A novel scintillation proximity assay for fatty acid amide hydrolase compatible with inhibitor screening

A binding assay for human fatty acid amide hydrolase (FAAH) using the scintillation proximity assay (SPA) technology is described. This SPA uses the specific interactions of [3H]R(+)-methanandamide (MAEA) and FAAH expressing microsomes to evaluate the displacement activity of FAAH inhibitors. We observed that a competitive nonhydrolyzed FAAH inhibitor, [3H]MAEA, bound specifically to the FAAH microsomes. Coincubation with an FAAH inhibitor, URB-597, competitively displaced the [3H]MAEA on the FAAH microsomes. The released radiolabel was then detected through an interaction with the SPA beads. The assay is specific for FAAH given that microsomes prepared from cells expressing the inactive FAAH-S241A mutant or vector alone had no significant ability to bind [3H]MAEA. Furthermore, the binding of [3H]MAEA to FAAH microsomes was abolished by selective FAAH inhibitors in a dose-dependent manner, with IC50 values comparable to those seen in a functional assay. This novel SPA has been validated and demonstrated to be simple, sensitive, and amenable to high-throughput screening.     

High-performance liquid chromatography-tandem mass spectrometry assay of fatty acid amide hydrolase (FAAH) in blood: FAAH inhibition as clinical biomarker

Fatty acid amide hydrolase (FAAH) is one of the main enzymes responsible for the degradation of the endocannabinoid anandamide (N-arachidonoylethanolamine, AEA). FAAH inhibitors may be useful in treating many disorders involving inflammation and pain. Although brain FAAH may be the relevant target for inhibition, rat studies show a correlation between blood and brain FAAH inhibition, allowing blood FAAH activity to be used as a target biomarker. Building on experience with a rat leukocyte FAAH activity assay using [³H]AEA, we have developed a human leukocyte assay using stably labeled [²H₄]AEA as substrate. The deuterium-labeled ethanolamine reaction product ([²H₄]EA) was analyzed by high-performance liquid chromatography–tandem mass spectrometry (HPLC–MS/MS) in the positive electrospray ionization (ESI) mode. The response for [²H₄]EA was linear from 10 nM to 10 μM, and the analysis time was less than 6 min/sample. Results using the [²H₄]AEA and HPLC–MS/MS method agreed well with those obtained using the [³H]AEA radiometric assay. In addition to using a nonradioactive substrate, the HPLC–MS/MS method had increased sensitivity with lower background. Importantly, the assay preserved partial FAAH inhibition resulting from ex vivo treatment with a time-dependent irreversible inhibitor, suggesting its utility with clinical samples. The assay has been used to profile the successful inhibition of FAAH in recent clinical trials.     

A rapid and simplified assay method for tyrosine hydroxylase

Tyrosine hydroxylase can be measured by release of tritiated water from labeled tyrosine, and the assay method has now been modified to allow recovery of 3H2O from the reaction mixture in a much more rapid and less tedious manner than previously possible. In the new method, the tyrosine hydroxylase reaction is stopped with sodium carbonate, pH 11.6. At this pH the tritium in 3H2O, but not other 3H species, is extracted into an organic scintillant containing 25% isoamyl alcohol, toluene, 2,5-diphenyloxazole, and p-bis-[2-(5-phenyloxazolyl)]benzene. The selective extraction occurs by means of exchange of tritium in 3H2O with the hydroxyl proton of isoamyl alcohol. It is the [3H]isoamyl alcohol that is then extracted into the scintillant and quantified by liquid scintillation spectrometry. Although the organic extraction method is somewhat less sensitive than the more frequently used ion-exchange method for isolating the 3H2O formed in the tyrosine hydroxylase reaction, it is much more rapid, as well as cost effective, since the enzyme reaction, extraction, and counting are carried out within the same vial.     

An isotopic assay of dUTPase activity based on coupling with thymidylate synthase

A new rapid, sensitive and convenient procedure is presented allowing determination of dUTPase activity. With [5-(3)H]dUTP used as the substrate, dUTPase, converts it to the corresponding monophosphate and is coupled with thymidylate synthase-catalyzed reaction, resulting in tritium release from [5-(3)H]dUMP. Following charcoal absorption of the labeled nuleotides, radioactivity of tritiated water is determined. The new assay was tested to show comparable results with a previously described assay, based on measuring dUTPase-catalyzed [5-(3)H]dUMP production.     

