JP2019002871A - Method for measuring anti-ganglioside antibodies, reagent kit for measuring anti-ganglioside antibodies, washing liquid and method for improving sensitivity in measuring anti-ganglioside antibodies - Google Patents

Abstract

To provide a method, a reagent kit and a washing liquid for measuring anti-ganglioside antibodies in/with which sensitivity can be improved when measuring anti-ganglioside antibodies in a sample by subjecting the anti-ganglioside antibodies to antigen-antibody reaction with gangliosides immobilized on a carrier, to acquire an accurate measurement result.SOLUTION: In a method and a reagent kit for measuring anti-ganglioside antibodies in a sample by subjecting the anti-ganglioside antibodies to antigen-antibody reaction with gangliosides immobilized on a carrier, a washing liquid that has ionic strength of 150 mmol/L or lower is used as a washing liquid to remove unreacted components.SELECTED DRAWING: None

Description

The present invention relates to measurement of anti-ganglioside antibody in a sample using ganglioside immobilized on a carrier.
The present invention is important in the glycolipid field, biochemical field, analytical chemistry field, clinical laboratory field, life science field, and the like, but is particularly important in the diagnosis of neurological diseases and the like.

Gangliosides (sialoglycolipids; a general term for glycosphingolipids containing sialic acid) have been known to be present in abundantly in nerve tissues. When an antibody that reacts with gangliosides in nerve tissues is produced in body fluids, It has become known to cause severe neurological symptoms.
It is known that these autoantibodies are produced in the body against pre-infected bacterial cells, which cross-react with gangliosides in nerve tissue and cause autoimmune neurological diseases that damage the nerves as autoantibodies. .

For example, an IgG-type anti-GM1a antibody, which is one of antibodies against ganglioside (anti-ganglioside antibody), is known to be involved in motor neurological diseases such as acute axillary Guillain-Barre syndrome.
In the case of acute axillary Guillain-Barre syndrome, the bacterium Campylobacter jejuni, known as a food poisoning organism, is pre-infected, and an antibody against a ganglioside structure part similar to GM1a on the lipopolysaccharide (LPS) of the bacterium is produced in the body. (For example, nonpatent literature 1).
This antibody has been found to be found in blood (for example, Non-Patent Document 2 and Non-Patent Document 3).

Another anti-ganglioside antibody, IgG-type anti-GQ1b antibody, is involved in neurological diseases such as Fisher syndrome and Vickerstaff brainstem encephalitis, and the findings are similar to other central nervous system diseases such as brainstem infarction. But the treatment is quite different.
This antibody has also been found to be found in patient serum (for example, Non-Patent Document 4 and Non-Patent Document 5).
In addition, it has been reported that anti-GD2 antibody, anti-GT1b antibody, and anti-GQ1b antibody are elevated in sensory ataxia polyneuropathy.
There is also a report that an antibody that reacts with ganglioside is detected from a sample derived from a cancer patient.

  As described above, the relationship between various diseases and anti-ganglioside antibodies has been elucidated at the research level, and measurement by ELISA has been put to practical use as a method for measuring anti-ganglioside antibodies that can be used in clinical settings (for example, Patent Document 1, Patent Document 2 and Non-Patent Document 6).

However, the ELISA method used as a method for measuring anti-ganglioside antibodies has a problem that the sensitivity of the measurement is not sufficient depending on the specimen. For this reason, when trying to use the measured value of the anti-ganglioside antibody in the sample for the examination of the disease, there is a possibility that the diagnosis of the disease is mistaken.
Therefore, when the anti-ganglioside antibody in a sample is measured by reacting ganglioside with an antigen antibody, further improvement in measurement sensitivity has been desired.

Japanese Patent Laid-Open No. 9-1778749 JP 2003-294752 A

Yuki et al. Exp. Med. 178, 1771-1775, 1993. A. J. et al. Kornberg et al., Ann. Neurol. 35, 234-237, 1994 L. H. Visser et al., Brain, 118, 841-847, 1995. Chiba et al., Ann. Neurol. 31, 677-679, 1992 Yuki et al. Neurol. Sci. 118, 83-87, 1993 Kotaka et al., Modern Media, Vol. 54, No. 3, pp. 82-86, 2008

  Accordingly, an object of the present invention is to provide a method, a measurement reagent kit, and a washing solution that can accurately measure an anti-ganglioside antibody in a sample by an antigen-antibody reaction with a ganglioside immobilized on a carrier and obtain an accurate measurement result. Is to provide.

  As a result of intensive studies aimed at solving the above-mentioned problems, the present inventors have found that a method and a reagent kit for measuring an anti-ganglioside antibody in a sample by causing an antigen-antibody reaction with a ganglioside immobilized on a carrier are not yet available. It has been found for the first time that the sensitivity of measurement can be improved by using a cleaning liquid having an ionic strength of 150 mmol / L or less as a cleaning liquid for removing reaction components, and the present invention has been completed.

That is, this invention consists of the following invention.
[1] In a method for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, the ionic strength is 150 mmol / L or less as a washing solution for removing unreacted components. A method for measuring an anti-ganglioside antibody in a sample, which comprises using a washing solution.
[2] In a measurement reagent kit for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, an ionic strength of 150 mmol / L or less as a washing solution for removing unreacted components A reagent kit for measuring an anti-ganglioside antibody in a sample, characterized by comprising a washing solution.
[3] A washing solution for removing unreacted components when measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, and having an ionic strength of 150 mmol / L or less A cleaning liquid characterized by being.
[4] In a method of measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, the ionic strength is 150 mmol / L or less as a washing solution for removing unreacted components A method for improving the sensitivity of measurement of an anti-ganglioside antibody in a sample, which comprises using a washing solution.

The anti-ganglioside antibody measuring method, anti-ganglioside antibody measuring reagent kit, washing solution and anti-ganglioside antibody measuring method of the present invention improve the sensitivity of measuring anti-ganglioside antibodies in a sample.
Thus, in the present invention, even low-value anti-ganglioside antibodies can be accurately measured with good reproducibility.

Hereinafter, the present invention will be described in detail. The following embodiment is an example for explaining the present invention, and is not intended to limit the present invention to this embodiment alone. The present invention can be implemented in various forms without departing from the gist thereof.
All publications cited herein, for example, prior art documents, publications, patent publications and other patent documents, are incorporated herein by reference.

[1] Cleaning solution General In the method for measuring an anti-ganglioside antibody in a sample of the present invention, in order to remove an unreacted component in the method for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier. As the cleaning solution, a cleaning solution having an ionic strength of 150 mmol / L or less is used.

