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Institute
- Institut für Pharmazie und Lebensmittelchemie (207) (remove)
Sonstige beteiligte Institutionen
- Universität Belgrad, Serbien (2)
- ACC GmbH Analytical Clinical Concepts (1)
- Apotheke, Universitätsklinikum Würzburg (1)
- Bundesinstitut für Arzneimittel und Medizinprodukte (1)
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EU-Project number / Contract (GA) number
- 26230120009 (1)
- 296679 (1)
- 314911 (1)
- 701983 (1)
A route to 2S,5S-and 2R,5S-hydroxypipecolic acid is presented, starting with the enantiopure 5S-5-hydroxy-piperidone 7. The key step of this reaction sequence is the chemoselsctive methylenation of the amide carbonyl group of 8 with dimethyltitanocene 9 to 10. The transformation of the exocyclic enecarbamate double bond to the carboxylic acid group is best accomplished via hydroboration/oxidation to the alcohol 11a,b. Separation and oxidation of the dlastereomers 11a,b, to 148. and 14b, and hydrolysis furnishes the diastereomeric pipecolic acids 15a and 15b in enantiopure form.
The 2-halo imidoyl chlorides 7 are obtained from the amide 5 and the 2-halo amides 6 by the action of phosphorus pentachloride and thionyl chloride, respectively. Non-racemic (S)-6a is converted into 7a which is racemic, however. The reaction of Lawesson's reagent with 6a furnishes the diastereomeric 1,3.2-thiazaphospholidine derivatives 15. Treatment of (S)-6a (98% eel with methyl triflate affords 2-chloro imidate 8 (95% eel which reacts with methanamine in the presence of methanammonium chloride to yield the 2-chloro amidine (S)-9a (90% eel. The 2-halo imidoyl halides 7a and b react with methanamine to produce the 2-halo amidines 9a and b. - Strong bases, e.g. potassium tert-butoxide or sodium hydride in the presence of catalytic amounts of tertbutyl alcohol, eliminate hydrogen chloride or bromide from the 2-halo amidines 9a and band (S)-9a to yield mixtures of Recently, we demonstrated that the formation of the chiral non-racemic aziridinone (R)-2 from the a-chloro amide (5)-1 by base-promoted dehydrochlorination[2) as well as the nucleophilic cleavage of the N-C(3) bond of (R)_2[3,4) occur with inversion of configuration, thus excluding the intervention of achiral (acyclic) intermediates. In the temperature range of lOO-170°C, however, slow racemization accompanies the thermolysis of (R)-2 and indicates the existence of an achiral or a racemic transient, e. g. (M)-3 + (P)-3. Indeed, high-level quantum-chemical calculations reveal that an activation energy of (170 ± 25) kJmol- 1 is required for the unimolecular ring opening of the parent aziridinone which affords a species of high diradical character[41. Subsequently, the unstable N-phenylaziridinone invoked in the decomposition of the (5)-2-bromopropananilide anion was shown to react with tert-butylamine or dimethylformamide with inversion of configuration at C(3)[51. Thus, the stereochemical evidence in the series of 3-alkylaziridinones excludes achiral (acyclic) aziridinone isomers as intermediates at low tempera tures [6J. Similar stereochemical studies are still missing in the related series of iminoaziridines. Therefore, we report on the synthesis and thermolysis of the diastereomeric chiral racemic (E)- and (Z)-(4)[71 and non-racemic iminoaziridines (E,R)- and (Z,R)-4. Racemic Iminoaziridines (E)- and (Z)-4 Though a photochemical route to the iminoaziridines (E)- and (Z)-4 has been devised more recently, i. e. the phothe 2-iminoaziridines (E)- and (Z)-4, and (E,R)- and (Z.R)-4 (83% eel, respectively. The 1.3-elimination of hydrogen bromide from 9b is diastereoselective at -30 to -40°C [(E)-4:(Z)-4 = <10:>90). The diastereomers equilibrate at 36°C with (kEZ + k ZE) = (5.92 ± 0.08) . 10-5 S-I (K = kEZlkzE = 0.428 ± 0.013). - The thermolysis of (E)- and (Z)-4 in [D61benzene solution yields the imine 16 and methyl isocyanide (17). The decomposition follows the first-order rate law. The following Arrhenius and Eyring parameters are calculated from five rate constants obtained in the temperature range of 70-110°C: Ea = (115.2 ± 0.4) kJmol-t, IgA = (12.06 ± 0.28), AH* = (112.1 ± 0.4) kJmol- l , AS'" = (-23.9 ± 0.7) JK-I mol-I, AGj73K = 121 kJmol-1 . The enantiomeric excess of the surviving fraction of (E,R)- and (Z.R)-4 is unchanged after two half-lives at 80°C.
