Affinity Chromatography of Human Factor VIII Using Human and Rabbit Antibodies to Factor VIII

1979 ◽  
Vol 42 (04) ◽  
pp. 1306-1315 ◽  
Author(s):  
Janet L Lane ◽  
H Ekert ◽  
A Vafiadis
Keyword(s):  
Molecular Weight ◽  
Factor Viii ◽  
Affinity Chromatography ◽  
Protein Concentration ◽  
Gel Filtration ◽  
Subunit Structure ◽  
Molecular Weights ◽  
Human Factor Viii ◽  
Sds Page ◽  
Normal Human

SummaryFactor VIII, purified by gel filtration on Sepharose 2B, has an 8 band multiple subunit structure, with molecular weights ranging from 30,000 to 230,000, on reduction and SDS-PAGE at a protein concentration of 400 μg/gel. Affinity chromatography of this factor VIII preparation with insolubilized haemophilic antibody to factor VIII showed that 45-81% VIII:C and 0-33% VIILRag were attached to the column. Elution of the column with 0.25 M CaCl2 did not show VIII:C or VIILRag in the eluate. NH4SCN dissociation of the column, followed by reduction and SDS-PAGE of the dissociated protein, showed that 95 % of the protein bound by haemophilic antibody had a molecular weight similar to the low molecular weight subunits of the reduced factor VIII.In control experiments with normal Human IgG, 3% of VIII:C and 5% of VIILRag were attached to the column. NH4SCN dissociation of the column, followed by reduction and SDS-PAGE of the protein, showed 2 faint bands with molecular weight consistent with heavy and light chains of IgG.Similar experiments with antibody to factor VIII showed that 67-83% of VIILC and 61-76% of VIII:Rag were attached to the column. Elution of the column with 0.25 M CaCl2 showed 10% of the applied VIII:C, but no VIII:Rag in the eluate. NH4SCN dissociation of the column, followed by reduction and SDS-PAGE of the dissociated protein, showed an 8 band subunit structure similar to the reduced factor VIII.

Affinity Chromatography of Factor VIII Subunits

1979 ◽  
Author(s):  
J. L. Lane ◽  
H. Ekert
Keyword(s):  
Factor Viii ◽  
Affinity Chromatography ◽  
Functional Properties ◽  
Polyacrylamide Gel Electrophoresis ◽  
Sodium Dodecyl ◽  
Human Antibody ◽  
Subunit Structure ◽  
Similar Treatment ◽  
Human Factor Viii ◽  
Sds Page

Gel filtration of factor VIII resulted in elution of a fraction which possessed procoagulant activity (VIII:C), ristocetin cofactor (VIIIrRCF) and antigenic activity (VIII:Rag). Sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) of this preparation showed that no protein entered the gel. Eight bands ranging from 30,000 to 230,000 molecular weight (mw) were seen when 400μg reduced protein was loaded onto the SDS-PA geL Attempts to assay the functional properties were made in order to investigate whether the multiband structure was a property of factor VIII or due to contaminants. These proved unsuccessful, as reduction and SDS-PAGE of factor VIII destroyed its functional properties. Affinity chromatography with human and rabbit antibodies to factor VIII provided an alternative method of relating the subunit structure to functional properties. Insolubilized human antibody inactivated VIII:C and did not bind VIII:Rag. The protein bound to human antibody was dissociated with NH SCN and reduced. SDS-PAGE showed heavy protein staining, with 95% of the protein present in 35,000 and 62,000 mw bands. Similar treatment of a control human IgG column showed minimal protein in the same mw region. Using insolubilized rabbit antibody to human factor VIII, all 8 bands were observed after N^SCN dissociation, reduction and SDS-PAGE. These results suggest that contaminat^ely that the low bands observed on heavily loaded gels are due to protein contamination.