  In the measurement reagent kit for anti-ganglioside antibody in the sample of the present invention, the unreacted component in the measurement reagent kit for measuring the anti-ganglioside antibody in the sample by reacting the ganglioside immobilized on a carrier with an antigen antibody As a cleaning liquid for removing selenium, a cleaning liquid having an ionic strength of 150 mmol / L or less is included.

  The cleaning solution of the present invention is a cleaning solution for removing unreacted components when measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, and has an ionic strength. It is characterized by being 150 mmol / L or less.

  Further, in the method for improving the sensitivity of measurement of an anti-ganglioside antibody in a sample of the present invention, an unreacted method in which the anti-ganglioside antibody in a sample is measured by reacting an antigen-antibody with ganglioside immobilized on a carrier. As a cleaning liquid for removing components, a cleaning liquid having an ionic strength of 150 mmol / L or less is used.

  In the present invention, the sensitivity of measurement of anti-ganglioside antibody in a sample can be improved by the above.

2. In the present invention, examples of the cleaning liquid include water and an aqueous solution.
When the cleaning liquid in the present invention is an aqueous solution, the cleaning liquid can contain a buffer, a salt, a surfactant, a preservative, and the like.

(1) pH
In the present invention, the pH of the cleaning liquid is not particularly limited, but is preferably pH 6.0 [20 ° C.] or higher, and particularly preferably pH 7.0 [20 ° C.] or higher.

  The pH of the cleaning liquid is preferably pH 9.0 [20 ° C.] or less, and particularly preferably pH 8.0 [20 ° C.] or less.

(2) Buffering agent In the present invention, a buffering agent can be appropriately present in the cleaning liquid as necessary.

  For example, a buffering agent having a buffering capacity in the pH range or the like described in “(1) pH” can be contained in the cleaning liquid at a concentration having a buffering capacity.

  Examples of such a buffer include MES, Bis-Tris, Bis-Tris propane, ADA, PIPES, ACES, MOPSO, MOPS, MES, BES, TES, HEPES, DIPSO, TAPSO, POPSO, HEPPSO, HEPPS, EPPS. , Tricine, Bicine, TAPS, CHES, CAPSO, CAPS, phosphoric acid, phosphate, boric acid, borate, glycine, glycylglycine, imidazole, or tris (hydroxymethyl) aminomethane [Tris] Can do.

In the cleaning liquid of the present invention, it is preferable to set the pH of the cleaning liquid so that the pH is in the pH range described in “(1) pH”.
For this reason, it is preferable to contain the buffer which has buffer capacity in the pH range etc. of said (1) pH in the washing | cleaning liquid in the density | concentration which has buffer capacity.

  As the buffer in the present invention, Good's buffer or phosphate is preferable.

(3) Salts In the present invention, salts can be appropriately present in the cleaning liquid as necessary.

  Examples of the salts include salts whose cation is an alkali metal ion, an alkaline earth metal ion, an ammonium ion, or other metal ions.

  Examples of alkali metal ions include lithium ions, sodium ions, or potassium ions.

  Examples of alkaline earth metal ions include beryllium ions, magnesium ions, calcium ions, and the like.

  Examples of other metal ions include manganese ions, iron ions, cobalt ions, nickel ions, copper ions, zinc ions, and aluminum ions.

  Examples of ammonium ions include primary ammonium ions, secondary ammonium ions, tertiary ammonium ions, and quaternary ammonium ions.

As other cations, for example, carbon atoms, silicon atoms, boron atoms, nitrogen atoms (in cases other than ammonium ions), phosphorus atoms, sulfur atoms, etc. are positively charged atoms or atomic groups Can be mentioned.
Specific examples thereof include a choline ion in which a carbon atom has a positive charge.

  In addition, as this cation, only one type may be used, or a plurality of types may be used simultaneously.

  In addition, examples of the salts in the present invention include an acid group whose anion is composed of an organic compound, a halogen ion, or an acid group composed of other inorganic compounds.

  Examples of the acid group made of this organic compound include acetate ion, citrate ion, gluconate ion, or oxalate ion.

  As a halogen ion, a fluorine ion, a chlorine ion, a bromine ion, an iodine ion etc. can be mentioned, for example.

  Examples of acid groups composed of other inorganic compounds include sulfate ion, sulfite ion, pyrosulfite ion, dithionite ion, thiosulfite ion, nitrate ion, nitrite ion, hyponitrite ion, peroxonitrite ion, Examples include phosphate ion, phosphite ion, pyrophosphite ion, hypophosphite ion, diphosphate ion, borate ion, carbonate ion, cyanate ion, isocyanate ion, or silicate ion. it can.

  Moreover, as this anion, only one type may be used, or a plurality of types may be used simultaneously.

  The salt in the present invention is preferably a salt of an alkali metal and a halogen ion or a salt of an alkaline earth metal and a halogen ion, more preferably a salt of an alkali metal and a halogen ion, sodium chloride, potassium chloride or lithium chloride. Is more preferred, and sodium chloride is particularly preferred.

(4) Surfactant In the present invention, a surfactant can be appropriately present in the cleaning liquid as necessary.
Examples of this surfactant include nonionic surfactants, anionic surfactants, cationic surfactants, and amphoteric surfactants.

[1] Examples of nonionic surfactants include the following.
(A) Polyoxyalkylene such as polyoxyethylene alkyl ether, polyoxypropylene alkyl ether, polyoxyethylene alkyl phenyl ether, polyoxypropylene alkyl phenyl ether, polyoxyethylene polystyryl phenyl ether, or polyoxyethylene polyoxypropylene glycol Ether compounds.

(B) Polyhydric alcohol partial ester compounds such as glycerin fatty acid partial ester, sorbitan fatty acid partial ester, pentaerythritol fatty acid partial ester, propylene glycol monofatty acid ester, or sucrose fatty acid partial ester.

(C) Polyoxyethylene esterification such as polyoxyethylene sorbitan fatty acid partial ester, polyoxyethylene sorbitol fatty acid partial ester, polyoxyethylene glycerin fatty acid partial ester, polyethylene glycol fatty acid ester, polyglycerin fatty acid partial ester, or polyoxyethylenated castor oil Polyhydric alcohol fatty acid ester.

(D) Amides or amine compounds such as fatty acid diethanolamide, N, N-bis-2-hydroxyalkylamine, polyoxyethylene alkylamine, triethanolamine fatty acid ester, or trialkylamine oxide.