Priority tasks of the present thesis were to generate various enantiopure C-3-substituted pyroglutamates as well as C-3-substituted glutamates, and furthermore to ameliorate the serious drawback of the bad atom-economy in the reaction sequence of previously published silylether-mediated procedures. To meet these requirements, the ortho ester functionality (OBO ester) developed by Corey was introduced. According to the plan of synthesis, the starting material, non-racemic (S)-pyroglutamic acid, was converted to the corresponding oxetane ester via a DCC-mediated esterification. The latter was N-protected to provide N-acceptor substituted pyroglutamic acid oxetane esters (Acceptor=Boc,Cbz,CO2Me). After rearrangement with boron trifluoride, the ortho ester derivatives (Acceptor=Cbz,CO2Me) were at hand and exclusively the N-Cbz derivative was converted to the corresponding alpha,beta-unsaturated lactam via a syn-elimination reaction. The formation of the C-3-substituted ortho ester compounds (R=methyl,ethyl,butyl,allyl,phenyl,4-chlorophenyl,biphenyl,naphthyl) was performed via a copper-mediated conjugate addition to the alpha,beta-enone system of the N-Cbz-alpha,beta-unsaturated lactam. The OBO functionality hence was envisaged to support perfect trans selectivity in this cuprate addition to the Michael system of the N-Cbz-alpha,beta-unsaturated lactam. Spectroscopic NMR-data, on the basis of 1H-, 13C- and DEPT spectra, proved the assumption that the C-3-substituted ortho ester derivatives exclusively are trans-configurated, i.e. the alkyl derivatives (R=methyl,ethyl,butyl,allyl) are (2S,3S)-configurated and the aryl derivatives (R=phenyl,4-chlorophenyl,biphenyl,naphthyl) are (2S,3R)-configurated). The C-3-substituted ortho ester derivatives were completely deprotected to yield the C-3-substituted pyroglutamates (R=ethyl,phenyl,4-chlorophenyl,naphthyl). Finally, ring opening reaction via route A-2 lead to the desired enantiopure C-3-substituted glutamates. Alternatively, latter preferably were reacted via route A-1 to yield the C-3-substituted glutamates (R=methyl,ethyl,butyl,phenyl,4-chlorophenyl,naphthyl). Their (2S,3R)-configuration (R=aryl) and (2S,3S)-configuration (R=alky), respectively, unambiguously was proved on the basis of available spectroscopic NMR-data. To ensure this assumption, diastereomeric (2S,3R)-3-methyl glutamic acid (i.e. cis-configurated) examplarily was synthesized via route A-3 and spectroscopic NMR-data was compared to that of (2S,3S)-3-methyl glutamic acid (i.e. trans-configurated). Conclusively, there can be recorded the fact that the serious drawback of the bad atom-economy in the reaction sequence previously used can be circumvented by the introduction of the OBO functionality, so the concept of an improved atom-economy is achieved. Additionally, in comparison to the silyl-ether-mediated synthesis, the OBO functionality provided crystalline ortho ester derivatives, which facilitated their purification as well as characterization.
