A fluorometric assay for peptidyl alpha-amidation activity using high-performance liquid chromatography

A rapid and sensitive method for the determination of peptidyl alpha-amidation activity has been developed and is based on reverse-phase high-performance liquid chromatographic separation and fluorometric detection. A dansylated tripeptide, N-dansyl-Tyr-Val-Gly-OH, is used as the substrate in the assay and the amount of alpha-amidation activity is determined by quantitating the extent of its conversion to product, N-dansyl-Tyr-Val-NH2. Both product and substrate can be detected in a single assay in quantities as low as 5 fmol by isocratic elution using C-18 reverse-phase columns. The method yields highly reproducible results and requires less than 3 min per sample for separation and quantitation. The assay procedure is applicable to the screening of a large number of samples under different pH conditions and is readily adaptable for use in a variety of studies. For example, the procedure is ideal for detecting alpha-amidation activity in various tissues, monitoring activity at the different stages during purification of a particular alpha-amidation enzyme, determining kinetic parameters of the purified enzyme, and identifying both competitive and noncompetitive inhibitors.     

Peptidyl-glycine alpha-amidating mono-oxygenase activity towards a gonadotropin-releasing-hormone C-terminal peptide substrate, in subcellular fractions of sheep brain and pituitary.

The amidation of a synthetic peptide D-Tyr-Pro-Gly-Gly by sheep hypothalamic and pituitary preparations was measured. This substrate was designed as a glycine-extended C-terminal peptide analogue of gonadotropin-releasing hormone (GnRH) to test the ability of these tissues to convert the product produced by cleavage of the GnRH prohormone into the active amidated decapeptide. An alpha-amidating activity capable of converting D-125I-Tyr-Pro-Gly-Gly into D-125I-Try-Pro-Gly-NH2 was identified in crude synaptosomal and neurosecretory-granule fractions from hypothalamus and anterior-pituitary secretory-granule preparations. This activity was stimulated by the addition of Cu2+ and reduced ascorbate, and was maximal at neutral pH in sulphonic acid buffers. Highest activity was measured in synaptosomes from the median eminence and medial basal hypothalamus and in pituitary granules. Lower activity was found in synaptosomes prepared from anterior hypothalamic tissue. Negligible activity was measurable in cerebral cortex and none in pineal synaptosomes. Direct comparison of alpha-amidation with D-125I-Try-Pro-Gly-Gly and a previously reported substrate D-125I-Tyr-Val-Gly showed that, although the latter was 15-20-fold more reactive, the optimal concentration of Cu2+ for amidation was similar with both substrates in medial-basal-hypothalamic synaptosomes and pituitary granules. Activity measured with 1 microM-D-125I-Tyr-Val-Gly was inhibited by increasing concentrations of D-Tyr-Pro-Gly-Gly, with 50% inhibition at 25 microM-D-Tyr-Pro-Gly-Gly, whereas activity with 3.3 microM-D-125I-Tyr-Pro-Gly-Gly was abolished by addition of 1 microM-D-Tyr-Val-Gly, evidence that the two substrates were competing for the same enzyme activity. Synaptosomal preparations demonstrated Michaelis-Menten kinetics for D-Tyr-Pro-Gly-Gly as substrate, with values of Km and V decreasing upon removal of ascorbate. We conclude that D-Tyr-Pro-Gly-Gly-directed alpha-amidation in sheep hypothalamic synaptosomes resembles the activity with D-Tyr-Val-Gly as substrate, as well as that demonstrated by others with D-Tyr-Val-Gly as substrate in rat hypothalamic and pituitary tissue. Although reactivity towards D-Tyr-Pro-Gly-Gly cannot be assumed to assess amidation solely of GnRH, the negligible D-Tyr-Pro-Gly-Gly-directed activity in the pineal gland and cerebral cortex, areas that are known to synthesize other alpha-amidated peptides, suggests some substrate specificity in alpha-amidating enzymes from different tissues.     

