVP administration. However, the male who received the infusion of 35 U/kg body weight of Humate-P achieved a normal FVIII level that was maintained for 12 hours. Multimeric analysis of vWF was normal in all the members studied. Von Willebrand factor domain for FVIII binding was assayed in the two propositi and in six other members of the same family by using a non-isotopic and sensitive method, a modification of the one previously described, using the Hemofil M concentrate as exogenous FVIII. The data obtained showed that both propositi had similar binding to that observed by using plasma of a patient with severe von Willebrand disease. Furthermore, five siblings had a decreased binding of vWF to FVIII, when compared with plasma from normal individuals or patients with hemophilia A. We also observed that, for screening purpose, the ratio of bound FVIII/immobilized vWF (at saturation of the anti-vWF and offering of 1 U/ml of exogenous FVIII) distinguished two levels of abnormality (normal range 0.70-1.15, propositi 0.004-0.007, and remaining members affected 0.25-0.42). The most probable explanation is that the propositi are homozygous or double heterozygous, the other five siblings affected being heterozygous for a recessive vWF defect. This more accessible assay presented here may be of help in routine analysis for diagnosing this type of von Willebrand disease, which has important implications for therapy and genetic counseling.

Heparin potentiation of collagen-induced platelet aggregation is related to the GPIIb/GPIIIa receptor and not to the GPIb receptor, as tested by whole blood aggregometry

To determine whether heparin potentiation of platelet aggregation is related to platelet GP IIb/IIIa and GP Ib receptors, four series of experiments were performed on blood from normal volunteers. In the first experiment pretreatment with the monoclonal antibody 7E3 (MAb 7E3), which antagonizes at the GP IIb/IIIa receptor, potently inhibited the collagen-induced platelet aggregation (p less than 0.001). With heparin added to blood pretreated with MAb 7E3, the aggregation increased (p less than 0.005) to an extent similar to that when only saline was used for pretreatment. In the second experiment, monoclonal antibody 10E5 (MAb 10E5) and peptide RGDS, substances which also antagonize at the GP IIb/IIIa receptor, decreased collagen-induced platelet aggregation to an extent similar to that after pretreatment with MAb 7E3. Following pretreatment with RGDS, heparin increased platelet aggregation (p less than 0.03), while after pretreatment with antibody MAb 10E5 heparin did not enhance platelet aggregation. In the third experiment aurin, an inhibitor of von Willebrand factor and its interaction with the platelet GPIb receptor, decreased platelet aggregation dose-dependently. In the fourth experiment heparin enhanced platelet aggregation to a similar extent (p less than 0.005), regardless of pretreatment of the blood with saline, aurin or monoclonal antibody 6D1 (MAb 6D1), the latter an antagonist at the GP Ib receptor. In conclusion, the potentiation of collagen-induced platelet aggregation by heparin was not inhibited by MAb 7E3, RGDS, aurin or MAb 6D1, but was abolished by MAb 10E5, implying that the heparin effect is related to activation of the platelet GP IIb/IIIa receptor complex.

A patient with von Willebrand's disease characterized by a compound heterozygosity for a substitution of Arg854 by Gln in the putative factor-VIII-binding domain of von Willebrand factor (vWF) on one allele and very low levels of mRNA from the second vWF allele

We describe a patient with a lifelong bleeding disorder previously classified as von Willebrand's disease (vWD) type I. The factor VIII (FVIII) level in this patient was disproportionately low and we showed that this was due to a decreased factor VIII binding capacity of her vWF. To characterize the molecular defect in this type of vWD, a cDNA-dependent polymerase chain reaction (PCR) amplification was performed using platelet RNA as a template. Direct sequencing of the amplified fragment, which encodes for the FVIII-binding domain, showed a single nucleotide change in exon 20 at codon 854, resulting in the substitution of CAG glutamine (Gln) for CGG arginine (Arg). At the level of the cDNA only the mutated sequence was found, whereas at genomic DNA level the patient was heterozygous for this mutation. This patient is therefore a compound heterozygote for a point mutation resulting in a FVIII-binding defect and a vWF allele with low transcript levels.

von Willebrand factor: structure and function

Von Willebrand factor (vWF) is an adhesive, multimeric glycoprotein present in plasma, platelets, and subendothelium, which has two main functions: (1) it serves as a carrier for factor VIII and (2) it plays a crucial role in platelet adhesion to subendothelium, acting as a "bridge" between platelet membrane glycoprotein (GP) Ib and GP IIb/IIIa and subendothelial components such as collagen and heparin. vWF is involved at high shear rates in the initial contact of platelets with the subendothelium, in their subsequent spreading, and in thrombus formation. The three pools of vWF (plasma, platelets, and subendothelium) are necessary for optimal adhesion. Specific fragments of vWF involved in binding to platelets, collagen, heparin, and factor VIII have been mapped by using a series of proteases and well-characterized monoclonal antibodies to distinct epitopes of vWF. Several groups, including ours, have identified at least eight functional domains on the 270-kd subunit that consists of 2,050 amino acids. The importance of the binding domains to GP Ib and to collagen is illustrated by the role of vWF fragment SpIII (amino acids 1 through 1,365) in promoting platelet adhesion to collagen. The role of the vWF-GP Ib axis and of the vWF-GP IIb/IIIa axis in platelet-vessel wall interactions has been demonstrated through the study of patients, monoclonal antibodies, recombinant fragments, and synthetic peptides. We have recently expressed fragments of vWF complementary DNA in Escherichia coli. One of these recombinant fragments, which spans amino acids 449 through 730, binds to platelets in the presence of ristocetin, to collagen, and to heparin and has the property of inhibiting ristocetin-induced platelet agglutination. The second fragment, which spans amino acids 914 through 1,364, binds to collagen.(ABSTRACT TRUNCATED AT 250 WORDS)