Synthesis of (RS)-5-amino-3-aryl (methyl)-pentanoic acid hydrochlorides, 3 aminomethyl-5-chloro-benzoic acid hydrochloride and (RS)-4-amino-3-(4`-ethynyl(iodo)-phenyl)-butanoic acid hydrochlorides have been accomplished. The aim of their synthesis was to evaluate their GABABR agonist activity and to derive a model which will correlate their structure with the observed pEC50. The GABABR agonist activity of the prepared compounds has been determined in functional assay based on calcium measurement in vitro using tsA cells transfected with GABAB1b/GABAB2/Gαq-z5. Reviews on the neurotransmitter receptors (ligand-gated ion channel receptors and G protein-coupled receptors), their agonists and antagonists have been given in the general part of this work. A detailed discussion on the strategy followed for the synthesis of the designed compounds as well as the starting materials and intermediates has been described and illustrated in Schemes 2-6. The synthesized compounds were evaluated for their GABABR agonist activity. Furthermore, these compounds were docked in the available 3D homology model of GABABR using the program FlexiDock implemented in SYBYL software. Subsequently, we derived a predictive model which correlates the experimentally determined pEC50 with the calculated binding energy of certain baclofen analogues and homologues. In addition, we used the program DISCO (DIStance COmparisons) implemented in SYBYL software to find the pharmacophore features of GABAB agonists.
The study deals with the area of the allosteric modulation of the muscarinic M2 receptors. The allosteric modulators have an influence on binding of orthosteric ligands (agonists and antagonists) to the classical orthosteric binding site of the muscarinic M2-receptors. The modulators are able to enhance (positive cooperativity) or decrease (negative cooperativity)the affinity of ligands to the orthosteric binding site. The allosteric binding site is located at the entrance of the receptor binding pocket. It is less conserved than the orthosteric binding site which is located in a narrow cavity created by the seven transmembrane domains. Consequently, development of subtype selective allosteric ligands is easier than subtypeselective muscarinic agonists or antagonists. Furthermore, subtype selectivity can be achieved by differently cooperative interactions between the allosteric and orthosteric ligand at different receptor subtypes. For example, the allosteric modulators that are positively cooperative with ACh at M1 receptors and neutrally cooperative at the other receptor subtypes could be beneficial for treatment of the Alzheimer’s disease. Bisquaternary analogues of the Strychnos alkaloid caracurine V are among the most potent allosteric modulators of muscarinic M2-receptors. The very rigid ring skeleton comprises the pharmacophoric elements of two positively charged nitrogens at an approximate distance of 10 surrounded by two aromatic ring systems in a distinct spatial arrangement. Owing to the close structural relationship of caracurine V salts to the strong muscle relaxants toxiferine and alcuronium, they are likely to exhibit neuromuscular blocking activity, which would limit their usefulness as research tools and make the therapeutical use impossible. Reduction of the caracurine V ring skeletons to structural features responsible for good allosteric potency could possibly lead to compounds with negligible neuromuscular blocking activity and very high affinity to the allosteric binding site at M2 receptor. Thus, the aim of this study was to synthesize and pharmacologically evaluate analogues of a novel heterocyclic ring system, which comprises the pharmacophoric elements mentioned previously. The key step of the synthesis of the desired 6,7,14,15-tetrahydro[1,5]diazocino[1,2-a:6,5-a]-diindole ring system (6) involved the intermolecular double N-alkylation of the bromoethylindole (5), which was prepared from the known indolyl methylacetate (3) by reduction of the ester group to alcohol and subsequent substitution by bromine. 