[2] Examples of the anionic surfactant include the following.
(A) Aliphatic compound carboxylates such as aliphatic monocarboxylates, N-acyloylsarcosine salts, N-acyloyl-β-alanine salts, or N-acyloyl glutamates; or cyclics such as abietic acid salts Compound carboxylate.

(B) Aliphatic compound sulfonates such as dialkylsulfosuccinate, alkanesulfonate, or hydroxyalkanesulfonate; linear alkylbenzenesulfonate, alkyl (branched) benzenesulfonate, alkylnaphthalenesulfonate , Cyclic sulfonates such as alkylphenoxy polyoxyethylene propyl sulfonate, polyoxyethylene alkyl phenol sulfonate, or naphthalene sulfonate-formaldehyde condensate; or N-methyl-N-oleyl taurine sodium, or N -Nitrogen-containing compound sulfonates such as alkylsulfosuccinic acid monoamide disodium salt.

(C) Sulfated castor oil, sulfated bovine leg oil, fatty acid alkyl ester / sulfate ester salt, alkyl sulfate ester salt, polyoxyethylene alkyl ether sulfate ester, fatty acid monoglyceride sulfate ester, or polyoxyethylene alkyloylamide sulfate An aliphatic compound sulfate such as a polyoxyethylene alkylphenyl ether sulfate, or a cyclic compound sulfate such as a polyoxyethylene styryl phenyl ether sulfate.

(D) Alkyl phosphate ester salts or aliphatic compound phosphate ester salts such as polyoxyethylene alkyl ether phosphate ester salts; or cyclic compound phosphate ester salts such as polyoxyethylene alkylphenyl ether phosphate ester salts.

(E) A saponified polymer compound such as a partially saponified product of styrene-maleic anhydride copolymer or a partially saponified product of olefin-maleic anhydride copolymer.

(F) Polycondensation type polymer compounds such as naphthalene sulfonate-formalin condensate.

[3] Examples of the cationic surfactant include the following.
(A) Aliphatic compound amine salts such as monoalkylamine salts, dialkylamine salts, or trialkylamine salts.

(B) Aliphatic compound quaternary ammonium salt such as tetraalkylammonium salt; or trialkylbenzylammonium salt, alkylpyridinium salt, 2-alkyl-1-alkyl-1-hydroxyethylimidazolinium salt, or N, N -Cyclic compound quaternary ammonium salts such as dialkylmorpholinium salts.

(C) Polyethylene polyamine derivatives such as polyethylene polyamine aliphatic amide salts, salts of polyethylene polyamine aliphatic amide urea condensates, or quaternary ammonium salts of polyethylene polyamine aliphatic amide urea condensates.

[4] Examples of amphoteric surfactants include the following.
(A) Carboxybetaine compounds such as N, N-dimethyl-N-alkyl-N-carboxyalkylene ammonium betaine.

(B) aminocarboxylic acid compounds such as N, N-dialkylaminoalkylene carboxylates.

(C) A sulfobetaine compound such as N, N, N-trialkyl-N-sulfoalkyleneammonium betaine.

(D) Amino sulfate compounds such as N-alkyl-N, N-bispolyoxyethylene sulfate.

(E) Imidazoline compounds such as 2-alkyl-1-hydroxyethyl-1-carboxymethylimidazolinium salts.

  In the present invention, only one type of surfactant may be used, or two or more types of surfactants may be used in combination.

  In the present invention, the surfactant is preferably a nonionic surfactant.

  In the present invention, the concentration of the surfactant contained in the cleaning liquid is preferably 0.001% (w / v) or more, and particularly preferably 0.01% (w / v) or more.

  The concentration of the surfactant contained in the cleaning liquid is preferably 1.0% (w / v) or less, and particularly preferably 0.1% (w / v) or less.

(5) Summary of components The ionic strength of the cleaning agent in the present invention is 150 mmol / L or less, including all components of the buffer, salts, and surfactants contained therein. It only has to be.
In addition, the ionic strength of the cleaning agent in the present invention is preferably 120 mmol / L or less, more preferably 100 mmol / L or less, and further preferably 70 mmol / L or less.

[2] Ganglioside In the present invention, ganglioside is a glycolipid containing sialic acid (sialoglycolipid) and is a general term for a glycosphingolipid containing sialic acid.
Examples of the ganglioside include GM1, GM1b, GM1-Fuc, GM2, GM3, GM3 (NeuGc), GM4, GD1a, GD1b, GD2, GD3, GD3 (NeuAc / NeuGc), GD3 (NeuGc, T1G, T1G1). , GT1c, GQ1a, GQ1b, GQ1c, GP1a, GP1b, GP1c, or LM1.

[3] Anti-ganglioside antibody In the present invention, the anti-ganglioside antibody is an antibody that can specifically bind to the aforementioned ganglioside.

  Examples of anti-ganglioside antibodies include anti-GM1 antibody, anti-GM1b antibody, anti-GM1-Fuc antibody, anti-GM2 antibody, anti-GM3 antibody, anti-GM3 (NeuGc) antibody, anti-GM4 antibody, anti-GD1a antibody, and anti-GD1b antibody. Anti-GD2 antibody, anti-GD3 antibody, anti-GD3 (NeuAc / NeuGc) antibody, anti-GD3 (NeuGc) 2 antibody, anti-GT1a antibody, anti-GT1b antibody, anti-GT1c antibody, anti-GQ1a antibody, anti-GQ1b antibody, anti-GQ1c antibody, Examples thereof include an anti-GP1a antibody, an anti-GP1b antibody, an anti-GP1c antibody, and an anti-LM1 antibody.

  In the present invention, it is particularly suitable for measurement of anti-GM1 antibody and anti-GQ1b antibody.

[4] Carrier In the present invention, the carrier can be used without particular limitation as long as it can immobilize the ganglioside.

  That is, any carrier may be used as long as it is a carrier that can be used or used in a measuring reagent and a measuring method for measuring an anti-ganglioside antibody in a sample using an antigen-antibody reaction with ganglioside.

  The material of this carrier is not particularly limited. For example, polystyrene, polycarbonate, polyvinyl toluene, polypropylene, polyethylene, polyvinyl chloride, nylon, polymethacrylate, polyacrylamide, latex, liposome, gelatin, agarose, cellulose, sepharose, glass, A solid support in the form of a microcapsule, a bead, a microtiter plate (microplate), a test tube, a stick, or a test piece made of a material such as metal, ceramics, or a magnetic material can be used.

  In the present invention, the carrier is preferably a microtiter plate.