Synthesis of methyl 5-O-trans-feruloyl-alpha-L-arabinofuranoside and its use as a substrate to assess feruloyl esterase activity

A synthetic scheme was developed for the production of methyl 5-O-trans-feruloyl-alpha-L-arabinofuranoside (FA-Ara) in gram quantities. This molecule accurately models the chemical attachment of ferulic acid to polysaccharides found in cell walls of plants in the Gramineae family. It is therefore a realistic substrate that can be used to monitor feruloyl esterase activity. Ultraviolet spectral analysis indicated that FA-Ara has an absorption maximum distinct from the hydrolytic product, ferulic acid (FA), over a wide range of solution pH values. The log molar extinction coefficient ranges from 4.16 to 4.36 for FA-Ara and 4.16 to 4.33 for FA depending upon the pH of the buffered solution. Consequently a convenient spectrophotometric assay can be utilized to monitor esterase activity. Three different methods were developed for using this model substrate to assess esterase activity, including thin-layer chromatography, a spectrophotometric assay, and the use of high-performance liquid chromatography.     

Bovine intermediate pituitary alpha-amidation enzyme: preliminary characterization

A secretory granule-associated enzymatic activity that converts mono-[125I]-D-Tyr-Val-Gly into mono-[125I]-D-Tyr-Val-NH2 has been studied. The activity is primarily soluble and shows optimal activity at pH 7 to pH 8. Amidation activity was stimulated 9-fold by addition of optimal amounts of copper (3 microM). In the presence of optimal copper, ascorbate stimulated the reaction 7-fold; none of the other reduced or oxidized cofactors tested was as effective. Taking into account the dependence of the reaction on ascorbate and molecular oxygen and the production of glyoxylate [2], it is suggested that the alpha-amidation enzyme is a monooxygenase. Lineweaver Burk plots with D-Tyr-Val-Gly as the varied substrate demonstrated Michelis-Menten type kinetics with the values of Km and Vmax increasing with the addition of ascorbate to the assay. A variety of peptides ending with a COOH-terminal Gly residue act as inhibitors of the reaction. Two synthetic peptides, gamma 2MSH and ACTH(1-14), with carboxyl termini similar to the presumed physiological substrates for the enzyme, act as competitive inhibitors with similar K1 values. It is likely that this secretory granule alpha-amidation activity is involved in the physiological biosynthetic alpha-amidation of a wide range of bioactive peptides.     

Detection of NAD:arginine ADPribosyltransferases in animal tissues using 125I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane as ADPribose acceptor

125I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane (N-guanyltyramine), previously used to assay for the bacterial toxin choleragen (Mekalanos, J.J., Collier, R.J. and Romig, W.R. (1979) J. Biol. Chem. 254, 5849-5854) was utilized to identify NAD:arginine ADPribosyltransferases in animal tissues. The use of this radiolabelled ADPribose acceptor, rather than radiolabelled NAD, would bypass the problem posed by the almost ubiquitous presence of enzymes that degrade NAD. With a homogeneous ADPribosyltransferase from turkey erythrocytes, NAD and 125I-labeled guanyltyramine as ADPribose acceptor, formation of ADPribosyl 125I-guanyltyramine was linear with time and enzyme concentration. The product was indistinguishable on both thin-layer and high-performance liquid chromatography from that formed by choleragen. Using 125I-guanyltyramine, ADPribosyltransferase activity was also demonstrated in crude turkey erythrocyte cytosolic and membrane fractions. When rat liver was fractionated, apparent activity was detected primarily in the microsomes. The NAD-dependent product of the microsomal reaction was, however, distinguished from the turkey erythrocyte transferase product by thin-layer and DEAE-Sephadex chromatography; this product had a retention time identical to that of free 125I on high-performance liquid chromatography. In addition to NAD, the microsomal deiodinase activity was supported by NADH, NADP and NADPH. Phenyl boronate selectively bound ADPribosyl 125I-guanyltyramine and other metabolites of 125I-guanyltyramine which were formed by microsomes in a NAD-dependent process. These metabolites were distinguished from ADPribosyl 125I-guanyltyramine by high-performance liquid chromatography. These results indicate that in some cases, for example, turkey erythrocyte cytosolic and membrane fractions, 125I-guanyltyramine can be used to quantify ADPribosyltransferases in crude mixtures, whereas in others, for example, rat liver microsomes, high-performance liquid chromatographic analysis must be used to identify products.     

A rapid and sensitive fluorescence assay for angiotensin-converting enzyme.

