K Y Jackson scite author profile

K Y Jackson

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Optimal conditions and comparison of lactate dehydrogenase catalysis of the lactate-to-pyruvate and pyruvate-to-lactate reactions in human serum at 25, 30, and 37 degrees C.

Buhl¹,

Jackson²

1978

160

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We report optimal conditions for assaying highly purified human lactate dehydrogenase isoenzymes with the lactate-to-pyruvate and pyruvate-to-lactate reactions, as they apply to human serum. Interconversion of results between reactions is not practicable. Measurements of lactate dehydrogenase in either reaction direction at 25, 30, or 37 degrees C can be equally reliable if the volume fraction and the resulting deltaA/min is small. However, for interinstrument and interlaboratory comparisons, results from the lactate-to-pyruvate reaction are more reliable.

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A search for the best buffer to use in assaying human lactate dehydrogenase with the lactate-to-pyruvate reaction.

Buhl¹,

Jackson²,

Lubinski³

et al. 1976

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Highly purified human lactate dehydrogenases I and V were assayed in 17 different buffers, at a variety of reaction pH's. Diethanolamine and 2-amino-2-methyl-1,3-propanediol provided the best measurements of the enzyme, assayed lactate-to-pyruvate. However, the commercial preparation of 2-amino-2-methyl-1,3-propanediol contained insoluble matter and was relatively expensive. All of the four buffers nowmost commonly used were found to present difficulties. Glycine and pyrophosphate were inhibotory tolactate dehydrogenase activity with increasing buffer concentration. 2-Amino-2-methyl-1-propanol had three major disadvantages: it is chemically unstable during reagent preparation; activity is dependent on buffer concentration; and the pH optima for isoenzymes I and V are vastly different. The pKa of tris(hydroxymethyl)aminomethane is 8.0 at 30 degrees C, whereas to measure total activity the reaction pH should be greater than 8.5; thus tris(hydroxymethyl)aminomethane has limited buffering capacity at the reaction pH.

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Interconverting measurements of human lactate dehydrogenase activities in three buffers.

Buhl¹,

Richards²,

Jackson³

et al. 1977

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The lactate-to-pyruvate reaction for serum lactate dehydrogenase (LD) is most frequently assayed in one of three buffers, pyrophosphate (PPi), tris(hydroxymethyl)amino-methane (Tris), or 2-amino-2-methyl-1-propanol (AMP). We described interconverting results for serum samples and for highly purified LD isoenzymes I (dissolved in one of these matrixes) assayed in these buffers under optimized reaction conditions. The equation for converting results obtained for sera in Tris (x) to those in PPi(y) (both at 30 degrees C) is y = 0.74x+10 (n = 98). Since AMP is used extensively in Technicon procedures, we determined the LD activity of sera with an SMA 12/60, at 37 degrees C. The equation for convering these AMP results to results obtained in PPi at 30 degrees C is y = 0.45x-16 (n = 90). Very different equations were obtained with highly purified LD isoenzyme I maintained in two different matrixes and with both isoenzymes assayed in the same matrix. The matrix in which LD is dissolved and the proportion of various LD isoenzymes affect the magnitude of difference in observed LD activity under various conditions. Therefore, in clinical laboratories that use more than one analytical method or when conversion equations are used in the comparison of interlaboratory results, it is important to define the LD source, isoenzyme content, and the matrix, as well as the reaction conditions, and to use many samples with a wide range of activities when determining the conversion equations. For any changes in reagent source, substrate concentration, or alteration in procedure, a new normal range and new conversion equations should be determined.

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Optimal conditions for assaying human lactate dehydrogenase by the lactate-to-pyruvate reaction: Arrhenium relationships for lactate dehydrogenase isoenzymes 1 and 5.

Buhl¹,

Jackson²,

Lubinski³

et al. 1977

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Optimal reaction conditions to sassay human lactate dehydrogenase (lactate-to-pyruvate) were established for isoenzymes 1 and 5 at 25, 30, and 37 degrees C in diethanolamine and 2-amino-2-methyl-1,3-propanediol. Different substrate concentrations are required at each temperature. The conditions permit measurement of lactate dehydrogenase 1 and 5 with the lowest substrate concentrations that allow for the highest equal sustainable efficiency in measuring both isoenzymes. About 95% of each isoenzyme activity is measured if the assay is performed within the first minute after the reaction is initiated even for activities as high as triple the upper limit of normal. The Arrhenius relationship is different for each isoenzyme, but results obtained for each at one temperature can be compared with results at another temperature by use of simple conversion equations. Assays at 25 and 30 degrees C are more economical and less variable than assays at 37 degrees C.

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Effect of reaction initiator on human lactate dehydrogenase assay.

Buhl¹,

Jackson²,

Lubinski³

et al. 1976

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Human lactate dehydrogenase isoenzymes I and V have decreased activities when the reaction is initiated with lactate. No loss in lactate dehydrogenase I activity was found when the reaction was initiated with enzyme or NAD+. For lactate dehydrogenase V an NAD+-initiated reaction, as compared to an enzyme-initiated reaction, yields lower activity in sodium pyrophosphate buffer but higher activity in tris(hydroxymethyl)aminomethane buffer. Both isoenzymes have higher lactate-to-pyruvate activity when assayed in the latter buffer than when assayed in the former. Human lactate dehydrogenase V (but not I) exhibited different activities when assayed with lactate from two different commercial sources. Human lactate dehydrogenase assayed by the pyruvate-to-lactate reaction is not affected by the choice of reaction initiator.

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K Y Jackson

Optimal conditions and comparison of lactate dehydrogenase catalysis of the lactate-to-pyruvate and pyruvate-to-lactate reactions in human serum at 25, 30, and 37 degrees C.

A search for the best buffer to use in assaying human lactate dehydrogenase with the lactate-to-pyruvate reaction.

Interconverting measurements of human lactate dehydrogenase activities in three buffers.

Optimal conditions for assaying human lactate dehydrogenase by the lactate-to-pyruvate reaction: Arrhenium relationships for lactate dehydrogenase isoenzymes 1 and 5.

Effect of reaction initiator on human lactate dehydrogenase assay.

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