A new isotopic assay for purine nucleoside phosphorylase

We have developed a new assay for purine nucleoside phosphorylase which is based on the release of tritium when [2-3H]inosine is used as the substrate and the reaction is coupled with xanthine oxidase. After the reaction is terminated, residual [2-3H]inosine is adsorbed on charcoal and the supernatant solution is assayed for radioactivity by liquid scintillation spectrometry. The new method gave results indistinguishable from those obtained by spectrophotometric determination of uric acid produced by the phosphorylase-xanthine oxidase-coupled reaction or by radioassay of chromatographically isolated [8-14C]hypoxanthine when [8-14C]inosine was used as substrate. The new method is faster than those involving chromatographic isolation of products. In comparison with spectrophotometric methods, it not only requires less manual time, but it also has the advantage that it can be used to study inhibitors whose ultraviolet absorption might interfere with spectrophotometric determination of uric acid.     

Pharmacological Characterization of Endocannabinoid Transport and Fatty Acid Amide Hydrolase Inhibitors

  1. The mechanism of anandamide uptake and disposal has been an issue of considerable debate in the cannabinoid field. Several compounds have been reported to inhibit anandamide uptake or fatty acid amide hydrolase (FAAH; the primary catabolic enzyme of anandamide) activity with varying degrees of potency and selectivity. We recently reported the first evidence of a binding site involved in the uptake of endocannabinoids that is independent from FAAH. There are no direct comparisons of purported selective inhibitory compounds in common assay conditions measuring anandamide uptake, FAAH activity and binding activity.2. A subset of compounds reported in the literature were tested in our laboratory under common assay conditions to measure their ability to (a) inhibit [¹⁴C]-anandamide uptake in cells containing (RBL-2H3) or cells lacking (HeLa) FAAH, (b) inhibit purified FAAH hydrolytic activity, and (c) inhibit binding to a putative binding site involved in endocannabinoid transport in both RBL and HeLa cell membranes.3. Under these conditions, nearly all compounds tested inhibited (a) uptake of [¹⁴C]-anandamide, (b) enzyme activity in purified FAAH preparations, and (c) radioligand binding of [³H]-LY2183240 in RBL and HeLa plasma membrane preparations. General rank order potency was preserved within the three assays. However, concentration response curves were right-shifted for functional [¹⁴C]-anandamide uptake in HeLa (FAAH^−/−) cells.4. A more direct comparison of multiple inhibitors could be made in these three assay systems performed in the same laboratory, revealing more information about the selectivity of these compounds and the relationship between the putative endocannabinoid transport protein and FAAH. At least two separate proteins appear to be involved in uptake and degradation of anandamide. The most potent inhibitory compounds were right-shifted when transport was measured in HeLa (FAAH^−/−) cells suggesting a requirement for a direct interaction with the FAAH protein to maintain high affinity binding of anandamide or inhibitors to the putative anandamide transport protein.     

Rapid and serial determination of protein kinase C activity and of the associated [3H]PDBu binding using a 96-well microtiter plate and a cell harvester

We propose a serial assay of both protein kinase C activity and the related [3H]phorbol 12,13-dibutyrate binding, each carried out in 96-multiwell dishes, started and stopped row by row using a multipipet. Protein kinase C activity is observed through the transfer of the gamma-phosphoryl group of radioactive ATP onto histone H1 type III-S. Enzymatic reactions are started by adding enzyme extracts and stopped by adding trichloroacetic acid. Acidic precipitates of each row are simultaneously collected on glass fiber paper using a cell harvester. The addition of bovine serum albumin and cold ATP at the end of the reaction and the addition of trichloroacetic acid in the washing fluid lead to a high recovery of protein kinase C activity and reproducible results. Measurement of [3H]phorbol 12,13-dibutyrate binding to protein kinase C was carried out in a mixed micellar solution as described elsewhere (Y. Hannun and R. M. Bell (1987) in Methods in Enzymology, Vol. 141, pp. 287-293). The quaternary complex formed from protein kinase C, phosphatidylserine, calcium, and [3H]phorbol 12,13-dibutyrate was then bound to a beaded anionic exchanger which was automatically separated from the free phorbol 12,13-dibutyrate by microfiltration using a cell harvester. The binding reaction was highly calcium- and phosphatidylserine-dependent and calcium had to be added to washing fluid for optimal recovery. Determination of protein kinase C activity and phorbol 12,13-dibutyrate binding gave results similar to those of other published methods and the signal/noise ratio was greatly increased. Using a semi-automated cell harvester, the system is partially automated and provides accurate and reproducible results.     

