Chemistry: analytical and immunological testing – Involving an insoluble carrier for immobilizing immunochemicals
Reexamination Certificate
1999-06-16
2002-03-19
Nguyen, Bao-Thuy L. (Department: 1641)
Chemistry: analytical and immunological testing
Involving an insoluble carrier for immobilizing immunochemicals
C435S961000, C436S523000, C436S524000, C436S528000, C436S531000, C436S533000, C436S823000, C427S532000, C427S338000, C427S402000, C427S403000, C427S412000, C427S413000, C427S099300, C427S099300, C427S099300
Reexamination Certificate
active
06358753
ABSTRACT:
The invention relates to a method for binding antibody or antigen molecules to solid phase. The reactive compound comprising an antibody or antigen molecule and solid phase is formed by coupling a specific antibody or antigen molecule to a solid phase using a two-step reaction. The final result is an antibody or antigen molecule complex which is covalently bound to the solid phase and is very active in immunological reactions. The bound antibody may be mono- or polyclonal, and a whole antibody or a part thereof. The present method enables carrying out immunological assays with very high specificity and sensitivity. The process of preparation is very simple compared to covalent coupling methods disclosed previously. The present invention can be exploited industrially in a test kit which includes a solid phase-biomolecule conjugate, i.e. a particle suspension or another solid phase, to which antibodies, their fragments, or antigens have been attached by the method according to the invention. The characteristics of the invention are defined in the claims.
There are prior known methods in which an antibody or antigen molecule is attached adsorptively or covalently to latex particles, or in which methods whole antibody molecules are modified (U.S. Pat. Nos. 5,095,097, 4,184,849, 4,210,723, 4,401,765, 4,480,042, 4,397,960 and 4,164,558 as well as European patent application 0 709 676 A2).
In the last-mentioned patent application (EP 0 709 676 A2) the pretreatment of a whole IgG-molecule in an acidic solution modifies the tertiary structure of the molecule, so that the attachment of a whole reformed IgG-molecule carried out after neutralization enables reduction of the disturbing factors in the connection of immunological assays. In addition, a zwitterionic or non-ionic surfactant is used in the method according to said patent application to enhance the covalent binding of the acid-treated and neutralized antibody on the surface of latex particles. In said patent application it is specifically mentioned that anionic or cationic surfactants are ineffective in enhancing the covalent binding of the antibody on the surface of the a latex particle. In the above mentioned patent application coupling chemistry is applied to specific core-shell particles, in which the actual covalent binding takes place between the methyl chloride, oxirane, carboxyaldehyde, tosyl, mesyl or n-acryloxysuccinimide groups of the outermost shell of a particle, or mixtures of such groups and the amino groups of the antibody molecule in the presence of a zwitterionic or non-ionic surfactant, or a mixture thereof. Said method is, however, suitable merely to the attachment of antibodies of IgG class, and thus it is not suitable for attaching e.g. antigen molecules, unlike the present method.
In quantitative and qualitative immunological assays the amount of either an antibody or an antigen is measured from biological fluids, secretions or tissue fluids (blood, serum, plasma, cerebrospinal fluid, pleural fluid, ascites fluid, pus, wound secretion, urine, sputum, faeces, pharyngeal sample, etc.). Tests can be either direct, non-direct or inhibitory. In immunological reactions the antibody binds to an antigen structure specific to said antibody. Either the antibody or the antigen can be bound to a specific signal substance (label). Labels include polymeric particles (also colored and magnetic). The antibody or antigen molecules can also be attached on the surface of a solid phase of another type (e.g. a microtitre plate or a test tube or a cuvette carrying active binding groups on its surface). In quantitative assays an analysis equipment is often used, the principle of which is the optical measurement of the sample (absorbance, extinction, nephelometry, reflectance, fluorescence, phosforescence, etc.).