  In the present invention, ganglioside (ganglioside antigen) can be immobilized on a carrier by a known method such as a physical adsorption method, a chemical binding method, or a combination thereof.

  For example, when the chemical binding method is used, the Japanese Society of Clinical Pathology “Special Issue on Extraordinary Clinical Pathology No. 53: Immunoassay for Clinical Tests—Technology and Applications”, Clinical Pathology Publications, 1983; Japan Biochemical Society In accordance with a known method described in ed. “Shinsei Kagaku Kenkyu Koza 1 Protein IV”, published by Tokyo Kagaku Dojin, 1991, etc., a ganglioside and a carrier are divalently crosslinked such as glutaraldehyde, carbodiimide, imide ester or maleimide. It can be carried out by mixing and bringing into contact with a reagent and reacting the ganglioside with each of the amino group, carboxyl group, thiol group, aldehyde group, hydroxyl group or the like of the carrier with the above-mentioned divalent crosslinking reagent.

  Furthermore, if it is necessary to perform treatment in order to suppress spontaneous aggregation of the carrier on which ganglioside is immobilized, non-specific reaction, etc., bovine serum albumin (BSA) is applied to the surface or inner wall surface of the carrier on which ganglioside is immobilized. Treatment with a known method such as contact with a protein such as human serum albumin (HSA), casein, gelatin, ovalbumin or a salt thereof, a surfactant or skim milk powder, and the like, thereby blocking the carrier (masking) Processing).

[5] Sample In the present invention, the sample may be any anti-ganglioside antibody as long as it is possible to measure the presence or absence or amount of the anti-ganglioside antibody. Good.
Examples of such samples include body fluids such as human or animal blood, serum, plasma, spinal fluid or ascites, or extracts such as organs, tissues or muscles, extracts such as cells or fungi, and the like. Mention may be made of ganglioside antibodies that may be included.

  The sample in the present invention is preferably human blood, serum or plasma.

[6] Measurement method The method for measuring an anti-ganglioside antibody in a sample of the present invention is a method of measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with an ganglioside immobilized on a carrier. As a cleaning liquid for removal, a cleaning liquid having an ionic strength of 150 mmol / L or less is used.

  In the measurement method of the present invention, the measurement principle of the method for measuring the anti-ganglioside antibody in the sample by reacting the ganglioside with the antigen-antibody is not particularly limited, and any measurement principle may be used.

  For example, enzyme immunoassay (ELISA, EIA), fluorescence immunoassay (FIA), radioimmunoassay (RIA), luminescence immunoassay (LIA), enzyme antibody method, fluorescent antibody method, immunochromatography method, immune ratio Turbidity method, latex turbidimetric method, latex agglutination reaction measurement method, erythrocyte agglutination reaction method, particle agglutination reaction method, measurement target substances described in JP-A-9-229936, JP-A-10-132919, etc. A specific binding substance to the substance (substance), a measurement method using a carrier having a surface coated with the substance, and particles to which the specific binding substance to the substance to be measured (test substance) is immobilized, or Dahlbeack et al. ELSA method (Enzyme-linked Ligandsorbent Assay) (Thromb. Haemost., Volume 79) , Pp. 767-772, published in 1998; WO 98/23963).

  When the measurement method of the present invention is carried out by a method based on a labeled immunoassay method such as an enzyme immunoassay, the present invention can be applied to any method such as a sandwich method or a competitive method. it can.

  In the measurement method of the present invention, the measurement may be performed by a method or using an apparatus such as an analyzer.

  In the present invention, a labeled immunoassay is preferable, and an enzyme immunoassay or a luminescence immunoassay is particularly preferable.

  In the measurement method of the present invention, the measurement method (measurement method) may be performed based on any known measurement principle (measurement method) according to a known method.

[7] Measurement Example The measurement method of the present invention will be specifically described below, taking as an example the case where the measurement method of the present invention is carried out by a method using a labeled immunoassay such as an enzyme immunoassay as a measurement principle.
An example in which measurement is performed by the sandwich method of labeled immunoassay will be shown.

[Example 1]
(1) First, prepare the following.
Carrier: A carrier on which ganglioside that can specifically bind to the anti-ganglioside antibody to be measured is immobilized (for example, in the measurement of anti-GM1 antibody, a microtiter plate in which GM1 is immobilized on a well)
Sample diluent: aqueous solution containing buffer cleaning solution: aqueous solution containing salts with ionic strength of 150 mmol / L or less

(2) A certain amount of the mixture of the sample (human serum) and the sample diluent is added to the site where the ganglioside of the carrier is immobilized, and is contacted for a certain period of time.
Thereby, when the anti-ganglioside antibody which is a measuring object substance exists in a sample, the coupling | bonding of a "carrier-ganglioside-antiganglioside antibody" is formed by antigen antibody reaction. (For example, “well of microtiter plate-GM1-anti-GM1 antibody”)

(3) After the addition and contact of this sample, the unreacted component (in this case, unbound sample component) is removed by washing the site where the ganglioside of the carrier is immobilized with a washing solution. (For example, the components not bound to the ganglioside immobilized on the carrier are removed by adding and removing the washing solution to the wells of the microtiter plate.)

(4) After this washing, add a fixed amount of a substance that can specifically bind to the anti-ganglioside antibody to which a labeling substance such as an enzyme is bound, to the site where the carrier ganglioside is immobilized. , Contact for a certain time.

  Examples of the substance that can specifically bind to the anti-ganglioside antibody include an antibody against this anti-ganglioside antibody, or a ganglioside antigen that can bind to this anti-ganglioside antibody.

  More specifically, examples of the antibody against this anti-ganglioside antibody include one or two selected from, for example, an anti-human IgG antibody, an anti-human IgA antibody, an anti-human IgM antibody, an anti-human IgD antibody, and an anti-human IgE antibody. The above antibodies can be mentioned.

  Examples of the antigen that can bind to the anti-ganglioside antibody include a ganglioside antigen that can bind to the anti-ganglioside antibody. (For example, when the anti-ganglioside antibody is an anti-GM1 antibody, GM1 can be mentioned.)

  By this operation, when an anti-ganglioside antibody that is a measurement target substance is present in the sample, the binding of “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-labeling substance” Is formed. (For example, "well of microtiter plate-GM1-anti-GM1 antibody-anti-human IgG antibody-labeled enzyme")

(5) Next, the portion of the carrier on which the ganglioside is immobilized is washed with a washing solution to specifically bind the unreacted component (in this case, the unbound “labelled substance-bound anti-ganglioside antibody”). The substance that can be ") is removed. (For example, the “anti-human IgG antibody-labeled enzyme” that is not bound to the carrier is removed by adding and removing the washing solution to the wells of the microtiter plate.)