A rapid and sensitive assay for tyrosine-3-monooxygenase based upon the release of 3H2O and adsorption of [3H]-tyrosine by charcoal

A rapid, simple and sensitive assay has been developed for tyrosine-3-monooxygenase, the enzyme catalyzing the rate-limiting step in catecholamine biosynthesis. The assay is based upon the release of 3H2O from 3H-[3,5]-L-tyrosine with adsorption of the isotopic substrate (and its metabolites) by an aqueous slurry of activated charcoal. This method routinely yields low blank values and is simpler than the procedure requiring the use of cation exchange columns to separate the isotopic substrate from the 3H2O formed during the hydroxylation reaction.     

A fluorescence-based assay for fatty acid amide hydrolase compatible with high-throughput screening

A novel fluorescent assay to continuously monitor fatty acid amide hydrolase (FAAH) activity that is simple, sensitive, and amenable to high-throughput screening (HTS) of compound libraries is described in this article. Stable Chinese hamster ovary (CHO) cell lines expressing either human FAAH or an inactive mutant, FAAH-S241A, were established. Arachidonyl 7-amino, 4-methyl coumarin amide (AAMCA), a novel fluorogenic substrate for FAAH, was designed and synthesized. FAAH catalyzes the hydrolysis of AAMCA to generate arachidonic acid and a highly fluorescent 7-amino, 4-methyl coumarin (AMC). The assay was done at 25 degrees C by incubating whole cell or microsomal preparations from FAAH-expressing cells with AAMCA. Release of AMC was monitored continuously using a fluorometer. Microsomal FAAH catalyzed the hydrolysis of AAMCA with an apparent K(m) of 0.48muM and V(max) of 58pmolmin(-1)mgprotein(-1). The assay is specific for FAAH given that microsomes prepared from cells expressing FAAH-S241A or vector alone had no significant activity against AAMCA. Furthermore, the activity was inhibited by URB-597, an FAAH-specific inhibitor, in a concentration-dependent manner with an IC(50) of 33.5nM. The assay was optimized for HTS and had a Z' value ranging from 0.7 to 0.9. The assay is also compatible with ex vivo analysis of FAAH activity.     

Differential stability of the benzimidazole (BZ)-tubulin complex in BZ-resistant and BZ-susceptible isolates of Haemonchus contortus and Trichostrongylus colubriformis.

The binding of [3H]mebendazole ([3H]MBZ) to tubulin from BZ-susceptible (BZ-S) and BZ-resistant (BZ-R) isolates of Haemonchus contortus and Trichostrongylus colubriformis was investigated using charcoal extraction and gel filtration techniques. The amount of [3H]MBZ bound at infinite free ligand concentration (Bmax) was significantly reduced for the BZ-R isolate compared with the BZ-S isolate in both species when assayed by charcoal extraction. However, Bmax was increased to comparable levels for both BZ-S and BZ-R isolates of each species when assayed by the less stringent gel filtration technique. These results indicate that the BZ-tubulin interaction in trichostrongylid nematodes is comprised of a minimum of two components. As similar levels of total [3H]MBZ binding were observed for both BZ-S and BZ-R isolates of each species when assayed by gel filtration, it is suggested that the reduction in the pseudo-irreversible BZ binding component in BZ-R isolates results in an increase in the level of reversible BZ binding and therefore provides a survival advantage to BZ-R nematodes.     

Use of [8-3H]guanine-labeled deoxyribonucleic acid to study alkylating agent reaction kinetics and stability.

Alkylation at the N7 position of guanine in DNA renders the C8-hydrogen acidic. This serves as the basis for an assay of guanine N7 alkylation using [8-3H]-guanine-labeled DNA. I modified the assay by preparing a high specific activity substrate in vitro and by replacing the distillation step with charcoal adsorption of substrate. Using the appearance of noncharcoal-adsorbable label as a measure of guanine-N7 alkylation I examined the reaction of DNA with dimethyl sulfate and mechlorethamine. The rate of reaction of dimethyl sulfate with the N7 position of guanine in DNA was constant over time, i.e., loss of label from DNA proceeded linearly with time. On the other hand, the rate of reaction of mechlorethamine with DNA increased with time, consistent with the initial formation of the reactive aziridinium ion. The assay can also be used to compare the reaction rates of various alkylating agents with DNA. Thus, the acridine mustards ICR-170 and quinacrine mustard were far more potent alkylating agents than mechlorethamine. Furthermore the assay may be used to determine the alkylating potency and stability of various alkylating agent preparations: while frozen solutions of acridine mustards in organic solvents retained alkylating activity for several months, different commercial preparations of quinacrine mustard had little or no alkylating activity.     