A new, highly sensitive, specific assay for dopamine-β-hydroxylase (DBH) activity in human serum is described. Tyramine is used as a substrate; the product of the enzymatic hydroxylation, octopamine, is converted by reacting with 1-dimethylaminonaphthalene-5-sulfonyl-chloride (Dns-Cl) to a fluorescent product, which is extracted from the reaction mixture and purified from the extract by thin-layer chromatography (tlc). The fluorescence of the dansylated octopamine is measured in situ on the tlc plate using a chromatogram-spectrofluorometer. This one-step enzyme reaction can be performed at optimum pH and substrate concentration. As little as 8 ng of octopamine can be determined accurately; the response is linear up to more than 400 ng of octopamine. A comparison with the radioenzymatic assay (Weinshilboum, R., and Axelrod, J. (1971) Circ. Res.28, 307–315) shows an approximately twofold increase in the enzymatic activity measured. Kinetic studies of human sera with high and low DBH activity gave a K_m value of 3.1 × 10^?3m. The method is successfully being used for the functional characterization of the enzyme and genetic studies (Herschel, M., in preparation).     

A convenient radiometric assay for flavin-containing monooxygenase activity

A rapid, convenient assay to determine the activity of the flavin-containing monooxygenase is described. The method is based on direct analysis of quenched incubation mixtures by thin-layer chromatography and utilizes tritiated dimethylaniline as the substrate. The synthesis of the radiolabeled substrate is described. The usefulness of dimethylaniline N-oxide formation as a measure of flavin-containing monooxygenase activity was assessed using the purified hog liver enzyme, hog liver microsomes, and liver microsomes from untreated and phenobarbital-pretreated rats.     

Separation of putrescine oxidase and spermidine oxidase in foetal bovine serum with the aid of a specific radioactive assay of spermidine oxidase.

1. A sensitive and specific assay for spermidine oxidase is described. The method involves the separation of [14C]spermidine (substrate) from [14C]putrescine (product) and other 14C-labelled products on a Dowex 50 cation-exchange column: 92% of the putrescine applied to the column was eluted by 2.3 M-HCl, but this treatment left 96% of the spermidine bound to the column. Unchanged spermidine could be removed from the column by elution with 6 M-HCl. 2. By means of this assay, foetal and adult bovine serum were each shown to contain spermidine oxidase activity, putrescine being a major product of the oxidation of spermidine by the serum enzymes. 3. In foetal bovine serum, spermidine oxidase activity is separable from putrescine oxidase activity by chromatography on a cadaverine-Sephadex column, by gel filtration and by ion-exchange column chromatography. Putrescine oxidase was purified 1900-fold and spermidine oxidase 130-fold by these procedures. The former oxidized putrescine but not spermidine, and spermidine oxidase exhibited no activity with putrescine as substrate.     

A rapid radioassay for sphingosine kinase

A solvent-extraction-based radioassay for measuring sphingosine kinase (SKase) activity has been developed. The assay utilizes [3H]sphingosine substrate and differentially extracts the [3H]sphingosine-1-phosphate product. The extracted radioactivity is demonstrated to be primarily [3H]sphingosine-1-phosphate with less than 1% contamination by [3H]sphingosine. When assaying SKase activity in the soluble cell fraction, the extraction efficiency of the labeled sphingosine-1-phosphate product is a reproducible 78%, which allows for a simple back calculation to correct for the 22% extraction loss. With minor modification, the assay is also a reproducible procedure for determining SKase activity in subcellular membrane fractions. The assay is far more rapid than thin-layer chromatography and high-performance liquid chromatography methods, which makes it possible to do a large number of assays in a short period of time. The utility of the assay is demonstrated by using it to conduct a complete bisubstrate kinetic analysis of rat heart SKase.     

Fluorescence-based assay of sphingosine kinases

Sphingosine kinase enzymatic activity is commonly measured using radiolabeled substrates, with thin-layer chromatography and/or solvent extraction needed to detect the reaction product sphingosine-1-phosphate. We developed a fluorescence-based assay, using a sphingosine derivative labeled with a 7-nitrobenz-2-oxa-1,3-diazole moiety (15-NBD-Sph). Separation of substrate (15-NBD-Sph) from product (the corresponding phosphate) is achieved by extraction with chloroform/methanol at pH 8.5. The phosphate derivative is recovered by >98% in the aqueous phase and is directly detected and quantified by its fluorescence. 15-NBD-Sph is readily phosphorylated by human and murine sphingosine kinases 1 and 2. The suitability of the assay for measuring the activity of the kinases, both in the purified state and when contained in lysates of mammalian cells, was demonstrated. The present method is a convenient alternative to the radiometric assays and is particularly suited to the search for inhibitors of sphingosine kinases.     