3 could be prepared in three steps involving N,N-dibenzylation of tryptamine followed by introduction of the dimethyl malonate moiety at C-2 of indole ring and a subsequent demethoxycarbonylation. The total synthesis of 6,7,14,15-tetrahydro[1,5]diazocino[1,2-a:6,5-a]diindole ring system (6) is shown in Scheme 24. In order to examine the influence of the length of the side-chain on muscarinic activity,exchange of the ethylamine moieties of 14 by the methylamino groups was planned. This should be accomplished by dimerization of the unsubstituted 2-bromoethylindole (32), and subsequent Mannich aminomethylation of the resulting unsubstituted pentacyclic ring. The total synthesis of the 6,7,14,15-tetrahydro-15aH-azocino[1,2-a:6,5-b]diindole ring system(35) is shown in Scheme 25. 32 was prepared from indole-2-carboxylic acid in six steps involving reduction of the acid to the corresponding alcohol 26, benzoylation of 26 followed by nucleophilic substitution with KCN, hydrolysis of the cyanide 28 to indolyl acetic acid 29,reduction of 29 to the corresponding alcohol 30, and finally bromination of 30 to give the bromide 32. Since dimerization attempts of 32 provided only 2-vinylindole (33), the tosylate 34 was used as starting material for the intermolecular alkylation to give exclusively an isomeric pentacyclic ring system, 7,14,15-tetrahydro-15aH-azocino[1,2-a:6,5-b]diindole (35). The formation of the novel, asymmetric ring skeleton can be explained by the ambident nucleophilic character of the indolyl anion that can be alkylated either at nitrogen or at C-3 of indole ring. 35 was subjected to a Mannich reaction to give 2,13-dimethylaminoalkylated product 37 as well as small amounts of the 13-monosubstituted compound (36). The geometry of novel ring systems 6 was elucidated by means of NMR spectroscopy and semiempirical calculations. The diazocinodiindole ring skeleton of 6 exists in chloroform solution at room temperature in a twisted-boat conformation, as indicated by 600 MHz ROESY experiment, vicinal coupling constants within the eight-membered ring, and AM1 calculations. In order to obtain potent allosteric ligands, the new heterocycles 6 and 37 were quarternized with methyliodide to the corresponding ammonium salts 14 and 38, respectively. Additionally, the N,N -diallylsalts of 37 (compound 39) was prepared. The allosteric effect of 14, 38, and 39 on the dissociation of the orthosteric radioligand [3H]Nmethylscopolamine([3H]NMS) and their effects on [3H]NMS equilibrium binding were studied in homogenates of porcine heart ventricles. The concentration of an allosteric agent for a half-maximum effect on orthosteric ligand dissociation (EC50,diss) corresponds to a 50 % occupancy of the liganded receptors by the respective allosteric test compounds. Due to the presence of two benzyl groups on each nitrogen in the side chains of 14, its binding affinity can be best compared with that of N,N -dibenzylcaracurinium V dibromide (EC50,diss = 69 nM). Compound 14 exhibited the comparable affinity to N,N -dibenzylcaracurinium V dibromide with EC50,diss = 54 nM. This result suggested that replacement of the bulky benzyl groups of 14 by smaller substitutents will probably increase the allosteric potency, since dimethyl- and diallylcaracurinium salts showed a 5-fold increase of binding affinity relative to the dibenzyl analogue. Even though the new azocinodiindole ring system of 38 and 39, is not included in the caracurine V ring skeleton, it comprises the essentially pharmacophoric elements of allosteric potency. Due to the different spatial arrangements of the aromatic rings, as well as to different internitrogen distances in both ring systems, compound 38 and 39 exhibited 4-fold lower M2 binding affinity (EC50,diss = 35 and 48 nM, respectively) than the corresponding caracurine V analogues. This study deals with the synthesis of the first representative (Compound 6) of a novel pentacyclic ring system derived from caracurine V. The high allosteric potency of its dimethyl analogue reveals the [1,5]diazocino[1,2-a:6,5-a]-diindole ring system as a new promising lead structure for allosteric modulators of muscarinic M2 receptors. Future research will be focused on structural modifications of the new ring system in order to increase the affinity to the muscarinic receptors. Furthermore, the binding affinities of the new synthesized compounds to the muscle type of nicotinic ACh-receptor should reveal structural features responsible for the muscarinic/nicotinic selectivity.