Affinity Chromatography of Factor VIII Subunits

1979 ◽  
Author(s):  
J.L. Lane ◽  
H. Ekert
Keyword(s):  
Factor Viii ◽  
Affinity Chromatography ◽  
Functional Properties ◽  
Polyacrylamide Gel Electrophoresis ◽  
Sodium Dodecyl ◽  
Human Antibody ◽  
Subunit Structure ◽  
Similar Treatment ◽  
Human Factor Viii ◽  
Sds Page

Gel filtration of factor VIII resulted in elution of a fraction which possessed procdegulant activity (VIII:C), ristocetin cofactor (VIII:RCF) and antigenic activity (VIII:Rag). Sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) of this preparation showed that no protein entered the gel. Eight bands ranging from 30,000 to 230,000 molecular weight (mw) were seen when 400μg reduced protein was loaded onto the SDS-PA geL Attempts to assay the functional properties were made in order to investigate whether the multiband structure was a property of factor VIII or due to contaminants. These proved unsuccessful, as reduction and SDS-PAGE of factor VIII destroyed its functional properties. Affinity chromatography with human and rabbit antibodies to factor VIII provided an alternative method of relating the subunit structure to functional properties. In-solubilized human antibody inactivated VIII:C and did not bind VIII. Rag. The protein bound to human antibody was dissociated with NH4 SCN and reduced. SDS-PAGE showed heavy protein staining, with 95% of the protein present in 35,000 and 62,000 mw bands. Similar treatment of a control human IgG column showed minimal protein in the same mw region. Using insolubilized rabbit antibody to human factor VIII, all 8 bands were observed after NH4 SCN dissociation, reduction and SDS-PAGE. These results suggest that it is unlikely that the low mw bands observed on heavily loaded gels are due to protein contamination.

scholarly journals Apparent molecular weight of purified human factor VIII procoagulant protein compared with purified and plasma factor VIII procoagulant protein antigen

Blood ◽  
1983 ◽  
Vol 62 (5) ◽  
pp. 1114-1117 ◽  
Author(s):  
MJ Weinstein ◽  
CA Fulcher ◽  
LE Chute ◽  
TS Zimmerman
Keyword(s):  
Molecular Weight ◽  
Factor Viii ◽  
Apparent Molecular Weight ◽  
Discontinuous System ◽  
Major Band ◽  
Molecular Weights ◽  
Human Factor Viii ◽  
Plasma Factor ◽  
Factor Viii Concentrates ◽  
Electrophoretic Techniques

Abstract We have compared apparent molecular weights of purified factor VIII procoagulant protein (VIII:C) and VIII:C antigen (VIII:CAg) by two different NaDodSO4 gel electrophoretic techniques. In a discontinuous NaDodSO4–7.5% polyacrylamide system, reduced and unreduced VIII:C, purified from commercial factor VIII concentrates by a monoclonal antibody immunoadsorption technique, showed a major doublet at mol wt 0.79 and 0.8 X 10(5) and less intense bands extending up to 1.9 X 10(5). In NaDodSO4–4% polyacrylamide/0.5% agarose gels (NaDodSO4–4% PAAGE), purified VIII:C had a major band of mol wt 1.0 X 10(5), with minor bands of mol wt 0.96, 1.1, 1.4, 1.6, 1.8, 2.2, and 2.4 X 10(5). In NaDodSO4–4% PAAGE of 125I-anti-VIII:C-Fab-VIII:CAg complexes, the major and minor forms of VIII:CAg in purified VIII:C had the same molecular weight as above when calculated by subtracting the molecular weight of 125I-Fab from 125I-Fab-VIII:CAg. In both plasma and factor VIII concentrate, a band of mol wt 2.4 X 10(5) predominated, and minor VIII:CAg forms of mol wt 2.6, 1.8, 1.2 and 1.0 X 10(5) were also visible. We conclude that the molecular weight of plasma VIII:CAg forms agree with those derived from protein stains of purified VIII:C in the NaDodSO4–4% PAAGE system, but that consistently lower molecular weight values are obtained for purified VIII:C in the discontinuous system. Both native and either disaggregated or proteolyzed VIII:C species are present in the purified VIII:C preparation.

Homologues Of Fibrin X Oligomers

1981 ◽  
Author(s):  
R Hafter ◽  
H Graeff ◽  
R v Hugo
Keyword(s):  
Gel Filtration ◽  
Advanced Ovarian Cancer ◽  
Simultaneous Action ◽  
Coagulation Disorder ◽  
Subunit Structure ◽  
Molecular Weights ◽  
Sds Page ◽  
D Dimer

