DE4126692A1 - Immuno-sensor for sensitive detection of low mol. wt. antigen - uses displacement of enzyme conjugate, reaction with substrate and prod. amplification on bio-sensor, used esp. for drugs, herbicides and explosives - Google Patents

Abstract

Immunosensor device for detecting antigens (Ag) of mol. wt. below 2000 comprises 1 or 2 enzyme-immunoreactors (IR) and a biosensor coated with at least one biocatalyst. The measurement soln., which contains a substrate S for the enzyme conjugate used in IR and opt. co-substrates for biocatalyst, flows from the IR to the biosensor. Also new is a method using this device. The sample is added to IR contg. an immobilised Ag-specific antibody (Ab) which, before measurement, is satd. with an enzyme-configurate (EC) of Ag. Ag in the sample displaces EC and opt. this is bound in a second IR or by Ab on the biosensor surface. After leaving the first IR, the sample is mixed with S and the resulting product amplifies by the biosensor. USE/ADVANTAGE - The method is used to detect drugs, herbicides and explosives. Coupling of IR with a biosensor amplifies the detection signal and so increases sensitivity. The method is used e.g. to detect traces of Ag in the air. The increase in sensitivity is 10-20 times using one enzyme or 100-1000 times using two enzymes, so incubation time can also be reduced

Description

The invention relates to an immunosensor device and a Methods for the determination of antigens <2000 daltons, such as Intoxicants, herbicides, explosives. The Invention mainly in environmental analysis and drugs detection.

Indirect immunosensors are known, the marker systems for Use quantitation of the antigen-antibody response, d. H. also for determining the concentration. Enzymes have as Marker has the decisive advantage that it is a biocatalyst the formation of an easily displayable product sieren, the product amount of the enzyme activity proportio nal and thus in a direct or indirect relationship stands for the amount of antigen.

Evidence of small amounts of drug and other order world toxins is extremely complicated. It's about Antigens with relatively small molecular weights Detection of only competitive or displacement immunoassays in Be come. In order to be able to prove traces of these agents, reinforcement is necessary.

A coupling of an enzyme immunoassay and an enzymatic one or chemical / enzymatic signal amplification is for Sandwich assays are known, being alkaline as a marker enzyme Phosphatase is used (EP 60 123: C. Stanley. F. Paris, A. Plumb, A. Weleb and A. Johannsson. Amer. Biotechnol. Lab. May / June 1985).

However, this sandwich assay is only applicable for determination of antigens with high molecular weights (<10,000 daltons). There is also an immunosensor for continuous display of analyte concentrations in a media stream (W. Schramm and Se-Hwab Paek, Reproductive Sciences Program and Bioengineering Program. 300 N. Ingalls, University of Michigan, Ann Arbor. MI 48 105, USA).

The basic components of this immunosensor consist of a combination of 2 monoclonal antibodies, which on se separate sensors are immobilized, and a heterobifunk tional conjugate between the analyte and an enzyme (Enzyme-analyte conjugate), which acts as a signal generator for the Analyte determination is used, the medium from the sensor abbey lungs is separated by a semipermeable membrane. This Immunosensor has the disadvantage that because of the slow abdis sociating the antigen the measuring process is very time consuming. Furthermore, the sensitivity by the catalytic Ak activity of the marker enzyme is determined, d. that is, it will not enzymatic amplification reaction used. Task of he the invention is an immunosensor device and a method for the determination of antigens <2000 Dalton keln.

According to the invention the object was achieved in that a or two enzyme immunoreactors coupled to a biosensor were that a reinforcement of the displayable product be works. The invention is in accordance with claims 1, 9 and 10 realized. The subclaims are correspondingly advantageous versions.

The following principle is realized according to the invention: tuning antigen (AG) is placed in an enzyme immunoreactor give. This consists of insoluble carrier materials Antibodies immobilized according to known methods before measuring with an enzyme conjugate (Ag-Eg) of the be tuning antigen are loaded. The affinity of the immobi lized antibody is chosen so that in the presence of Antigens to be determined already at the threshold concentration the enzyme conjugates are displaced.