The cyclic nucleotides cAMP and cGMP are two ubiquitous important second messengers, which regulate diverse physiological responses from vision and memory to blood pressure and thrombus formation. They act in cells via cAMP- and cGMP-dependent protein kinases (PKA and GK), cyclic nucleotide-gated channels and Epac. Although the concept of cyclic nucleotide signalling is well developed based on classical biochemical studies, these techniques have not allowed to analyze cAMP and cGMP in live cells with high temporal and spatial resolution. In the present study fluorescence resonance energy transfer was used to develop a technique for visualization of cAMP and cGMP in live cells and in vitro by means of fluorescent biosensors. Ligand-induced conformational change in a single nucleotide-binding domain flanked with green fluorescent protein mutants was used for dynamic, highly sensitive measurements of cAMP and cGMP. Such biosensors retained binding properties and chemical specificity of unmodified domains, allowing to image cyclic nucleotides in a physiologically relevant range of concentrations. To develop cAMP-sensors, binding domains of PKA, Epac and cAMP-gated HCN-channel were used. cGMP-sensors were based on single domains of GK and phosphodiesterases (PDEs). Sensors based on Epac were used to analyze spatio-temporal dynamics of cAMP in neurons and macrophages, demonstrating that cAMP-gradients travel with a high speed (~ 40 μm/s) throughout the entire cytosol. To understand the mechanisms of cAMP-compartmentation, kinetics properties of phosphodi-esterase (PDE2) were, next, analyzed in aldosterone producing cells. PDE2 is able to rapidly hydrolyze extensive amounts of cAMP, so that the speed of cAMP-hydrolysis is much faster than that of its synthesis, which might serve as a basis of compartmentation. cAMP-sensors were also used to develop a clinically relevant diagnostic method for reliable detection of β1-adrenergic receptor autoantibodies in cardiac myopathy patients, which has allowed to significantly increase the sensitivity of previously developed diagnostic approaches. Conformational change in a single binding domain of GK and PDE was, next, used to create novel fluorescent biosensors for cGMP. These sensors demonstrated high spatio-temporal resolution and were applied to analyze rapid dynamics of cGMP production by soluble and particulate guanylyl cyclases as well as to image cGMP in mesangial cells. In summary, highly sensitive biosensors for cAMP and cGMP based on single cyclic nucleotide-binding domains have been developed and used in various biological and clinically relevant applications.
Background: Population pharmacokinetic-pharmacodynamic (PKPD) modeling and simulations were applied to identify optimal dosage regimens for antibiotics. As the emergence of bacterial resistance is increasing and as only a few new antibiotics became available during the last decade, optimal use of established agents and preserving their effectiveness seems vital. Objectives: 1) To find the descriptor of body size and body composition which allows to achieve target concentrations and target effects in patients with cystic fibrosis (CF) most precisely. 2) To identify the mode of administration with the highest probability of successful treatment for intravenous beta-lactams. 3) To develop formulas for optimal dose selection for patients of various body size. General methods: Drug analysis in plasma and urine was performed by HPLC or LC-MS/MS in a single laboratory, at the IBMP. Drug analysis was not done by the author of this thesis. We used non-compartmental analysis and parametric population PK analysis for all studies. We used non-parametric bootstrapping to assess the uncertainty of PK parameters for our meta-analysis of the PK in CF-patients and healthy volunteers. Plasma concentration time profiles for several thousand virtual subjects were simulated by MCS which account for average PK parameters, their between subject variability (BSV), and patient specific demographic data. Convincing literature data show that the duration of non-protein bound concentration above MIC (fT>MIC) best predicts the microbiological and clinical success of beta-lactams and the area under the non-protein bound concentration curve divided by the MIC (fAUC/MIC) best predicts success for quinolones. We used PKPD targets from literature that were based on the fT>MIC or fAUC/MIC, respectively. Achieving a PKPD target was used as a surrogate measure for successful treatment. In our MCS, we calculated the fT>MIC or fAUC/MIC for all simulated concentration profiles and compared it to the value of the PKPD target. The fraction of subjects who achieved the target at the respective MIC approximates the probability of target attainment (PTA). The PTA can be interpreted as probability of successful treatment under certain assumptions. Studies in CF-patients Methods: We had data from ten studies (seven beta-lactams and three quinolones) in CF-patients which all included a healthy volunteer control group. Clinical procedures were very similar for all ten studies. Both subject groups had study conditions as similar as possible. We had data on 90 CF-patients (average +/- SD, age: 21+/-3.6 yrs) and on 111 healthy volunteers (age: 25+/-3.5 yrs). We compared the average clearance and volume of distribution between CF-patients and healthy volunteers for various body size descriptors including total body weight (WT), fat-free mass (FFM), and predicted normal weight (PNWT). We considered linear and allometric scaling of PK parameters by body size and used a meta-analysis based on population PK parameters for the comparison of CF-patients and healthy