Detection of NAD: arginine ADPribosyltransferases in animal tissues using 125I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane as ADPribose acceptor

¹²⁵I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane (N-guanyltyramine), previously used to assay for the bacterial toxin choleragen (Mekalanos, J.J., Collier, R.J. And Romig, W.R. (1979) J. Biol. Chem. 254, 5894-5854) was utilized to identify NAD: arginine ADPribosyltransferases in animal tissues. The use of this radiolabelled ADPribose acceptor, rather than radiolabelled NAD, would bypass the problem posed by the almost ubiquitous presence of enzymes that degrade NAD. With a homogeneous ADPribosyltransferase from turkey erythrocytes, NAD and ¹²⁵I-labelled guanyltyramine as ADPribose acceptor, formation of ADPribosyl ¹²⁵-I-guanyltyramine was linear with time and enzyme concentration. The product was distinguishable on both thin-layer and high-performance liquid chromatography from that formed by cholerangen. Using ¹²⁵I-guanyltyramine, ADPribosyltransferase acitivity was also demonstrated in crude turkey erythrocyte cytosolic and membrane fractions. When rat liver was fractioned, apparent activity was detected primarily in the microsomes. The NAD-dependent product of the microsomal reaction was, however, distinguished from the turkey erythrocyte transferase by thin-layer and DEAE-Sephadex chromatography; this product had a retention time identical to that of free ¹²⁵I on high-performance liquid chromatography. In addition to NAD, the microsomal deiodinase activity was supported by NADH, NADP and NADPH. Phenyl boronate selectively bound ADPribosyl ¹²⁵I-guanyltyramine and other metabolites of ¹²⁵I-guanyltyramine which were formed by microsomes in a NAD-dependent process. These metabolites were distinguished from ADPribosyl ¹²⁵I-guanyltyramine by high-performance liquid chromatography. These results indicate that in some cases, for example, turkey erythrocyte cytosolic and membrane fractions, ¹²⁵I-guanyltyramine can be used to quantify ADPribosyltransferases in crude mixtures, whereas in others, for example, rat liver microsomes, high-performance liquid chromatographic analysis must be used to identify products.     

Detection of NAD: arginine ADPribosyltransferases in animal tissues using I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane as ADPribose acceptor

¹²⁵I-labeled 1-(p-hydroxyphenyl) 2-guanidinoethane (N-guanyltyramine), previously used to assay for the bacterial toxin choleragen (Mekalanos, J.J., Collier, R.J. And Romig, W.R. (1979) J. Biol. Chem. 254, 5894-5854) was utilized to identify NAD: arginine ADPribosyltransferases in animal tissues. The use of this radiolabelled ADPribose acceptor, rather than radiolabelled NAD, would bypass the problem posed by the almost ubiquitous presence of enzymes that degrade NAD. With a homogeneous ADPribosyltransferase from turkey erythrocytes, NAD and ¹²⁵I-labelled guanyltyramine as ADPribose acceptor, formation of ADPribosyl ¹²⁵-I-guanyltyramine was linear with time and enzyme concentration. The product was distinguishable on both thin-layer and high-performance liquid chromatography from that formed by cholerangen. Using ¹²⁵I-guanyltyramine, ADPribosyltransferase acitivity was also demonstrated in crude turkey erythrocyte cytosolic and membrane fractions. When rat liver was fractioned, apparent activity was detected primarily in the microsomes. The NAD-dependent product of the microsomal reaction was, however, distinguished from the turkey erythrocyte transferase by thin-layer and DEAE-Sephadex chromatography; this product had a retention time identical to that of free ¹²⁵I on high-performance liquid chromatography. In addition to NAD, the microsomal deiodinase activity was supported by NADH, NADP and NADPH. Phenyl boronate selectively bound ADPribosyl ¹²⁵I-guanyltyramine and other metabolites of ¹²⁵I-guanyltyramine which were formed by microsomes in a NAD-dependent process. These metabolites were distinguished from ADPribosyl ¹²⁵I-guanyltyramine by high-performance liquid chromatography. These results indicate that in some cases, for example, turkey erythrocyte cytosolic and membrane fractions, ¹²⁵I-guanyltyramine can be used to quantify ADPribosyltransferases in crude mixtures, whereas in others, for example, rat liver microsomes, high-performance liquid chromatographic analysis must be used to identify products.     