In the present method an antibody (a whole molecule or its fragment) or, alternatively, an antigen molecule (including e.g. haptens, lectins or chemical compounds) is attached in two steps on the surface of a copolymeric styrenvinylbenzylchloride (S/VBC) particle in the presence of an anionic surfactant, thereby achieving as an end product a covalent particle-antibody complex or, alternatively, a covalent particle-antigen complex. Polymer particles can be homopolymeric or copolymeric or they can be core-shell particles. The size range of the particles is typically from 10 nm to 10000 nm. As particle materials, besides S/VBC, polystyren, polyvinylnaphthalene, polyvinylcarbazole, polyvinyltoluene, polyvinylbutylstyren, polyvinylbenzene, polyvinylchlioride, and mixtures thereof come into question. Besides particles, the solid phase can also be e.g. a microtitre plate, a test tube, an assay cuvette, immunochromatography material, a filter, a test strip or gold colloid.
In the present method when the antibody, a fragment thereof, or the antigen is attached to the solid phase, their structure is modified to be advantageous for the coupling in statu nascendi and for an immunological reaction. The coupling is covalent, when it takes place between the active groups of the solid phase and the antibody, a fragment thereof or the antigen molecule, in the presence of an anionic surfactant.
As mentioned above, particles prepared of raw materials other than S/VBC come into question. These raw materials are selected e.g. from polystyrene, polyvinylnapthalene, polyvinylcarbazole, polyvinyltoluene, polyvinylbutylstyrene, polyvinylbenzene and polyvinylchloride, and their mixtures, as well as colloidal gold. The present coupling method differs from the prior disclosed (EP 0 709 676 A2) e.g. in that the antibody molecule to be coupled can be a whole molecule or a fragment thereof, and also an antigen molecule. In addition, the method is very rapid to carry out as it does not require separate steps or coupling reagents, which even as such may denature the biomolecules to be coupled with e.g. intra- and intermolecular cross linkages (e.g. carbodiimide linkages). The method of the invention enables also a very long storage time of the prepared reagent (i.e. solid phase-biomolecule conjugate) in both soluble and lyophilized form.
Coupling takes place at the first step very rapidly substantially via hydrophobic interactions (hydrogen bonds, van der Waals forces) and at the immediately following second step covalently, whereby the methyl chloride groups react with primary or secondary amino groups of the antibody molecules (a whole molecule or a fragment thereof) or the antigen molecules (substitution reaction). It is also possible that methyl chloride groups react with some other groups. Covalent binding is a fairly slow event, and enhancement thereof requires basic pH (8 to 11, preferably pH 9.0). Except methyl chloride groups, also epoxy, aldehyde, tosyl, mesyl or n-hydroxysuccinimide groups, or mixtures thereof, can act as covalently binding groups of the solid phase, whereby the conditions of the actual covalent reaction step (step 2) have been optimized for said reaction chemistry.
In the coupling procedure the S/VBC particles are transferred by dialysis to a dilute acid or a buffer solution, preferably to 5 mM HCl (pH 2 to 6, preferably 2.5), whereto an anionic surfactant, preferably the surfactant polyoxy-1,2-ethane diyl-&agr;-nonylphenyl-o-hydroxy-phosphate Rhodafac-RE610), is added under stirring, to achieve a surfactant concentration of 0.01 to 0.1%, preferably 0.025%, at the final coupling step, depending on the antibody or antigen used. The antibody or antigen, preferably as a 0.9% solution in NaCl is added under vigorous stirring into the particle suspension in 5 mM HCl, to achieve a particle concentration of about 0.5 to 10%, preferably 2% at the coupling step. The concentration of the antibody or antigen at the coupling step is 0.01 to 1%, preferably 0.01 to 0.2%, depending on the antibody and the antigen used. The ratio of the antibody or the antigen to the dry weight of the S/VBC particles is 0.001 to 1.0, most preferably 0.1 to 0.3.
The mixture of the antibody or antigen and the SNVBC particles is incubated for 1 to 60 minutes,
Luotola Juhani
Malassu Martti
Crowell & Moring LLP
Nguyen Bao-Thuy L.
Orion-Yhtymä Oyj
LandOfFree
Method of coupling ligands to a solid phase in acidic... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method of coupling ligands to a solid phase in acidic..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method of coupling ligands to a solid phase in acidic... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2866150