volunteers. Target concentrations can be achieved more precisely, if a size descriptor reduces the random, unexplained BSV. Therefore, we studied the reduction of unexplained BSV for each size descriptor relative to linear scaling by WT, since doses for CF-patients are commonly selected as mg/kg WT. Results: Without accounting for body size, average total clearance was 15% lower (p=0.005) and volume of distribution at steady-state was 17% lower (p=0.001) in CF-patients compared to healthy volunteers. For linear scaling by WT, average total clearance in CF-patients divided by total clearance in healthy volunteers was 1.15 (p=0.013). This ratio was 1.06 (p=0.191) for volume of distribution. A ratio of 1.0 indicates that CF-patients and healthy volunteers of the same body size have identical average clearances or volumes of distribution. For allometric scaling by FFM or PNWT, the ratio of total clearance and volume of distribution between CF-patients and healthy volunteers was within 0.80 and 1.25 for almost all drugs and the average ratio was close to 1. Allometric scaling by FFM or PNWT reduced the unexplained BSV in renal clearance by 24 to 27% (median of 10 drugs) relative to linear scaling by WT. The unexplained BSV was reduced for seven or eight of the ten drugs by more than 15% and the remaining two or three drugs had essentially unchanged (+/-15%) unexplained BSVs in renal clearance. Conclusions: The PK in CF-patients was comparable to the PK in healthy volunteers after accounting for body size and body composition by allometric scaling with FFM or PNWT. Target concentrations and target effects in CF-patients can be achieved most precisely by dose selection based on an allometric size model with FFM or PNWT. Future studies are warranted to study the clinical superiority of allometric dosing by FFM or PNWT compared to dose selection as mg/kg WT in CF-patients.
There are numerous areas of application for which PKPD models are a valuable tool. We studied dose linearity, bone penetration and drug-drug interactions of antibiotics by PKPD modeling. Knowledge about possible saturation of elimination pathways at therapeutic concentrations is important for studying the probability of successful treatment of dosage regimens via MCS at various doses, other modes of administration, or both. We studied the dose linearity of flucloxacillin and piperacillin. For data analysis of the dose linearity studies, population PK modeling and MCS was used. Population PK has been reported to detect saturable elimination at lower doses, and to estimate BSV more precisely than the STS approach. The variability in PK and the expected variability in PD are combined in a MCS to predict the probability of successful treatment. Flucloxacillin showed no saturation of elimination at the studied doses of 500 mg and 1000 mg. Comparison of various dosage regimens showed, that only one third of the daily dose is needed with prolonged or continuous infusion to achieve the same probability of successful treatment as short-term infusions at the full dose. For serious infections with sensitive staphylococci that are treated with intravenous flucloxacillin, prolonged infusion and continuous infusion are an appealing treatment option. Contrary to flucloxacillin, renal elimination and to a lesser extent also nonrenal elimination of piperacillin were saturable at therapeutic concentrations. Renal clearance decreased by 24% (p = 0.02) after a dose of 3000 mg piperacillin compared to the 1500 mg dose. A model without saturable elimination predicted PTA expectation values that were 6 to 11% lower for high dose short-term infusions and 2 to 5% higher for low dose continuous infusions, compared to models with saturable elimination. These differences depend on the MIC distributions of the local hospital. However, more accurate estimates for the PTA expectation value can be obtained by including an existent saturable elimination pathway into the PK model. Developing a mechanistic model of an interaction allows one to predict the extent of the interaction for other doses of drug and inhibitor. We studied the interactions between gemifloxacin and probenecid, between ciprofloxacin, its metabolite M1 and probenecid, and between flucloxacillin and piperacillin. Mechanistic models for drug-drug interactions were developed by the STS approach. This approach directly accounts for the concentration dependence of an interaction and describes the full time course of an interaction. Probenecid significantly inhibited the renal elimination of gemifloxacin, ciprofloxacin and ciprofloxacin’s metabolite M1, and slightly decreased nonrenal clearance of gemifloxacin. Piperacillin significantly decreased renal and nonrenal clearance of flucloxacillin, but hardly vice versa. For all three interactions competitive inhibition of a capacity-limited renal elimination pathway was identified as the most likely mechanism. As those drugs are all actively secreted in the renal tubules, competitive interaction is physiologically reasonable. Probenecid had a lower affinity to the renal transporter than gemifloxacin, ciprofloxacin and M1. Due to its substantially higher concentrations, probenecid inhibited the elimination of the quinolones. The affinity of piperacillin for the renal transporter was 13 times higher compared to flucloxacillin. Piperacillin PK was only slightly affected by flucloxacillin. PK interactions with piperacillin are likely to occur also with other betalactam combinations. PK interactions may be useful to improve the PD profile of an antibiotic, however possibly increased risks for side effects (e.g. risk of rash for gemifloxacin and probenecid) have to be considered.
