Reagent for GPT assay

Details Reagent for GPT assay Reagent for GPT assay

2001-03-14

2003-11-11

Gitomer, Ralph (Department: 1651)

Chemistry: molecular biology and microbiology

Measuring or testing process involving enzymes or...

Involving transferase

C435S016000, C435S004000

Reexamination Certificate

active

06645735

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a reagent kit for assaying glutamic-pyruvic transaminase (hereinafter abbreviated as GPT) and more particularly, to an improved reagent kit for GPT assay which can be stored stably over a long period of time.
2. Description of Related Arts
In routine clinical tests, GPT is one of important items for inspection as a sensitive test method for detecting cell damages or cytotoxicity in various organs, in particular, heart and liver disorders and has been used from old.
For GPT assay, a method called UV method has been widely employed with improved performance of analytical instruments. The UV method comprises acting GPT on L-alanine and &agr;-ketoglutarate as substrate of GPT, converting the resulting pyruvate with L-lactate dehydrogenase (hereinafter abbreviated as LDH) into lactate in the presence of reduced nicotinamide adenine dinucleotide (hereinafter abbreviated as NADH) and measuring a decrement of NADH at a wavelength around 340 nm.
The UV method is expressed by the following equation.
As GPT has become widely assayed, measurement data vary depending upon operator and patient data cannot thus be compared due to lack of interchangeability between measurement data, a problem that there might become an obstacle to diagnosis has begun to emerge. Therefore, assay procedures called recommended assay methods in which reagent concentrations, etc. are prescribed have become proposed in various countries. Internationally, the International Federation of Clinical Chemistry (IFCC) proposed the IFCC method as a standard by acting GPT on L-alanine and &agr;-ketoglutarate in the presence of pyridoxal phosphate (IFCC Scientific Committee: Expert panel on Enzymes, IFCC method for alanine aminotransferase, Clinica Chemica Acta, 105, 147F-157F (1980)). Japan Society of Clinical Chemistry (JSCC) also published the JSCC method for assaying GPT using no pyridoxal phosphate (JSCC: Method for assaying an enzyme activity in human serum—alanine aminotransferase (1989-08-30), Rinsho Kagaku (Clinical Chemistry), 18 (4), 250-262 (1989)).
The IFCC method is compared with the JSCC method and the comparison is shown in Table 1 below.
TABLE 1
IFCC Method
JSCC Method
Reaction temperature
30° C.
30° C.
Volume of sample
0.2 mL
0.3 mL
Volume of reagent
2.4 mL
3.0 mL
Buffer and concentration
Tris 100 mM
Tris 100 mM
pH
7.3
7.5
L-Alanine
500 mM
500 mM
&agr;-ketoglutarate
15 mM
15 mM
NADH
0.18 mM
0.16 mM
LDH
1200 U/L (30° C.)
2000 U/L (30° C.)
Pyridoxal phosphate
0.1 mM
—
Pyridoxal phosphate employed in the IFCC method is one of vitamin B6 phosphates and considered to be unstable to heat and light. Pyridoxal phosphate is the most important compound which forms Schiff's base in vivo with &egr;-amino group of lysine in enzymes (GPT, etc.) that participates in amino acid metabolism and is coupled to GPT to act as a co-enzyme. GPT acts as an enzyme in the form coupled to a co-enzyme but for some reason, the co-enzyme is removed. Such GPT is called apo type GPT. On the other hand, GPT coupled to a co-enzyme is called holo type GPT. Since apo type GPT is activated by adding pyridoxal phosphate to the reagent system, apo type GPT can be assayed together with holo type GPT. Thus, apo and holo type GPTs can be both determined by the IFCC method and the JSCC method, respectively but in the latter method, holo type GPT is mainly assayed because no pyridoxal phosphate is added to the reagent system.
In recent years, techniques to use reagents for clinical test in a liquid state have been improved, which makes it possible to supply stable liquid reagents over a long period of time. In contrast, the liquid reagent system for GPT assay in the presence of pyridoxal phosphate was unsuccessful because pyridoxal phosphate is unstable. At present, there is employed, for example, a reagent kit in which pyridoxal phosphate is provided as a tablet and dissolved in a reagent before use, or a lyophilized reagent. According to the IFCC method, it is prescribed to prepare an aqueous solution of pyridoxal phosphate every 2 weeks. In a solution state, pyridoxal phosphate is colored to yellow the substance inherently possesses but becomes colorless as stability proceeds to deterioration. As such, it is difficult in the existing technique to stabilize pyridoxal phosphate to be used in the GPT assay system over a long period of time. The stability of pyridoxal phosphate is maintained only for a few days after dissolution.
The present inventors have made extensive studies to solve the foregoing problems and as a result have found a reagent composition suitable for GPT assay which has a sufficient storage stability as a liquid reagent. The present invention is based on the finding.
SUMMARY OF THE INVENTION
As a result of expansive investigations on a reagent composition suitable for use in GPT assay, the present inventors have found that among enzymes and substrates to be used, when L-alanine and pyridoxal phosphate are co-present, a yellow color inherent to pyridoxal phosphate is lost during storage and at the same time, measurement data also decreases. Particularly where a reagent kit consists essentially of the two reagents type, a stable reagent GPT assay system can be provided in the form of a two-reagent system kit in which the two substances are isolated from one another, namely, one of the reagents containing pyridoxal phosphate but the other no L-alanine or another reagent containing L-alanine but the other no pyridoxal phosphate.
Therefore, the present invention relates to a kit for assaying glutamic-pyrivic transaminase (GPT) by acting GPT on L-alanine and &agr;-ketoglutarate in the presence of pyridoxal phosphate, converting the resulting pyruvate into lactate with L-lactate dehydrogenase (LDH) in the presence of reduced nicotinamide adenine dinucleotide (NADH) and measuring GPT based on a decrement of NADH, the GPT assay kit:
1) being of a two reagent type kit comprising a first reagent and a second reagent wherein:
2) one of the first and second reagents contains pyridoxal phosphate, L-alanine, &agr;-ketoglutarate, LDH and NADH as essential components; and,
3) one of the reagents free of L-alanine contains pyridoxal phosphate and the other reagent free of pyridoxal phosphate contains L-alanine.
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter the invention will be described in detail.
The GPT assay kit of the invention relates to an assay kit of two reagents type comprising a first reagent and a second reagent, in which one of the reagents contains pyridoxal phosphate but no L-alanine and another reagent contains L-alanine but no pyridoxal phosphate.
The GPT assay kit of the invention may be in a lyophilized form but even in a liquid form, can keep its stability over a long period of time so that the yellow color inherent to pyridoxal phosphate can also be maintained over long time.
In general, it is preferred to prepare, as a first reagent, a composition comprising pyridoxal phosphate, LDH and NAPDH as essential components and as a second reagent, a composition comprising L-alanine and &agr;-ketoglutarate as essential components and prepare the two compositions into a kit. LDH and NADH as a co-enzyme of LDH which are incorporated in the first reagent are advantageous in canceling pyruvate in a sample, since the pyruvate causes a measurement error.
The first reagent free of L-alanine and containing pyridoxal phosphate is designed to have a pH range preferably from 7 to 10. It is also advantageous for the second reagent to have a pH range between 7 and 8, preferably approximately 7.3, when GPT acts. Such a preferred pH range for GPT is provided by adjusting the second reagent and a buffer to an appropriate pH and concentration, respectively, followed by mixing the thus adjusted second reagent and buffer with the first reagent. By preparing the first and second reagents having an adjusted pH range as above, the respective components contained in the first and second compositions can be maintained stably over a long period of time.
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