Crosslinked fibrin derivatives signalize intravascular coagulation. D-dimer, Y-D and X oligomers are observed in plasma from obstetric patients with severe coagulation disorder. They are also found in ascitic fluid from patients with advanced ovarian cancer and can be produced in vitro by simultaneous action of thrombin, plasmin and factor XIII with fibrinogen. The study was aimed to evaluate the subunit structure of separated molecular entities. The derivatives were separated by 4% SDS-PAGE preceded in case of the in vivo products by gel filtration and/or by immunoabsorption technique. The gels were sliced at the respective migration positions and derivatives therein reelectrophoresed on 7,5% gels after reduction. Subunit characterisation revealed that D-dimer is composed of the chain remnants γ1-γ1, β2, α2, while Y-D is composed of γ-γ1, β2, α3, α2, besides αE, βE and γE Crosslinked X oligomers are composed of γ-γ, γ-γ1, β, β1, γ2, α1 and α2 besides αE, βE and γE Three possible combinations of plasmin degraded and undegraded dimeric γ-chains were observed in vivo and in vitro: γ-γ γ-γ1 and γ1-γ1. The ratio of degraded (γ1) to undegraded γ-chains in dimeric γ-chain patterns indicates the mol. structure of the respective derivative. Two X oligomers could be demonstrated in which the ratio of γ-γ to γ-γ1 in terms of stain intensity was either 1:1 or 2:1. Their subunit compositions are in accordance with structures describ- able as D-X-Y and D-X-X-Y. Their molecular weights, calculated from the subunit compositions are 476,000 and 716,000 respectively. - It is proposed that crosslinked X oligomers exist as a homologous family with increasing X fragment content.

scholarly journals Tamm–Horsfall urinary glycoprotein. The subunit structure

1970 ◽  
Vol 120 (2) ◽  
pp. 425-432 ◽  
Author(s):  
A. P. Fletcher ◽  
A. Neuberger ◽  
Wendy A. Ratcliffe
Keyword(s):  
Molecular Weight ◽  
Sodium Dodecyl Sulphate ◽  
Sodium Dodecyl ◽  
Gel Filtration ◽  
Subunit Structure ◽  
Molecular Weights ◽  
Subunit Molecular Weight ◽  
Disulphide Bonds ◽  
Terminal Amino ◽  
Urinary Glycoprotein

1. Subunit molecular weights of 76000–82000 were obtained for native and alkylated Tamm–Horsfall glycoprotein by gel filtration on Sephadex G-200 in the presence of sodium dodecyl sulphate. 2. A further estimate of the subunit molecular weight of 79000±4000 was obtained by disc gel electrophoresis in sodium dodecyl sulphate. 3. A minimum value of the chemical molecular weight of 79000±6000 was obtained from the number of N-terminal amino acids released by cyanogen bromide cleavage of the glycoprotein. 4. Similar values were obtained for the subunit molecular weight of Tamm–Horsfall glycoprotein from patients with cystic fibrosis. 5. On ultracentrifugation both in 1.0% sodium dodecyl sulphate and in 70% formic acid, Tamm–Horsfall glycoprotein sedimented as a single component, slightly faster than serum albumin. 6. On reduction of the disulphide bonds the same subunit molecular weight was obtained, which suggested that these bonds are intrachain.

Studies on Human Factor VIII and its Antibodies Using Radiolabelling and Affinity Chromatography

1981 ◽  
Vol 45 (03) ◽  
pp. 267-271
Author(s):  
M L Kavanagh ◽  
C N Wood ◽  
J F Davidson
Keyword(s):  
Factor Viii ◽  
Affinity Chromatography ◽  
Human Factor ◽  
Gel Filtration ◽  
Chromatography Method ◽  
Human Antibodies ◽  
Immunoglobulin Preparations ◽  
Human Factor Viii ◽  
Subsequent Application ◽  
Covalently Linked

SummaryAn immuno-affinity chromatography method was used to isolate human factor VIII and its antibodies and the mechanism of the affinity system was investigated using iodine labelling.Rabbit antibodies to human factor VIII were insolubilised onto CNBr — activated Sepharose 2B which was used for the preparation of affinity columns. Both VIII:C and VIIIR:Ag were adsorbed onto such columns from factor VIII preparations. The subsequent application of immunoglobulin preparations containing human antibodies to factor VIII resulted in the adsorption of these antibodies onto the columns. Adsorbed material was eluted from the affinity columns with 0.2 M glycine - HCl, pH 2.3.When 125I-labelled factor VIII and 131I-labelled human antibodies to factor VIII were used in this affinity system, the eluted material could be separated into three fractions by gel filtration on Bio-Gel A 1.5 m. Fraction 1 occurred at the void volume position, fraction 3 at a position corresponding to the elution position of IgG and fraction 2 at an intermediate position. 131I-labelled material was present in all three peaks. 125I-labelled material was present mainly in peak 1, with a little in peak 2. The results support the view that VIIIR: Ag, which binds heterologous antibodies, is non-covalently linked to a smaller subunit, VIII.C, which binds homologous antibodies.

