PREPARATION and SPECIFICATION

Appearance Light brown amorphous powder, lyophilized
Activity GradeⅢ 5.0U/mg-solid or more
Contaminant Catalase ≤1.0×10-2%
Stabilizers Mg++, BSA

PROPERTIES

StabilityStable at −20℃ for at least one year (Fig.1)
Michaelis constants5.7×10-5M (Linoleate),7.2×10-5M (Oleate)
InhibitorsHg++, Cu++
Optimum pH6.0(Fig.2)
Optimum temperature40℃(Fig.3)
pH StabilitypH 5.5−10.0 (25℃, 20hr)(Fig.4)
Thermal stabilitybelow 40℃ (pH 7.0, 15min)(Fig.5)
Effect of various chemicals(Table 1)

APPLICATIONS

This enzyme is useful for enzymatic determination of total cholesterol when coupled with cholesterol oxidase (COO-311, COO-321, COO-331) in clinical analysis.

ASSAY

Principle

Principle

The appearance of quinoneimine dye formed by coupling with 4-aminoantipyrine and phenol is measured at 500nm by spectrophotometry.

Unit definition

One unit causes the formation of one micromole of hydrogen peroxide (half a micromole of quinoneimine dye) per minute under the conditions described below.

Method

Reagents

A. 0.2M K-Phosphate buffer, pH 7.0
B. Cholesterol linoleate solution To 39mg of cholesterol linoleate, add 2.0ml of isopropanol and dissolve completely with heating slightly. Mix with about 80ml of 1.0% (v/v) hot Triton X-100 solution (preheated at 72−74℃) to the cholesterol linoleate solution and keep the solution in a hot water bath (72−74℃), with stirring for 30 minutes. The solution will turn clear and then cloudy. Cool under running water with gentle agitation until temperature of the solution goes down to room temperature. Add 600mg of Nacholate and dissove. Fill up the solution to 100ml with 1.0% Triton X-100 solution. This solution is stable at 4℃ for at least 5 days.
C. 4-AA solution 1.76% (1.76g 4-aminoantipyrine/100ml of H2O)(Store at 4℃ in a brownish bottle)
D. Phenol solution 6.0% (6.0g phenol/100ml of H2O)(Store at 4℃ in a brownish bottle)
E. POD solution Horseradish peroxidase (Toyobo, GradeⅢ) 7,500 purpurogallin units/50ml of 0.1M K-phosphate buffer, pH 7.0 (150 PU/ml)(Prepare freshly)
F. COD solution Streptomyces sp. cholesterol oxidase (Toyobo, GradeⅢ) 1,500U/5.0ml of ice-cold H2O(300 U/ml)(Prepare freshly)
G. Enzyme diluent 20mM K-phosphate buffer, pH 7.5 containing 2mM MgCl2, 0.5mM EDTA-Na3 and 0.2% BSA

Procedure

1.Prepare the following working solution (50 tests) in a brownish bottle.

75ml Buffer solution (A)
50ml Substrate solution (B)
2.5ml 4-AA solution (C)
5.0ml Phenol solution (D)
5.0ml POD solution (E)
(This solution is stable at 4℃ for at least 5 days.)
Concentration in assay mixture
K-Phosphate buffer 0.11 M
Cholesterol linoleate 0.20mM
4-Aminoantipyrine 1.5 mM
Phenol 22 mM
EDTA 17 μM
Isopropanol 0.68 %
COD ca.10 U/ml
POD ca. 5.1 U/ml

2.Pipette 2.75ml of working solution into a cuvette (d=1.0cm) and equilibrate at 37℃ for about 5 minutes. Add 0.1ml of COD solution (F), mix and keep at 37℃ for another 2 minutes.

3.Add 0.1ml of the enzyme solution* and mix with gentle inversion.

4.Record the increase in optical density at 500nm against water for 3 to 4 minutes in a spectrophotometer thermostated at 37℃, and calculate theΔOD per minute from the initial linear portion of the curve (ΔODtest).
At the same time, measure the the blank rate (ΔOD blank) by the same method as test except that the enzyme diluent (G) is added instead of the enzyme solution.

*Dissolve the enzyme preparation in ice-cold enzyme diluent (G), and dilute to 0.08−0.22U/ml with the same buffer, immediately before assay.

Calculation

Activity can be calculated by using the following formula :

  • Volume activity (U/ml) =

  • ΔOD/min (ΔOD test−ΔOD blank)×Vt×df


    13.78×1/2×1.0×Vs

= ΔOD/min×4.282×df

Weight activity (U/mg) = (U/ml)×1/C

Vt : Total volume (2.95ml)
Vs : Sample volume (0.1ml)
13.78 : Millimolar extinction coefficient of quinoneimine dye under the assay conditions (cm2/micromole)
1/2 : Factor based on the fact that one mole of H2O2 produces half a mole of quinoneimine dye.
1.0 : Light path length (cm)
df : Dilution factor
C : Enzyme concentration in dissolution (c mg/ml)

REFERENCES

1)C.C.Allain, L.S.Poon, C.S.G.Chan, W.Richmond, and P.C.Fu; Clin.Chem., 20, 470 (1974).

2)Y.Kameno, N.Nakano, and S.Baba; Jap.J.Clin.Path., 24, 650 (1976).

Table 1. Effect of Various Chemicals on Cholesterol esterase

[The enzyme (40U/ml) was incubated at 25℃ for 1hr with each chemical.]