An ultraviolet absorbance method for determining acetylsalicylic acid hydrolase activity

An ultraviolet absorbance method for quantitation of acetylsalicylic acid esterase (hydrolase) activity has been developed and validated. The sensitivity of the method was found to be 2.8 nmol/ml-min in the assay cuvette. Linearity of the reaction with enzyme concentration and time has been demonstrated. The product of the enzymatic reaction, salicylic acid, has been identified by thin-layer chromatography using acetyl-[¹⁴C]salicylic acid. The quantities of salicylic acid produced in 5, 10, and 15 min of incubation were equal when assayed by the spectrophotometric method and by the acetyl-[¹⁴C]salicylic acid thin-layer chromatographic method. The time required for assay by ultraviolet absorbance is approximately 3 min/sample.     

A rapid phospholipase D assay using zirconium precipitation of anionic substrate phospholipids: application to n-acylethanolamine formation in vitro

Activation of phospholipase D (PLD) is involved in a number of signal transduction pathways in eukaryotic cells. The most common method for determination of PLD activity in vitro involves incubation with a radiolabeled substrate and lipid extraction followed by thin-layer chromatography in order to separate and quantify substrate and product(s). A more rapid assay can be used when utilizing phosphatidylcholine as a substrate because one of the products, choline, is water soluble and therefore easily separated from the substrate. However, this separation principle is not applicable in evaluating N-acylphosphatidylethanolamine (NAPE)-hydrolyzing PLD activity, which produces two lipophilic products, N-acylethanolamine (NAE) and phosphatidic acid. Therefore, we developed a rapid assay for the routine detection of NAPE-hydrolyzing PLD activity. This assay is based on precipitation of radiolabeled substrate (NAPE) in the presence of ZrOCl(2), followed by quantification of radiolabeled NAE released into a methanolic supernatant. The precipitation involves a chemical reaction of the zirconyl cation with the phosphate anion. Conditions were optimized for the complete precipitation of NAPE, whereas N-acyllysophosphatidylethanolamine and glycerophospho(N-acyl)ethanolamine were precipitated at least 95%. Furthermore, this precipitation method can be extended to assays of other anionic phospholipid-hydrolyzing PLD activities by selecting an optimal pH of the precipitation solution. For example, 98;-99% precipitation of phosphatidylethanolamine, phosphatidylglycerol, and phosphatidylserine was achieved.Consequently, this new assay allows for a convenient examination of PLD activities toward a variety of phospholipid substrates, and in particular allows for the analysis of NAE formation from NAPE in vitro, a feature that will facilitate a more complete biochemical characterization of this anandamide-generating enzyme.     

A partition assay for the simultaneous determination of insect juvenile hormone esterase and epoxide hydrolase activity

A partition assay was developed to measure insect juvenile hormone (JH) I and III metabolism in biological samples containing both JH esterase and JH epoxide hydrolase activity. The assay utilizes commercially available radiochain 3H-labeled JH as substrate and the selective JH esterase inhibitor 3-octylthio-1,1,1-trifluoro-2-propanone. JH partitions into an isooctane phase and the metabolites JH acid, JH diol, and JH diol-acid into aqueous methanol after incubation of JH substrate with inhibited and uninhibited sample. The assay provides a time- and cost-efficient alternative to the currently available thin-layer chromatography method for the measurement of JH esterase and epoxide hydrolase activity.     