scholarly journals Studies on the Structure and Subunit Composition of Human Antihaemophilic Factor

1977 ◽  
Author(s):  
J. J. Gorman
Keyword(s):  
Molecular Weight ◽  
Factor Viii ◽  
Peptide Mapping ◽  
Sodium Dodecyl ◽  
Gel Filtration ◽  
Protein S ◽  
Molecular Forms ◽  
Major Band ◽  
Human Factor Viii ◽  
Von Willebrand

Human antihaemophilic factor has been purified by hydroxylapatite chromatography following precipitation from plasma and gel filtration on Sepharose 6B.Application to hydroxyiapatite was in 0.02 M tris HCl (pH 7.35) – 0.14 M NaCl and after washing with 5mM phosphate (pH 6.8) – 0.1 M NaCI the antihaemophilic factor was eluted with 0. 1M phosphate (pH 6.8) – 0.1M NaCl. Factor VIII coagulant activity, factor VIII related antigen and von Willebrand factor activity eluted simultaneously.The protein(s) had a molecular weight in excess of 500,000 and multiple subunits as shown by electrophoresis in 5% acrylamide gels containing sodium dodecyl sulphate;without reduction the protein failed to enter these gels but following reduction multiple bands were observed, the major band had a molecular weight around 200,000.Thin layer peptide mapping demonstrated structural inter-relationship between the 200,000 dalton protein and three of the smaller species, however, two other unrelated smaller species were evident.It is apparent from these findings that human factor VIII may exist as multiple molecular forms due to heterogeneity of one subunit (MW around 200,000) and the molecular structure may include other smaller non-identical subunits. The structure-function relationships of these subunits remains to be elucidated.

Subunit Structure of Human Factor VIII

1975 ◽  
Author(s):  
J. A. van Mourik ◽  
W. T. LaBruyère ◽  
I. A. Mochtar
Keyword(s):  
Molecular Weight ◽  
Ionic Strength ◽  
Factor Viii ◽  
Apparent Molecular Weight ◽  
Subunit Structure ◽  
Single Chain ◽  
Covalent Bonds ◽  
Single Polypeptide Chain ◽  
Human Factor Viii ◽  
Low Ionic Strength

Several investigations have shown that factor VIII is a high molecular weight aggregate and that both non-covalent and disulphide bonds contribute to the stabilization of the macromolecular factor VIII aggregate. As shown previously (1) disruption of non-covalent bonds can be accomplished at relatively low ionic strength and neutral pH and results via a series of homologous oligomers (having constant charge/mass ratios) in 2 immunologically non-related subunits. Thus, the generally accepted concept that factor VIII is constructed of identical subunits seems incorrect. For several reasons we assume that the observed fragmentation at low ionic strength is not due to proteolytic breakdown. However, this view is not favoured by the observation that tryptic and plasmic digestion of factor VIII (in aggregated form) results in gel electrophoresis patterns comparable with those obtained of factor VIII after low ionic strength dissociation. Further, evidence will be presented that the assumption that reduction of factor VIII under denaturating conditions results in a single polypeptide chain is also no longer tenable. As far as the reduction of aggregated factor VIII is concerned our observations agree with data from the literature, that is, reduction of factor VIII results in 1 major subunit with an apparent molecular weight of approximately 270.000. However, when factor VIII is first dissociated at low ionic strength followed by reduction, smaller fragments appear in the electrophoresis pattern. Thus, it seems most likely that the apparent single chain subunit is in fact, constructed of smaller non-covalently linked fragments.(1) J. A. van Mourik et al. Thrombosis Research, 4, 155, 1974.