(6) And, by detecting the labeling substance bound to the carrier by the binding of “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-labeling substance”, it is included in the sample. Measure the anti-ganglioside antibody.

  In this measurement, the carrier and the labeling substance are “substance-labeling substance capable of specifically binding to the carrier-ganglioside-anti-ganglioside antibody-anti-ganglioside antibody” via the anti-ganglioside antibody contained in the sample. Therefore, by measuring the amount of the labeling substance bound to the carrier, the presence or amount of the anti-ganglioside antibody contained in the sample can be measured.

In addition, as the “substance capable of specifically binding to the anti-ganglioside antibody bound to the labeling substance” used in the above (4), “an antibody against a class-specific human immunoglobulin bound to the labeling substance” is used. Thus, the anti-ganglioside antibody in the sample can be measured for each immunoglobulin class.
Examples of antibodies against human immunoglobulins by class include anti-human IgG antibodies, anti-human IgA antibodies, anti-human IgM antibodies, anti-human IgD antibodies, and anti-human IgE antibodies.

  In addition, measurement of anti-ganglioside antibody independent of immunoglobulin class by using these "antibodies against human immunoglobulins classified by class, to which a labeling substance is bound", in an appropriate ratio. Can do.

Further, as the “substance that can specifically bind to the anti-ganglioside antibody bound to the labeling substance” used in the above (4), “an antibody against a subclass-specific human immunoglobulin bound to the labeling substance” is used. Thus, the anti-ganglioside antibody in the sample can be measured for each immunoglobulin subclass.
Examples of antibodies against human immunoglobulins by subclass include anti-human kappa (κ) antibodies, anti-human lambda (λ) antibodies, anti-human IgG1 antibodies, anti-human IgG2 antibodies, anti-human IgG3 antibodies, and anti-human IgG4 antibodies. Can be mentioned.

  In addition, measurement of anti-ganglioside antibodies that do not depend on the immunoglobulin subclass by using these "antibodies against human immunoglobulins by subclass to which a labeling substance is bound" in an appropriate ratio. Can do.

  The detection of the labeling substance bound to the carrier by the binding of "carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-labeling substance" is a label for enzyme immunoassay, etc. In methods and reagent kits that measure using an enzyme as a substance, optical methods such as reacting a substrate with a labeled enzyme under the optimal conditions, and measuring the amount of the reaction product by measuring the absorbance of the reaction product, etc. Measure with

  In a method and reagent kit for measuring using a fluorescent substance as a labeling substance such as a fluorescent immunoassay, the measurement is performed by measuring the fluorescence intensity of the labeled fluorescent substance.

  In the method and reagent kit for measuring using a radioactive substance as a labeling substance such as radioimmunoassay, the measurement is performed by measuring the radiation dose of the labeled radioactive substance.

  In a method and reagent kit for measuring using a substance related to a luminescent reaction as a labeling substance such as a luminescent immunoassay, the measurement is performed by measuring the amount of luminescence in a luminescent reaction system involving the labeled substance.

  In addition, although it is said label | marker substance, when measuring by the enzyme immunoassay etc. which use an enzyme as a label | marker substance, peroxidase (POD), alkaline phosphatase (ALP), (beta) -galactosidase, urease, catalase, glucose Enzymes such as oxidase, lactate dehydrogenase, or α-amylase can be used.

  In addition, when measurement is performed by a fluorescent immunoassay method using a fluorescent substance as a labeling substance, a fluorescent substance such as fluorescein isothiocyanate, tetramethylrhodamine isothiocyanate, substituted rhodamine isothiocyanate, or dichlorotriazine isothiocyanate may be used. it can.

  When measurement is performed by a radioimmunoassay method using a radioactive substance as a labeling substance, a radioactive substance such as tritium, iodine 125, or iodine 131 can be used.

  Further, when the measurement is performed by a luminescence immunoassay method, acridinium ester, alkaline phosphatase, peroxidase, glucose oxidase or the like is used as a labeling substance, and acridinium ester, dioxetane compound, luminol-hydrogen peroxide is used. The labeling substance bound to the carrier can be detected by the -POD system or NADH-FMNH2-luciferase system.

[Example 2]
(1) First, prepare the following.
Carrier: A carrier on which ganglioside that can specifically bind to the anti-ganglioside antibody to be measured is immobilized (for example, in the measurement of anti-GM1 antibody, a microtiter plate in which GM1 is immobilized on a well)
Sample diluent: aqueous solution containing a buffering agent Washing solution: an aqueous solution containing a buffering agent and salts with an ionic strength of 150 mmol / L or less

(2) A certain amount of the mixture of the sample (human serum) and the sample diluent is added to the site where the ganglioside of the carrier is immobilized, and is contacted for a certain period of time.
Thereby, when the anti-ganglioside antibody which is a measuring object substance exists in a sample, the coupling | bonding of a "carrier-ganglioside-antiganglioside antibody" is formed by antigen antibody reaction. (For example, “well of microtiter plate-GM1-anti-GM1 antibody”)

(3) After the addition and contact of this sample, the unreacted component (in this case, unbound sample component) is removed by washing the site where the ganglioside of the carrier is immobilized with a washing solution. (For example, the components not bound to the ganglioside immobilized on the carrier are removed by adding and removing the washing solution to the wells of the microtiter plate.)

(4) After this washing, an amount of biotin bound to a substance capable of specifically binding to the anti-ganglioside antibody is added to the site where the ganglioside of the carrier is immobilized, and contacted for a certain period of time. Let

  Examples of the substance that can specifically bind to the anti-ganglioside antibody include an antibody against this anti-ganglioside antibody, or a ganglioside antigen that can bind to this anti-ganglioside antibody.

  More specifically, examples of the antibody against this anti-ganglioside antibody include one or two selected from, for example, an anti-human IgG antibody, an anti-human IgA antibody, an anti-human IgM antibody, an anti-human IgD antibody, and an anti-human IgE antibody. The above antibodies can be mentioned.

  Examples of the antigen that can bind to the anti-ganglioside antibody include a ganglioside antigen that can bind to the anti-ganglioside antibody. (For example, when the anti-ganglioside antibody is an anti-GM1 antibody, GM1 can be mentioned.)