Comparison of a spectrophotometric, a fluorometric, and a novel radiometric assay for carboxypeptidase E (EC 3.4.17.10) and other carboxypeptidase B-like enzymes

Carboxypeptidase E (CPE) is a carboxypeptidase B-like enzyme involved in the biosynthesis of numerous peptide hormones and neurotransmitters. A sensitive assay for CPE and other carboxypeptidase B-like enzymes has been developed using 125I-acetyl-Tyr-Ala-Arg (125I-AcYAR) as the substrate. This peptide is poorly soluble in ethyl acetate whereas the product of carboxypeptidase B-like enzymatic activity (125I-AcYA) can be quantitatively extracted with this solvent, allowing the rapid separation of product from substrate. This radiometric assay can detect less than 1 pg of either CPE or carboxypeptidase B. For CPE, the assay with 125I-AcYAR is approximately 1000 times more sensitive than a fluorescent assay using dansyl-Phe-Ala-Arg (dans-FAR), and 6000 times more sensitive than a spectrophotometric assay using hippuryl-Arg (hipp-R). CPE hydrolyzes the three substrates with Kcat values of 16 s-1 for AcYAR, 13 s-1 for dans-FAR, and 8.5 s-1 for hipp-R. The Km values for CPE with AcYAR (28 microM) and dans-FAR (34 microM) are similar, and are much lower than the Km with hipp-R (400 microM). Thus, the primary reason for the increased sensitivity of the 125I-AcYAR assay over the fluorescent assay is not a result of kinetic differences but is due to the detection limit of iodinated product (10(-15) mol), compared to the fluorescent product (5 x 10(-11) mol). Applications of this rapid and sensitive radiometric assay to detect CPE in cultured cells and in subcellular fractions of the pituitary are described.     

Simplified cysteine dioxygenase activity assay allows simultaneous quantitation of both substrate and product

A high-performance liquid chromatography (HPLC) method for enzyme activity assays using a hydrophilic interaction liquid chromatography (HILIC) column in combination with an evaporative light scattering detector was developed. The method was used to measure the activity of the non-heme mono-iron enzyme cysteine dioxygenase. The substrate cysteine and the product cysteine sulfinic acid are very weak chromophores, making direct ultraviolet (UV) detection without derivatization rather insensitive; moreover, derivatization of cysteine is often not efficient. Using the system described, underivatized substrate and product in samples from cysteine dioxygenase activity assays could be separated and analyzed. Furthermore, it was possible to quantify cysteic acid, the noncatalytic oxidation product of cysteine sulfinic acid. Acetone was used both to stop the enzymatic reaction by protein precipitation and as an organic mobile phase, making sample preparation very easy and the assay highly reproducible.     

A microassay for heme oxygenase activity using thin-layer chromatography.

A sensitive and facile assay for heme oxygenase (HO) has been developed. The basis of the assay is the detection of [14C]bilirubin formation in a coupled enzyme assay involving HO and biliverdin reductase actions, respectively. Separation of substrate from product is accomplished by thin-layer chromatography with subsequent quantitation by liquid scintillation counting of radioactive material present on chromatograms. As little as 20 micrograms of total cellular protein derived from cells growing in a standard 25-cm2 culture flask is sufficient for detection of HO enzyme activity using this assay. The reaction is inhibited by tin-protoporphyrin (10 microM final concentration), a specific inhibitor of HO. The linearity of the enzyme reaction with respect to incubation time and amount of protein used was established. Comparison of the new HO assay with a spectrophotometric assay was made, and good agreement of the results from both methods was found. The assay described here should facilitate measurements of this important heme-degrading enzyme in tissue culture studies and cases where limited amounts of material are available.     

New and highly sensitive assay for l-5-hydroxytryptophan decarboxylase activity by high-performance liquid chromatography—voltammetry

This paper describes a new, inexpensive and highly sensitive assay for aromatic l-amino acid decarboxylase (AADC) activity, using l-5-hydroxytryptophan (l-5-HTP) as substrate, in rat and human brains and serum by high-performance liquid chromatography (HPLC) with voltammetric detection. l-5-HTP was used as substrate and d-5-HTP for the blank. After isolating serotonin (5-HT) formed enzymatically from l-5-HTP on a small Amberlite CG-50 column, the 5-HT was eluted with hydrochloric acid and assayed by HPLC with a voltammetric detector. N-Methyldopamine was added to each incubation mixture as an internal standard. This method is sensitive enough to measure 5-HT, formed by the enzyme, 100 fmol to 140 pmol or more. An advantage of this method is that one can incubate the enzyme for longer time (up to 150 min), as compared with AADC assay using l-DOPA as substrate, resulting in a very high sensitivity. By using this new method, AADC activity was discovered in rat serum.