THROMBIN-ACTIVATED FACTOR VIIIa IS COMPOSED OF A NONCOVALENT 73/51 kD DIMER

1987 ◽  
Author(s):  
P J Fay
Keyword(s):  
Factor Viii ◽  
Heavy Chain ◽  
Light Chain ◽  
Polyacrylamide Gel Electrophoresis ◽  
Gel Filtration ◽  
Similar Extent ◽  
Factor Viiia ◽  
Polypeptide Patterns ◽  
Human Factor Viii ◽  
Sds Page

Human factor VIII purified from plasma concentrates consists of a series of heterodimers composed of a light chain of 83 kD noncovalently bound to a heavy chain which varies in size from 93 to 170 kD. Previously, we showed that each of the purified heterodimers wasactivated by thrombin to a similar extent. Activation to factor VIIIa was correlated with proteolysis of the light chain generating a73 kD polypeptide and cleavage of the heavy chain(s) generating polypeptides of 51 and 43 kD, whereas subsequent inactivation of factor VIIIa occurred in the absence of further proteolysis (Biochim Biophys Acta 871:268-278, 1986). SDS-polyacrylamide gel electrophoresis (SDS-PAGE) of reduced or nonreduced samples showed similar polypeptide patterns indicating that there were no covalent linkages between the 51 and 43 kD chains. However, prior data does not distinguish between a factor VIIIa complex of the 73, 51 and 43 kD polypeptides and a subset of these chains. To identify factor VIIIa, thrombin- treated factor VIII at peak activity was subjected to rapid gel filtration on Superose 12. Factor VIII activity eluted as a single peak representing about 30% of the applied activity after correction for spontaneous inactivation. SDS-PAGE followedby silver staining showed that activity was correlated to fractionscontaining the 73 and 51 kD polypeptides, which co-eluted and which were separated from both the 43 kD fragment and thrombin. Densitometric scans of the stained gel indicated the stoichiometry of the 73:51 kD polypeptides in eachactive fraction to be 1:1. Addition of EDTA(50 mM) to a similar thrombin-factor VIII mixture resulted in rapid inactivation of factor VIIIa. Gel filtration followed by SDS-PAGE analysis of this sample showed that the 73 and 51 kD polypeptides eluted separately and were more included, while the elution position of the 43 kD polypeptide was unchanged. These results suggest that factor VIIIa is represented by a noncovalent dimer consisting of a 73 kD polypeptide derivedfrom the light chain plus a 51 kD polypeptide derived from the heavy chain.

scholarly journals Apparent molecular weight of purified human factor VIII procoagulant protein compared with purified and plasma factor VIII procoagulant protein antigen

Blood ◽  
1983 ◽  
Vol 62 (5) ◽  
pp. 1114-1117
Author(s):  
MJ Weinstein ◽  
CA Fulcher ◽  
LE Chute ◽  
TS Zimmerman
Keyword(s):  
Molecular Weight ◽  
Factor Viii ◽  
Apparent Molecular Weight ◽  
Discontinuous System ◽  
Major Band ◽  
Molecular Weights ◽  
Human Factor Viii ◽  
Plasma Factor ◽  
Factor Viii Concentrates ◽  
Electrophoretic Techniques

We have compared apparent molecular weights of purified factor VIII procoagulant protein (VIII:C) and VIII:C antigen (VIII:CAg) by two different NaDodSO4 gel electrophoretic techniques. In a discontinuous NaDodSO4–7.5% polyacrylamide system, reduced and unreduced VIII:C, purified from commercial factor VIII concentrates by a monoclonal antibody immunoadsorption technique, showed a major doublet at mol wt 0.79 and 0.8 X 10(5) and less intense bands extending up to 1.9 X 10(5). In NaDodSO4–4% polyacrylamide/0.5% agarose gels (NaDodSO4–4% PAAGE), purified VIII:C had a major band of mol wt 1.0 X 10(5), with minor bands of mol wt 0.96, 1.1, 1.4, 1.6, 1.8, 2.2, and 2.4 X 10(5). In NaDodSO4–4% PAAGE of 125I-anti-VIII:C-Fab-VIII:CAg complexes, the major and minor forms of VIII:CAg in purified VIII:C had the same molecular weight as above when calculated by subtracting the molecular weight of 125I-Fab from 125I-Fab-VIII:CAg. In both plasma and factor VIII concentrate, a band of mol wt 2.4 X 10(5) predominated, and minor VIII:CAg forms of mol wt 2.6, 1.8, 1.2 and 1.0 X 10(5) were also visible. We conclude that the molecular weight of plasma VIII:CAg forms agree with those derived from protein stains of purified VIII:C in the NaDodSO4–4% PAAGE system, but that consistently lower molecular weight values are obtained for purified VIII:C in the discontinuous system. Both native and either disaggregated or proteolyzed VIII:C species are present in the purified VIII:C preparation.

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