Simple separation of tritiated water and [3H]deoxyuridine from [5-3H]deoxyuridine 5'-monophosphate in the thymidylate synthase assay

A simple micromethod was developed for the accurate measurement of the activity of dTMP synthase in rat liver crude extracts. The reaction product of dTMP synthase activity assay, i.e., tritiated water, generated by the release of tritium from carbon-5 of [5-3H]deoxyuridine 5'-monophosphate (dUMP), was separated simply by 100% KOH absorption from [5-3H]deoxyuridine (dUrd), which is the side-product by dephosphorylation of [5-3H]deoxyuridine (dUrd), which is the side-product by dephosphorylation of [5-3H]dUMP during the enzyme reaction. Tritiated water was trapped in three droplets of 100% KOH deposited on the underside of the vessels' lids, while [3H]dUrd remained in the bottom of vessels after absorption of the substrate, [5-3H]dUMP, from the reaction mixture by charcoal treatment. Under standard assay conditions in the crude extract of rat liver, the specific activities of dTMP synthase and dUMP phosphatase were 0.092 +/- 0.002 and 0.351 +/- 0.013 nmol/h/mg protein, respectively. This method was also adapted for dTMP synthase assay in crude extracts of rat hepatoma 3924A. The major advantages of this procedure are the elimination of the phosphatase activity which interferes with the estimation of dTMP synthase activity in crude extracts, one-step separation of 3H2O, high sensitivity (with a limit of detection of 10 pmol of 3H2O production), high reproducibility (less than +/- 4.3%), and capability to measure activity in small amounts of sample (30-45 micrograms protein).     

Assay for L-pipecolate oxidase activity in human liver: detection of enzyme deficiency in hyperpipecolic acidaemia.

A direct assay method is described for L-pipecolate oxidase. The assay uses NaHSO3 to trap the L-alpha-amino [3H]adipate delta-semialdehyde (AAS) formed as a direct reaction product of L-pipecolate oxidase from L-[3H]pipecolic acid. The adduct so formed was separated from the substrate on Dowex 50 (H+) column. The product was identified as [3H]AAS by amino acid analysis after breaking down the adduct by boiling under acidic conditions. The assay is simpler and more specific than fluorometric methods; it is also more sensitive, requiring at most 16 micrograms of liver peroxisome-enriched protein per assay. We have used this assay procedure to detect L-pipecolate oxidase in skin fibroblasts obtained from a control subject and from patients of hyperpipecolic acidaemia and Zellweger syndrome and found that this enzyme activity is present in the control, but absent or decreased in the patients with the peroxisomal disorders.     

A radiometric assay for kynurenine 3-hydroxylase based on the release of 3H2O during hydroxylation of L-[3,5-3H]kynurenine.

A rapid and sensitive assay for kynurenine 3-hydroxylase (KH) has been developed. This radiometric assay is based on the enzymatic synthesis of tritiated water from L-[3,5-3H]kynurenine during the hydroxylation reaction. Radiolabeled water is quantified following selective adsorption of the isotopic substrate and its metabolite with activated charcoal. The assay is suitable for detecting 0.1 pmol enzyme activity per minute per milligram protein in tissues displaying low levels of the enzyme. The amount of water produced in the reaction, as calculated from the tritium released, was stoichiometric with the 3-hydroxykynurenine product detected by HPLC. Rat liver KH was characterized by cofactor specificity and kinetic parameters. NADPH was preferred over NADH as coreductant in the reaction. Tetrahydrobiopterin was not a cofactor. The tissue distribution of KH activity in the rat suggested that the majority of active enzyme is located in liver and kidney. Detectable amounts were found in several other tissues, including brain which had low but significant levels of activity in every region assayed.     

Monitoring key reactions in degradation of chloroaromatics by in situ (1)H nuclear magnetic resonance: solution structures of metabolites formed from cis-dienelactone

A (1)H nuclear magnetic resonance ((1)H NMR) assay was used to study the enzymatic transformation of cis-dienelactone, a central intermediate in the degradation of chloroaromatics. It was shown that the product of the cis-dienelactone hydrolase reaction is maleylacetate, in which there is no evidence for the formation of 3-hydroxymuconate. Under acidic conditions, the product structure was 4-carboxymethyl-4-hydroxybut-2-en-4-olide. Maleylacetate was transformed by maleylacetate reductase into 3-oxoadipate, a reaction competing with spontaneous decarboxylation into cis-acetylacrylate. One-dimensional (1)H NMR in (1)H(2)O could thus be shown to be an excellent noninvasive tool for monitoring enzyme activities and assessing the solution structure of substrates and products.     