  By this operation, when an anti-ganglioside antibody, which is a substance to be measured, is present in the sample, the binding of “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-biotin” It is formed. (For example, “well of microtiter plate-GM1-anti-GM1 antibody-anti-human IgG antibody-biotin”)

(5) Next, the site where the ganglioside of the carrier is immobilized is washed with a washing solution, so that unreacted components (in this case, unbound “biotin-bound anti-ganglioside antibody can be specifically bound. Remove possible substances "). (For example, “anti-human IgG antibody-biotin” not bound to the carrier is removed by adding and removing a washing solution to the well of the microtiter plate.)

(6) After this washing, a certain amount of avidin (or streptavidin) bound with a labeling substance such as an enzyme is added to the site where the ganglioside of the carrier is immobilized, and contacted for a certain period of time.

  By this operation, a bond of “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-biotin-avidin (or streptavidin) -labeling substance” is formed. (For example, "well of microtiter plate-GM1-anti-GM1 antibody-anti-human IgG antibody-biotin-avidin (or streptavidin) -labeled enzyme")

(5) Next, the site where the ganglioside of the carrier is immobilized is washed with a washing solution, whereby a labeling substance such as an enzyme is bound to unreacted components (in this case, unbound “avidin (or streptavidin)). Stuff ") is removed. (For example, the avidin (or streptavidin) -labeled enzyme that is not bound to the carrier is removed by adding and removing the washing solution to the wells of the microtiter plate.)

(6) The labeling substance bound to the carrier by the binding of “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-biotin-avidin (or streptavidin) -labeling substance” By detecting, the anti-ganglioside antibody contained in the sample is measured.

  In this measurement, the carrier and the labeling substance are passed through the anti-ganglioside antibody contained in the sample, “carrier-ganglioside-anti-ganglioside antibody-substance that can specifically bind to anti-ganglioside antibody-biotin-avidin. (Or streptavidin) -labeling substance ", the presence or absence of anti-ganglioside antibody contained in the sample can be measured by measuring the amount of labeling substance bound to the carrier. is there.

  Others are the same as in Example 1.

[8] Measuring reagent
The anti-ganglioside antibody measurement reagent in the sample of the present invention is a reagent for measuring an anti-ganglioside antibody in a sample by reacting the ganglioside immobilized on a carrier with an antigen-antibody to remove unreacted components. The cleaning liquid includes a cleaning liquid having an ionic strength of 150 mmol / L or less.

  In the present invention, the sensitivity of the measurement reagent for the anti-ganglioside antibody in the sample can be improved as described above.

  The details of the cleaning liquid and the method of using the same are as described above.

[9] Cleaning fluid
The cleaning solution of the present invention is a cleaning solution for removing unreacted components when measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, and has an ionic strength of 150 mmol / L or less.

  In the present invention, the sensitivity of measurement of anti-ganglioside antibody in a sample can be improved by the above.

  The details of the cleaning liquid and the method of using the same are as described above.

[10] Method for improving the sensitivity of measurement of anti-ganglioside antibody in a sample The method for improving the sensitivity of measurement of anti-ganglioside antibody in a sample of the present invention comprises an anti-ganglioside antibody in a sample immobilized on a carrier and an antigen. In the method of measuring by antibody reaction, a cleaning solution having an ionic strength of 150 mmol / L or less is used as a cleaning solution for removing unreacted components.

  In the present invention, the sensitivity of measurement of anti-ganglioside antibody in a sample can be improved by the above.

  The details of the cleaning liquid and the method of using the same are as described above.

  EXAMPLES Hereinafter, although an Example demonstrates this invention more specifically in detail, this invention is not limited by these Examples.

[Example 1] (Measurement of anti-ganglioside antibody at different ionic strengths-1)
The ionic strength was changed by changing the sodium chloride concentration, and the anti-GM1 antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GM1 antigen-immobilized carrier Ganglioside GM1 (Carbosy Limited) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nunk) and allowed to stand for a certain period of time to allow said ganglioside GM1 to be Immobilized in each well of a polystyrene plate.
Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GM1 is immobilized, and left for a certain period of time to perform a blocking treatment. Was prepared.

(3) Preparation of washing solution A 20 mM Tris-HCl buffer solution (pH 7.5) containing 0.05% Tween 20 (Tween 20) was prepared. Here, sodium chloride was added so as to have a concentration of 50 mM, 100 mM, or 137 mM, respectively, and three types of washing solutions having different sodium chloride concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 68 mmol / L, 118 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GM1 antibody positive serum:
Ten sera that were confirmed to contain anti-GM1 antibodies were prepared as anti-GM1 antibody-positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The 10 types of anti-GM1 antibody positive sera of 2 above, which are samples, were each diluted 100-fold with the sample dilution solution of (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in the above (1) into each well of the GM1 antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GM1 antigen immobilized on the carrier was brought into contact with the anti-GM1 antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of 1 of this Example was diluted 2,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 1.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the difference in absorbance obtained is higher in the case of 118 mmol / L, and further the absorbance obtained in the case of 68 mmol / L. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Example 2] (Measurement of anti-ganglioside antibody at different ionic strength-2)
The ionic strength was changed by changing the sodium chloride concentration, and the anti-GQ1b antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GQ1b antigen-immobilized carrier Ganglioside GQ1b (Hytest) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nungk) and allowed to stand for a certain period of time to allow said ganglioside GQ1b to be said polystyrene. Immobilized in each well of the plate.

  Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GQ1b is immobilized, and is allowed to stand for a certain period of time for blocking treatment. Was prepared.

(3) Preparation of washing solution A 20 mM Tris-HCl buffer solution (pH 7.5) containing 0.05% Tween 20 (Tween 20) was prepared. Here, sodium chloride was added so as to have a concentration of 50 mM, 100 mM, or 137 mM, respectively, and three types of washing solutions having different sodium chloride concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 68 mmol / L, 118 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GQ1b antibody positive serum:
Ten sera confirmed to contain anti-GQ1b antibodies were prepared as anti-GQ1b antibody-positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The 10 types of anti-GQ1b antibody positive sera of 2 above, which are samples, were each diluted 100-fold with the sample diluent of (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in (1) above into each well of the GQ1b antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GQ1b antigen immobilized on the carrier was brought into contact with the anti-GQ1b antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of Example 1 was diluted 7,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 2.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the difference in absorbance obtained is higher in the case of 118 mmol / L, and further the absorbance obtained in the case of 68 mmol / L. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Example 3] (Measurement of anti-ganglioside antibody at different ionic strengths-3)
The ionic strength was changed by changing the potassium chloride concentration, and the anti-GM1 antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GM1 antigen-immobilized carrier Ganglioside GM1 (Carbosy Limited) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nunk) and allowed to stand for a certain period of time to allow said ganglioside GM1 to be Immobilized in each well of a polystyrene plate.

  Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GM1 is immobilized, and left for a certain period of time to perform a blocking treatment. Was prepared.

(3) Preparation of washing solution A 20 mM Tris-HCl buffer solution (pH 7.5) containing 0.05% Tween 20 was prepared. To this, potassium chloride was added so as to have a concentration of 50 mM, 100 mM, or 137 mM, respectively, and three types of washing solutions having different potassium chloride concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 68 mmol / L, 118 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GM1 antibody positive serum:
Ten sera that were confirmed to contain anti-GM1 antibodies were prepared as anti-GM1 antibody-positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The 10 types of anti-GM1 antibody positive sera of 2 above, which are samples, were each diluted 100-fold with the sample dilution solution of (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in the above (1) into each well of the GM1 antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GM1 antigen immobilized on the carrier was brought into contact with the anti-GM1 antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of 1 of this Example was diluted 2,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 3.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the difference in absorbance obtained is higher in the case of 118 mmol / L, and further the absorbance obtained in the case of 68 mmol / L. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Example 4] (Measurement of anti-ganglioside antibody at different ionic strengths-4)
The ionic strength was changed by changing the potassium chloride concentration, and the anti-GQ1b antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GQ1b antigen-immobilized carrier Ganglioside GQ1b (Hytest) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nungk) and allowed to stand for a certain period of time to allow said ganglioside GQ1b to be said polystyrene. Immobilized in each well of the plate.

  Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GQ1b is immobilized, and is allowed to stand for a certain period of time for blocking treatment. Was prepared.

(3) Preparation of washing solution A 20 mM Tris-HCl buffer solution (pH 7.5) containing 0.05% Tween 20 (Tween 20) was prepared. To this, potassium chloride was added so as to have a concentration of 50 mM, 100 mM, or 137 mM, respectively, and three types of washing solutions having different potassium chloride concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 68 mmol / L, 118 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GQ1b antibody positive serum:
Ten sera confirmed to contain anti-GQ1b antibodies were prepared as anti-GQ1b antibody-positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The 10 types of anti-GQ1b antibody positive sera of 2 above, which are samples, were each diluted 100-fold with the sample diluent of (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in (1) above into each well of the GQ1b antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GQ1b antigen immobilized on the carrier was brought into contact with the anti-GQ1b antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of Example 1 was diluted 7,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 4.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the difference in absorbance obtained is higher in the case of 118 mmol / L, and further the absorbance obtained in the case of 68 mmol / L. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Example 5] (Measurement of anti-ganglioside antibody at different ionic strengths-5)
The ionic strength was changed by changing the buffer concentration, and the anti-GM1 antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GM1 antigen-immobilized carrier Ganglioside GM1 (Carbosy Limited) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nunk) and allowed to stand for a certain period of time to allow said ganglioside GM1 to be Immobilized in each well of a polystyrene plate.

  Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GM1 is immobilized, and left for a certain period of time to perform a blocking treatment. Was prepared.

(3) Preparation of washing solution 5 mM Tris-HCl buffer (pH 7.5) containing 10% Tween 20 (Tween 20), 10 mM Tris-HCl buffer (pH 7.5), and 20 mM Tris-HCl buffer (pH 7.5) Were prepared respectively. To these, sodium chloride was added to a concentration of 137 mM, and three types of washing solutions having different buffering agent concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 141 mmol / L, 146 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GM1 antibody positive serum:
Five types of sera confirmed to contain anti-GM1 antibodies were prepared as anti-GM1 antibody positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The five types of anti-GM1 antibody-positive sera of 2 described above, which are samples, were each diluted 100 times with the sample diluent of (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in the above (1) into each well of the GM1 antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GM1 antigen immobilized on the carrier was brought into contact with the anti-GM1 antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of 1 of this Example was diluted 2,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 5.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the absorbance difference obtained in the case of 146 mmol / L is higher, and the absorbance obtained in the case of 141 mmol / L is further obtained. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Example 6] (Measurement of anti-ganglioside antibody at different ionic strengths-6)
The ionic strength was changed by changing the buffer concentration, and the anti-GQ1b antibody (anti-ganglioside antibody) in the sample was measured by a labeled immunoassay.

1. Preparation of Reagent (1) Preparation of Sample Diluent A 10 mM HEPES buffer [pH 7.6] containing 1% (w / v) bovine serum albumin (BSA) was prepared. To this, sodium chloride was added to a concentration of 65 mM to prepare.

(2) Preparation of GQ1b antigen-immobilized carrier Ganglioside GQ1b (Hytest) was dispensed at 250 ng per well into a well of a polystyrene plate [PolySorp] (Nungk) and allowed to stand for a certain period of time to allow said ganglioside GQ1b to be said polystyrene. Immobilized in each well of the plate.

  Next, 200 μL of 1.5% BSA solution (pH 7.7) is dispensed into each well in which the ganglioside GQ1b is immobilized, and is allowed to stand for a certain period of time for blocking treatment. Was prepared.

(3) Preparation of washing solution 5 mM Tris-HCl buffer (pH 7.5) containing 10% Tween 20 (Tween 20), 10 mM Tris-HCl buffer (pH 7.5), and 20 mM Tris-HCl buffer (pH 7.5) Were prepared respectively. To these, sodium chloride was added to a concentration of 137 mM, and three types of washing solutions having different buffering agent concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 141 mmol / L, 146 mmol / L, and 155 mmol / L, respectively.

(4) Enzyme-labeled antibody Peroxidase-labeled rabbit anti-human IgG polyclonal antibody [P0214] (Dako) was used as the enzyme-labeled antibody.

(5) Coloring solution A 5 mM hydrogen peroxide aqueous solution containing 0.02% peroxidase substrate solution [3,3 ′, 5,5′-tetramethylbenzidine] (Dojindo Laboratories) was used as the coloring solution.

2. Sample Anti-GQ1b antibody positive serum:
Five types of sera confirmed to contain anti-GQ1b antibodies were prepared as anti-GQ1b antibody-positive sera.

3. Measurement of anti-ganglioside antibody in sample (1) The five types of anti-GQ1b antibody-positive sera of 2 described above, which are samples, were each diluted 100-fold with the sample diluent of 1 (1) of this example to obtain a mixed solution Was prepared.