The displacement of the enzyme conjugate is displayed after leaving the immunoreactor with a biosensor (amplification enzyme sensor), which is coated with biocatalysts (at least 1 enzyme), highly sensitive. For this purpose, the substrate S of the enzyme conjugate is injected into the river after passing through the immune reactor. Only in the presence of the antigen to be determined the product P is formed, which is cyclically converted as a common reaction partner by the biocatalysts, preferably 2 amplification enzymes Ea ₁ and Ea _2, with the formation or consumption of an electrode-active cosubstrate C ^x . The signal amplification is based on the fact that a particle of the coreactane is converted to the C in each reaction cycle.

Scheme

If a second immunoreactor is used, it contains the same antibodies as the 1st immunoreactor or antibody against another epitope of the antigen-enzyme conjugate, the the activity of the marker enzyme in binding does not decrease drigen.

The biosensors used are electrodes, ion-sensitive Field effect transistors or thermistors with immobilized Enzymes. These biosensors ensure amplification. The biosensors used are e.g. T. known, so from DD 2 22 896, DD 2 22 897, DD 2 72 311 and DE-OS 39 40 072.  

It is with the immunosensor device according to the invention possible, low molecular weight antigen and already antigen evidence of traces from the air. Due to the enzymatic ver Signal amplification by a factor of 10-20 is strengthened (when using an enzyme) and by a factor of 100-1000 through the use of biosensors with 2 enzymes. this leads to to a significant reduction in the incubation period. The invention is particularly suitable for the detection of Intoxicants, herbicides and explosives.

Embodiments example 1

Monoclonal antibodies against cocaine are known according to Method (G. Wemhoff et al, NRL Review 199f, 103-105) hydrophilic carrier bound and the particles in a column of 100 µl internal volume filled. This immunoreactor will connected to a flow measuring cell, the well-known "Ver strengthening enzyme electrode based on LOD / LDH contains. The amperometric electrode is polarized to -600 mV and connected to a common measuring amplifier. The carrier current (0.05 mM Tris buffer, pH 8) is pumped with a Speed of 0.5 ml / min from the storage vessel through the Sample injection valve, the immunoreactor, an injection T Piece and the measuring cell with reinforcing enzyme electrode ge pumps.

To achieve readiness for measurement, the immunoreactor is used a conjugate of cocaine and alkaline phosphatase bela for which 1 ml of a conjugate-containing solution by the Very low flow rate immunoreactor (0.1 ml / min) is pumped, the conjugate solution the Flow equipment over the T-piece in front of the reinforcing enzyme electrode leaves. Then it is ge with 10 ml of carrier solution rinses, and before injecting samples onto the counter were checked by cocaine, is using a second pump  0.1 ml / min a 50 μM phosphoenolpyruvate (PEP) solution that Contains 10 mM NADH in Tris buffer via the injection tee continuously in front of the flow measuring cell in the carrier stream brought in.

Before the measurement, calibration is carried out by injecting solutions containing 5, 10 and 20 ng cocaine / ml via the sample injection valve. A calibration curve is created from the current reduction of the amplification enzyme electrode (O ₂ display!). The measurement signal arises from the fact that cocaine-phosphatase conjugates are displaced by the free cocaine of the calibration or sample solution from the antibodies fixed in the immunoreactor. After reaching the injection valve, through which phosphoenol pyruvate is mixed into the carrier stream, pyruvate is formed from the PEP under the action of the phosphatase. The pyruvate is indicated by the amplification enzyme electrode with extreme sensitivity, the O₂ consumption by the LOD-catalyzed partial reaction providing the measurement signal.

In an analogous manner to the calibration solutions containing cocaine urine samples (50 µl) are injected into the flow system. The reaction chain described above also leads here for the highly sensitive display of cocaine. After the Untersu After 50 measuring samples, the system is calibrated again. Has the presence of high cocaine concentrations to a large extent Displacement of the enzyme conjugates in the immunoreactor is carried out found a lower sensitivity during calibration the. Then the immunoreactor is loaded again with the enzyme conjugate as described above.