An enzyme linked immunosorbent assay (ELISA) for plasma medroxyprogesterone acetate (MPA).

A single extraction fixed antigen enzyme-linked immunosorbent assay (ELISA) that can be completed in less than 24 h is described for the measurement of medroxyprogesterone acetate (MPA) in plasma. MPA is covalently coupled to bovine thyroglobulin and passively adsorbed in guanidine hydrochloride to a standard 96-well microtitre plate where it competes with MPA in the extracted plasma sample for goat anti-MPA. Antibody binding to the solid phase is determined via binding of a horse-radish peroxidase second antibody which reacts colorimetrically with its substrate. The reaction is stopped by addition of 1.25 M H2SO4 and absorbance read at 492 nm. All steps except for sample addition and extraction can be performed on an automatic ELISA processing machine. The assay is sensitive, specific and precise, with intra- and inter-assay coefficients of variation of less than 10 and 15%, respectively. Assay sensitivity is 0.08 ng/ml. The assay follows established methodology for other assays in this laboratory which assists standardization, cost structure and sample throughput and thus is a useful alternative to radioimmunoassays for the determination of MPA in plasma.     

Deletion of fatty acid amide hydrolase reduces lyso-sulfatide levels but exacerbates metachromatic leukodystrophy in mice

An inherited deficiency of arylsulfatase A (ASA) causes the lysosomal storage disease metachromatic leukodystrophy (MLD) characterized by massive intralysosomal storage of the acidic glycosphingolipid sulfatide and progressive demyelination. Lyso-sulfatide, which differs from sulfatide by the lack of the N-linked fatty acid, also accumulates in MLD and is considered a key driver of pathology although its concentrations are far below sulfatide levels. However, the metabolic origin of lyso-sulfatide is unknown. We show here that ASA-deficient murine macrophages and microglial cells express an endo-N-deacylase that cleaves the N-linked fatty acid from sulfatide. An ASA-deficient astrocytoma cell line devoid of this activity was used to identify the enzyme by overexpressing 13 deacylases with potentially matching substrate specificities. Hydrolysis of sulfatide was detected only in cells overexpressing the enzyme fatty acid amide hydrolase (FAAH). A cell-free assay with recombinant FAAH confirmed the novel role of this enzyme in sulfatide hydrolysis. Consistent with the in vitro data, deletion of FAAH lowered lyso-sulfatide levels in a mouse model of MLD. Regardless of the established cytotoxicity of lyso-sulfatide and the anti-inflammatory effects of FAAH inhibition seen in mouse models of several neurological diseases, genetic inactivation of FAAH did not mitigate, but rather exacerbated the disease phenotype of MLD mice. This unexpected finding was reflected by worsening of rotarod performance, increase of anxiety-related exploratory activity, aggravation of peripheral neuropathy, and reduced life expectancy. Thus, we conclude that FAAH has a protective function in MLD and may represent a novel therapeutic target for treatment of this fatal condition.     

A double-antibody radioimmunoassay for serum progesterone using progesterone-3-(O-carboxymethyl) oximino-[125I]-iodo-histamine as radioligand.

A reliable, convenient and economical radioimmunoassay (RIA) for serum progesterone has been established and tested. This procedure employs diethyl ether extraction followed by RIA utilizing rabbit anti-11 alpha-hydroxyprogesterone 11-hemisuccinyl-bovine serum albumin (progesterone-11 alpha-BSA) serum, progresterone-3-(O-carboxymethyl) oximino-[125I]-iodohistamine (progesterone-3-[125I]) as radioligand and goat anti-rabbit gamma globulin as second antibody. In conjunction with antiprogesterone-11 alpha-BSA serum, the overall assay specificity of the progesterone-3-[125I] RIA is similar to that of the [3H]-progesterone method using dextran-coated charcoal. The results of serum progesterone measurements during the menstrual cycle obtained by the progesterone-3-[125I] RIA appear comparable to those of [3H]-progesterone assays which employ similar anti-progesterone-11 alpha-BSA sera. The progesterone-3-[125I] double-antibody RIA, however, is more convenient and less expensive than the [3H]-progesterone RIA method.