(2) Dispense 100 μL of each of the mixed solutions prepared in (1) above into each well of the GQ1b antigen-immobilized carrier of (2) of Example 1 and leave it at 4 ° C. overnight. I put it.
As a result, the GQ1b antigen immobilized on the carrier was brought into contact with the anti-GQ1b antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(4) The enzyme-labeled antibody of (4) of Example 1 was diluted 7,000 times with Tris-HCl buffer containing 1% BSA. Next, 100 μL of this was dispensed into each well subjected to the above washing operation, and reacted at room temperature for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The well was washed separately for each of the three types of cleaning liquids (1) (3) of this example.

(6) Next, 100 μL of the color developing solution of (5) of Example 1 was dispensed into the wells and allowed to react at room temperature for 20 minutes.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) 20 minutes after the addition of the color developing solution, 100 μL of 0.35 M sulfuric acid was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 450 nm, subwavelength: 550 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 6.

  From this table, compared to the case where the ionic strength of the cleaning liquid is 155 mmol / L, the measured value of the absorbance difference obtained in the case of 146 mmol / L is higher, and the absorbance obtained in the case of 141 mmol / L is further obtained. It can be seen that the measured difference is higher.

  From this, it was confirmed that the sensitivity of measurement of the anti-ganglioside antibody in the sample can be improved by using a washing solution having an ionic strength of 150 mmol / L or less.

[Reference Example 1] (Measurement of anti-Trichosporon asahii antibody at different ionic strengths)
Measurement of anti-Trichosporon asahii antibody in the sample by labeled immunoassay was performed by changing the sodium chloride concentration.
Trichosporon asahii is a fungus that is a causative microorganism of summer-type hypersensitivity pneumonia.

1. Preparation of Reagent (1) Sample Diluent “Sample Diluent” of “Toriko Asahi Ab Check” (Sinotest), which is a reagent for measuring anti-Trichosporon asahii antibody (medicine for in vitro diagnosis), was used as a sample diluent.

(2) Preparation of washing solution A 10 mM phosphate buffer solution (pH 7.5) containing 0.05% Tween 20 was prepared. Here, sodium chloride was added so as to have a concentration of 50 mM, 100 mM, or 137 mM, respectively, and three types of washing solutions having different sodium chloride concentrations were prepared.
In this case, the ionic strength of each cleaning solution is 75 mmol / L, 125 mmol / L, and 162 mmol / L, respectively.

(3) Trichosporon asahii antigen-immobilized carrier "Trichosporon asahii antigen-immobilized microplate" of "Toriko Asahi Ab Check" (Sinotest) is described in Asahii antigen-binding carrier was used.

(4) Enzyme-labeled antibody The “enzyme-labeled antibody” of “Toriko Asahi Ab Check” (Sinotest) was used as the enzyme-labeled antibody.

(5) Coloring solution The “coloring solution” of “Toriko Asahi Ab Check” (Sinotest) was used as the coloring solution.

(6) Reaction Stop Solution “Reaction Stop Solution” of “Toriko Asahi Ab Check” (Sinotest) was used as the reaction stop solution.

2. Sample Anti-Trichosporon asahii antibody positive serum:
Six types of sera that were confirmed to contain anti-Trichosporon asahii antibodies were prepared as anti-Trichosporon asahii antibody-positive sera.

3. Measurement of anti-Trichosporon asahii antibody in sample (1) Each of the six anti-Trichosporon asahii antibody-positive sera as samples was diluted 100-fold with the sample diluent in (1) of Example 1 above. A mixture was prepared.

(2) Each of the mixed solutions prepared in the above (1) was added to the T.S. 100 μL each was dispensed into each well of the asahii antigen-binding carrier and reacted at 37 ° C. for 15 hours.
As a result, the Trichosporon asahii antigen immobilized on the carrier was brought into contact with the anti-Trichosporon asahii antibody contained in the sample and reacted.

(3) Next, the mixed solution was sucked and removed from the well.
The wells were washed separately for each of the three types of cleaning liquids (1) (2) of this example.

(4) 100 μL each of the enzyme-labeled antibody of (4) of Example 1 was dispensed into the well subjected to the washing operation, and reacted at 37 ° C. for 2 hours.

(5) Thereafter, unbound enzyme-labeled antibody was aspirated and removed from the well. The wells were washed separately for each of the three types of cleaning liquids (1) (2) of this example.

(6) Next, 150 μL of the color developing solution of (5) of 1 of this example was dispensed into the wells and reacted at 37 ° C. for 1 hour.
As a result, the coloring enzyme was reacted with the labeling enzyme (peroxidase) immobilized on the carrier to produce a dye.

(7) One hour after the addition of the coloring solution, the reaction stopping solution of (6) of Example 1 was dispensed into the wells to stop the reaction.

(8) The absorbance (main wavelength: 490 nm, subwavelength: 655 nm) of the liquid in the well was measured with a microplate reader [Sunrise] (Tecan Co., Ltd.) to obtain a measured value of the absorbance difference.

4). Measurement results The results of the above measurements are shown in Table 7.

  From this table, it can be seen that the measured value of the absorbance difference obtained in the case of 125 mmol / L or 75 mmol / L is lower than in the case where the ionic strength of the cleaning liquid is 162 mmol / L.

  Therefore, in the measurement of anti-Trichosporon asahii antibody in the sample, unlike the case of measurement of anti-ganglioside antibody, the sensitivity of the measurement can be improved even when a washing solution having an ionic strength of 150 mmol / L or less is used. It was confirmed that it was not possible.

  That is, it was confirmed that the measurement sensitivity can be improved by using a cleaning solution having an ionic strength of 150 mmol / L or less only when measuring an anti-ganglioside antibody in a sample.

Claims (4)

  In a method for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, a cleaning solution having an ionic strength of 150 mmol / L or less is used as a cleaning solution for removing unreacted components. A method for measuring an anti-ganglioside antibody in a sample.   In a measurement reagent kit for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, a washing solution having an ionic strength of 150 mmol / L or less as a washing solution for removing unreacted components A reagent kit for measuring an anti-ganglioside antibody in a sample, comprising:   A cleaning solution for removing unreacted components when measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, and having an ionic strength of 150 mmol / L or less. A characteristic cleaning solution.   In a method for measuring an anti-ganglioside antibody in a sample by reacting an antigen-antibody with ganglioside immobilized on a carrier, a cleaning solution having an ionic strength of 150 mmol / L or less is used as a cleaning solution for removing unreacted components. A method for improving the sensitivity of measuring an anti-ganglioside antibody in a sample.