Conjugation of reactive intermediates of drugs with proteins or DNA may result in toxic effects such as hepatotoxicity, agranulocytosis, allergies, tumors, etc. From 1975 to 1999, 2.9% of drugs were withdrawn from the market due to such severe adverse drug reactions. Thus, formation of chemically reactive intermediates is a widely discussed problem in drug development processes. Early detection of potentially toxic compounds is required for drug discovery and drug development. Conjugation of such electrophilic compounds with glutathione (GSH) is one of the most important detoxifying reactions in vivo. Processing of these GSH-conjugates ultimately leads to the formation of renally cleared mercapturic acids, which may also be oxidized to sulfoxides. Thus, mercapturic acids may be generated and detected in vitro and non-invasively in vivo in urine to assess the reactivity of a compound in early stages of drug development processes. Therefore, the aim of this work was to develop and evaluate a HPLC-MS/MS screening method for simple and rapid detection and characterization of known and unknown mercapturic acids and application of the method to several different matrices. Based on the common constant neutral loss (CNL) of 129 Da of all mercapturic acids tested (in negative ion mode), a CNL survey scan was performed using a linear ion trap instrument and was combined with two enhanced product ion (EPI) scans with different collision energies to characterize the detected signals. The CNL resulted from the cleavage between the sulfur and the carbon atom in the N-acetyl-L-cysteine moiety. After optimization of the experimental parameters, the detection limits of the reference substances in rat urine ranged from 0.3 to 15.5 pmol on column (i.e. 20 ng/ml to 800 ng/ml). For in vitro evaluation of the method, the model compounds acetaminophen, diclofenac, bifonazole, clozapine, troglitazone, carbamazepine, and bisphenol A were screened for formation of reactive intermediates and, hence, detection of the corresponding mercapturic acids. To determine possible species- and tissue-specific toxicities, the model compounds were incubated with stimulated neutrophils and with liver microsomes from rats and humans. Species-specific differences were observed in incubations of acetaminophen and diclofenac with rat and human hepatic microsomes. Tissue-specific differences in biotransformation of the model compounds in incubations with human neutrophils and human liver microsomes were observed for diclofenac, carbamazepine, clozapine, and bifonazole. The developed HPLC-MS/MS method was also evaluated in vivo by analysis of rat and human urine. Drug-related mercapturic acids were detected in urine of rats orally treated with acetaminophen (20 mg/kg and 640 mg/kg b.w.) or diclofenac (10 mg/kg and 20 mg/kg b.w.). Human urine samples were analyzed before and after oral administration of a clinically used dose of 500 mg and 50 mg of acetaminophen. Besides detection of the mercapturic acid of N-acetylbenzoquinoneimine (AAP-MA), a second mercapturic acid with m/z 327 occurred dose-dependently in rat and human urine samples after administration of acetaminophen. Further investigations on identification of this metabolite using authentic compounds and comparing their MS/MS mass spectra demonstrated oxidation of AAP-MA to stereoisomeric sulfoxides in vivo. For diclofenac, a novel mercapturic acid with m/z 441 was detected in rat urine samples that was identical to a metabolite obtained in incubations with human neutrophils before. The in vivo formation of this diclofenac metabolite is described here for the first time. In addition, three endogenously formed mercapturic acids were detected and identified. In conclusion, the results of the in vitro and in vivo evaluation demonstrate the advantages of the rapid and generic HPLC-MS/MS screening method for the detection of mercapturic acids, that can be obtained with a minimum of sample preparation and a high throughput in diverse matrices.