  • Chemical Concn.(mM) Residual activity(%)
    None 100
    CaCl2 2.0 103
    Ba(OAc)2 2.0 93
    FeCl3 2.0 97
    CoCl2 2.0 98
    MnCl2 2.0 82
    Zn(OAc)2 2.0 100
    NiCl2 2.0 99
    Pb(OAc)2 2.0 76
    AgNO3 2.0 94
    HgCl2 2.0 58
    CdCl2 1.0 101
    CuSO4 1.0 1.5
    NEM 2.0 101
    PCMB 2.0 91
  • Chemical Concn.(mM) Residual activity(%)
    MIA 2.0 95
    NaF 20.0 101
    NaN3 20.0 100
    EDTA 5.0 88
    o-Phenanthroline 2.0 100
    α,α′-Dipyridyl 2.0 96
    Borate 20.0 99
    Triton X-100 1.0% 84
    Brij 35 1.0% 99
    SDS 0.1% 91
    Tween 20 0.1% 98
    Span 20 0.1% 101
    Na-cholate 1.0% 99
    Taurocholate 0.1% 100
Ac, CH3CO; PCMB, p-Chloromercuribenzoate; MIA, Monoiodoacetate; EDTA, Ethylenediaminetetraacetate;NEM, N-Ethylmaleimide; SDS, Sodium dodecyl sulfate; DAC, Dimethylbenzylalkylammonium chloride.
  • Fig.1. Stability (Powder form)

    Fig.1. Stability (Powder form)

    (kept under dry conditions)

  • Fig.2. pH-Activity

    Fig.2. pH-Activity

    37℃ in 0.1M buffer solution: pH3.5-5.5,acetate; pH5.5-8.0,K-phosphate; pH8.0-9.0,Tris-HCl

  • Fig.3. Temperature activity

    Fig.3. Temperature activity

    (in 0.1M K-phosphate buffer, pH7.0)

  • Fig.4. pH-Stability

    Fig.4. pH-Stability

    25℃,20hr-treatment with 0.1M buffer solution: pH4.0-6.5,acatate: pH6.0-8.0,K-phosphate: pH8.0-10.0Tris-HCl

  • Fig.5.Thermal stability

    Fig.5.Thermal stability

    15min-treatment with 0.1M K-phosphate, pH7.5 enzyme concn. 20 U/ml

活性測定法(Japanese)

1. 原理

原理

4-AAとフェノールの酸化縮合生成物であるQuinoneimine色素を500nmで測定し,上記反応で生成したH2O2量(加水分解されたCholesterol esterの量)を定量する。

2.定義

下記条件下で1分間に1マイクロモルのcholesterol esterを加水分解する酵素量を1単位 (U)とする。

3.試薬

  • 0.2M K-リン酸緩衝液, pH7.0
  • コレステロールリノレート溶液〔39mgのコレステロールリノレートを精秤し,2.0mlのイソプロパノールを加え完全に加温溶解する。それを予め72〜74℃に加温しておいた約80mlの1.0%(V/V)トリトンX-100溶液と混和し,更に72〜74℃の温湯中で攪拌しながら30分間保ったのち,流水中で室温まで冷却する。次いで600mgのコール酸ナトリウムを加えて溶解させ,前記1.0%トリトンX-100溶液で最終液量を100mlとする〕(4℃保存で5日間は使用可能)
  • 1.76%4-AA水溶液〔1.76gの4-アミノアンチピリンを100mlの蒸留水に溶解し,褐色瓶中で4℃に保存する〕
  • 6.0%フェノール水溶液〔6.0gのフェノールを100mlの蒸留水に溶解し,褐色瓶中で4℃に保存する〕
  • POD溶液〔西洋ワサビ由来ペルオキシダーゼ(東洋紡製,GradeⅢ)7,500プルプロガリン単位を50mlの0.1M K-リン酸緩衝液, pH7.0に溶解する(150PU/ml)〕(用時調製)
  • COD溶液〔ストレプトミセス属由来のコレステロールオキシダーゼ(東洋紡製,GradeⅢ)1,500単位を5.0mlの氷冷蒸留水に溶解する(300 U/ml)〕(用時調製)

酵素溶液:酵素標品を予め氷冷した2mM MgCl20.5mM ETDA-Na3及び0.2% BSAを含む20mM K-リン酸緩衝液, pH7.5で溶解し,分析直前に同緩衝液で0.08〜0.22U/mlに希釈する。

4.手順

1.下記反応混液を(50テスト)を褐色瓶中で調製する(4℃保存で5日間は使用可能)。

75ml K-リン酸緩衝液 (A)
50ml 基質溶液 (B)
2.5ml 4-AA水溶液 (C)
5.0ml フェノール水溶液 (D)
5.0ml POD溶液 (E)

2.反応混液2.75mlを試験管に採り,37℃で約5分間予備加温し,0.1mlのCOD溶液を加えて更に2分間加温する。

3.酵素溶液0.1mlを添加し,ゆるやかに混和後,水を対照に37℃に制御された分光光度計で500nmの吸光度変化を3〜4分間記録し,その初期直線部分から1分間あたりの吸光度変化を求める(ΔOD test)。

4.盲検はCOD添加液2に酵素溶液の代りに酵素希釈液(2mM MgCl2, 0.5mM EDTA-Na3及び0.2% BSA)を含む20mMK-リン酸緩衝液, pH7.5を0.1ml加え,上記同様に操作を行って1分間当りの吸光度変化を求める(ΔODblank)。

5.計算式

  • U/ml =

  • ΔOD/min (ΔOD test−ΔOD blank)×2.95(ml)×希釈倍率


    13.78×1/2×1.0×0.1(ml)

= ΔOD/min×4.282×希釈倍率
U/mg =U/ml×1/C
13.78 : Quinoneimine色素の上記測定条件下でのミリモル分子吸光係数 (cm2/micromole)
1/2 : H2O2の1分子のから形成するQuinoneimine色素は1/2分子である事による係数
1.0 : 光路長(cm)
C : 溶解時の酵素濃度(c mg/ml)