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Antibodies specific for a haemostatic protein, their use for isolating protein, haemostatic compositions devoid of proteolytic cleavage products of the protein

a technology of haemostatic protein and antibodies, which is applied in the field of antibodies specific for haemostatic protein, can solve the problems of not being able to distinguish between intact and activated or degraded coagulation factors, ca.sup.2+ -dependent antibodies, and the inability to add ca.sup.2+ ions to most source materials, including plasma or fractions, to achieve unique selectivity and safer and more effective agents

Inactive Publication Date: 2003-07-22
STICHTING SANQUIN BLOEDVOORZIENING
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The process of the present invention is a major breakthrough in the field of immuno-affinity chromatography in that it achieves unique selectivity for intact, non-cleaved target proteins. This allows for methods to obtain intact haemostatic proteins, which can thereafter be formulated into improved therapeutic blood products. These products provide safer and more effective agents than are available thus far for the treatment of patients encountering critical bleeding or clotting episodes.

Problems solved by technology

However, in spite of their high selectivity, those procedures have not been able to distinguish between the intact and activated or degraded coagulation factors, and as a consequence cleaved products are co-purified with the desired intact, non-activated target product.
Moreover, antibodies that are Ca.sup.2+ -dependent have the disadvantage that Ca.sup.2+ -ions cannot be added to most source materials, including plasma or fractions thereof, without simultaneously triggering the Ca.sup.2+ -dependent coagulation system that leads to proteolytic cleavage of the vitamin K-dependent target proteins.
This represents a major drawback for the applicability of the final therapeutic product as it has been demonstrated that even small amounts of activated coagulation factors have been implicated as causative agents for disseminated intravascular coagulation and thromboembolism.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

Preparation and selection of Ca.sup.2+ -independent monoclonal antibodies specific for intact human Factor IX

For the selection of Ca.sup.2+ -independent monoclonal antibodies with substantial specificity for intact human Factor IX, peptide No. 1 (see Table I) comprising the primary activation site Q.sup.139 -D.sup.154 of Factor IX was synthesized by standard procedures. Immunization, fusion and subcloning of selected anti-Factor IX positive cultures was performed according to established procedures (G. Kohler and C. Milstein, Nature vol 256; 1975, pp 495-497), employing conventionally purified Factor IX as the antigen. Primary screening of the hybridoma cell supernatants was performed using a solid phase enzyme-linked immunosorbent assay (ELISA). To this end, purified factor IX was coated to the wells of microtiter plates (Dynatech GmbH, Plockingen, Germany) at a concentration of 0.5 .mu.g / ml in 50 mM NaHCO.sub.3 pH 9.5 overnight at 4.degree. C. The plates were washed with 50 mM Tri...

example 2

Purification of intact Factor IX from prothrombin complex concentrate

The immobilized CLB-FIX D4 IgG was evaluated for use as an immunosorbent for the isolation of intact factor IX from a prothrombin complex concentrate prepared by conventional techniques (J. Heystek et al., Vox Sang. vol 25; 1973, pp 113-123) as a source material. To 350 ml of prothrombin complex concentrate, 90 ml were added of a buffer containing 0.1 M trisodiumcitrate, 0.77 M NaCl and 0.05 M benzamidine-HCl, pH 7.4. The mixture was applied to a column containing 20 ml of CLB-FIX D4-Sepharose (diameter 2.5 cm, flow rate 25 cm / hr) equilibrated in 20 mM trisodiumcitrate, 154 mM NaCl, 10 mM benzamidine-HCl, pH 7.4. The column was subsequently washed with the same buffer until all unbound protein was removed. At this point the buffer was changed to elution buffer (2 M KSCN in equilibration buffer). Fractions were collected and assayed for protein and Factor IX clotting activity by established procedures (M. M. Bradfor...

example 3

Selective purification of intact Factor IX from a mixture of partially cleaved Factor IX species

As affinity chromatography employing antibody CLB-FIX D4 permits the specific separation of apparently non-activated Factor IX from other haemostatic proteins (see Example I), its selectivity for the various Factor IX cleavage products was evaluated in more detail, with special reference to Factor IXa.beta. and its proteolysis-sensitive precursor Factor IX.alpha..

Three mixtures were prepared for subjection to CLB-FIX D4-affinity chromatography, each consisting to a major extent of one specific Factor IX activation product: (1) Factor IXa.beta.: Purified Factor IX, as obtained by the method of Example I, was activated by incubation with purified human Factor XIa. The latter was prepared from Celite-activated human plasma (D. L. Tankersley et al., Thromb. Res. vol 25; 1982, pp 307-317) by immuno-affinity chromatography using a monoclonal antibody against human Factor XI (J. C. M. Meijers, P...

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Abstract

A method for the generation of Ca++ independent antibodies against blood coagulation factors is described wherein an antibody selection strategy based upon small peptides comprising target sequences for limited proteolysis is employed. These antibodies which distinguish between intact and cleaved species of haemostatic protein provide novel tools for the isolation of intact haemostatic proteins.

Description

FIELD OF THE INVENTIONThis invention relates to the preparation of therapeutic compositions consisting of purified blood coagulation factors for the treatment of haemostatic disorders. Said compositions are obtained by affinity chromatography employing antibodies, more in particular monoclonal antibodies, that distinguish between intact and cleaved molecular species. Methods are disclosed to obtain such antibodies, which allow the isolation of vitamin K-dependent blood coagulation proteins, including Factor IX, Factor VII, Protein C or Protein S, as intact polypeptides, devoid of cleavage products representing activated or degraded species.BACKGROUND OF THE INVENTIONInherited or acquired deficiencies of proteins of the blood coagulation system provide a major cause for the occurrence of haemostatic disorders. Even the lack or shortage of one single component of this system may be sufficient to disturb the delicate balance between procoagulant and anticoagulant pathways in a manner r...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): C07K14/435C07K14/755C07K14/745C07K16/18C07K16/36C12N9/64A61K38/00G01N33/53A61K38/36A61K38/43A61K39/395A61P7/00A61P7/04B01J20/281C07K1/00C07K1/22C07K7/06C07K7/08C07K14/00C12N15/02C12P21/08G01N30/88
CPCA61K38/00C07K14/745C07K14/755C07K16/36C12N9/6481A61P7/00A61P7/04
Inventor MERTENS, KOENRAADVAN MOURIK, JAN AART
Owner STICHTING SANQUIN BLOEDVOORZIENING
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