Example 2

The monoclonal immunoreactor described in Example 1 Antibodies to cocaine are placed in an analog flow apparatus tur used. The flow cell with the enhancement enzyme electrode also has a semipermeable membrane  the enzyme layer, on the solution side of which non-inhibiting An antibodies against alkaline phosphatase are covalently fixed. There is also an injection valve for the PEP and NADH-containing solution (instead of the T-piece in Example 1) be or a pH 2.5 glycine-HCl solution between Im Munoreaktor and flow measuring cell.

The calibration and examination of samples is carried out analogously to example 1. However, with this arrangement the PEP and NAPH-containing Tris solution is not continuous to the wearer Electricity mixed after leaving the immunoreactor, but it only occurs after each injection of a calibration solution or sample an injection to detect from the immuno Reactor displaced enzyme conjugates, which are then immediately on the semipermeable antibody-bearing membrane in front of the enzyme layer bound. This makes it a factor of 20 higher sensitivity to that described in Example 1 reached arrangement.

After measuring solutions containing cocaine, the enzyme conjugate from the Ak membrane to the amplification enzyme electrode by rinsing with glycine-HCl buffer of pH 2.5 ge split and thus removed from the measuring system.

Claims (10)

1. Immunosensor device for the determination of antigens <2000 daltons, characterized in that it consists of one or two enzyme immunoreactors (IR) and a biosensor which is coated with at least one biocatalyst, and in which the measuring solution is one Substrate S for an enzyme conjugate of the immunoreactor and optionally cosubstrates for which biocatalysts are added, flows from the immunoreactors to the biosensor. 2. Immunosensor device according to claim 1, characterized records that the enzyme immunoreactors to insoluble Trä contain immobilized antibodies (AH), where the AH of the 1st IR with an enzyme conjugate of be tuning antigen are loaded. 3. Immunosensor device according to claim 1 and 2, characterized characterized in that the immobilized antibodies of 1. IR are completely saturated with the enzyme conjugate and have such an affinity that when present of the antigens to be determined even at threshold concentration the enzyme conjugates are displaced. 4. Immunosensor device according to claim 1, characterized indicates that the second IR is the same AH as in the 1st IR or AH against another epitope of the antigen-enzyme-hon contains jugates, which contribute to the activity of the marker enzyme not lower the bond. 5. Immunosensor device according to claim 1, characterized records that the biosensor acts as a transducer electrodes, ion sensitive field effect transistors or thermistors owns and as biocatalysts enzymes in immobilized Shape are used. 6. Immunosensor device according to claim 1 to 5, characterized in that as the enzyme conjugate pyruvate kinase together with phosphoenolpyruvate (PEP) and ADP as substrates, oxalacetate decarboxylase with oxaloacetate as substrate or phosphatase with PEP as substrate together with lactate oxidase or cytochrome b ₂ and Lactate dehydrogenase are used in the bio sensor. 7. Immunosensor device according to claim 1 to 5, characterized characterized in that a biosensor is used which with an enzyme membrane coated on polyethylene glycol-bound NAD⁺ together with one oxidase and two Dehydrogenases, and possibly before Has enzyme layer AK against the antigen-enzyme conjugate. 8. Immunosensor device according to claim 1 to 5, characterized characterized that in the biosensor lacase in combination with a redox electrode and catechol as a substrate is used and that the enzyme conjugate in the immunoreactor Is aryl sulfatase. 9. Method for the determination of antigens <2000 daltons by means of an immunosensor device according to claims 1 to 7, characterized in that the sample to be determined in an immunoreactor that turns out to be an insoluble one Antibody immobilized against the carrier material determining antigen, which is complete before measurement dig saturated with an enzyme conjugate (antigen enzyme) be so that in the presence of the antigen the antigen enzyme is displaced and possibly the released anti gene-enzyme conjugate in a 2nd IR or by AK on the Biosensor surface is bound and after leaving the 1. Immunoreactor the sample solution for the substrate S for add the enzyme conjugate and the resulting pro product amplified by means of a biosensor. 10. Use of an immunosensor device according to claim 1 to 8 for the determination of intoxicants, herbicides and Explosives.