The influence of acute and chronic administration of 1,2-dimethyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline on the function of the nigrostriatal dopaminergic system in rats.

The contribution of (R)-enantiomer of N-methyl-salsolinol (1,2-dimethyl-6,7-dihydroxy-1,2,3,4-tetrahydroisoquinoline; NMSal) to the degeneration of dopaminergic neurons in the course of Parkinson's disease (PD) has been predominantly suggested by in vitro experiments in cell culture and by an in vivo study in which this compound has been directly injected into the rat striatum. The aim of the present study was to examine the effects of racemic NMSal (50 and 100 mg/kg) administered systemically, acutely and chronically for 21 days to rats, on the neurochemical and behavioral markers of PD. Our results showed that racemic NMSal easily penetrated the blood-brain barrier. Its brain level was relatively high 2-6 h after a single injection than gradually decreased. NMSal was quickly eliminated from the rat brain, its concentration 24 h after withdrawal from chronic treatment was very low. NMSal at both examined doses did not affect striatal and nigral levels of dopamine (DA) 2 h after the first and last chronic injections, however, it markedly changed DA catabolism. In the striatum both its doses evoked a significant acceleration of the total and oxidative, monoamine oxidase (MAO)-dependent DA catabolism without affecting the catechol-O-methyltransferase (COMT)-dependent O-methylation. In the substantia nigra (SN), only the higher dose of NMSal produced such effect. DA catabolism in either structure was the same as in control 24 h after cessation of chronic treatment. The second characteristic marker of PD, the number of tyrosine hydroxylase-immunoreactive (TH-ir) neurons in the SN, was not affected by chronic NMSal treatment as revealed by the stereological counting. In the behavioral study, it was found that racemic NMSal significantly suppressed spontaneous locomotor activity and effectively prevented that stimulated by apomorphine. Our results suggest that NMSal may play an important role in the regulation of dopaminergic activity rather than in inducing changes of parkinsonian type.

Degeneration of dopaminergic mesocortical neurons and activation of compensatory processes induced by a long-term paraquat administration in rats: implications for Parkinson's disease.

A deficiency of the dopaminergic transmission in the mesocortical system has been suggested to contribute to cognitive disturbances in Parkinson's disease. Therefore, the aim of the present study was to examine whether the long-term administration of a commonly used herbicide, paraquat, which has already been found to induce a slowly progressing degeneration of the nigrostriatal neurons, influences mesocortical dopaminergic neurons in rats. Paraquat at a dose of 10 mg/kg i.p. was injected either acutely or once a week for 4, 8, 12 and 24 weeks. Acute treatment with this pesticide increased the level of homovanillic acid (HVA) and HVA/dopamine ratio in the prefrontal cortex. After 8 weeks of administration paraquat increased the number of stereologically counted tyrosine hydroxylase-immunoreactive (TH-ir) neurons and their staining intensity in the ventral tegmental area (VTA), which is a source of the mesocortical dopaminergic projection. At the same time, few TH-ir neurons appeared in different regions of the cerebral cortex: in the frontal, cingulate, retrosplenial and parietal cortices. Chronic paraquat administration did not influence the level of dopamine in the prefrontal cortex but increased the levels of its metabolites: 3,4-dihydroxyphenylacetic acid (after 8-12 weeks), HVA (after 4 and 12 weeks) and HVA/dopamine ratio (4 weeks). After 24 weeks this pesticide reduced the number of TH-ir neurons in the VTA by 42% and of the Nissl-stained neurons by 26%, and induced shrinkage of this structure by ca. 25%. Moreover, TH-ir neurons in the cortex were no more visible after such a long period of administration and levels of dopamine metabolites returned to control values. The present results suggest that the long-term paraquat administration destroys dopaminergic neurons of the VTA. However, compensatory activation of the VTA neurons and cortex overcomes progressing degeneration and maintains cortical dopaminergic transmission.

2,9-Dimethyl-beta-carbolinium, a neurotoxin occurring in human brain, is a potent inducer of apoptosis as 1-methyl-4-phenylpyridinium.

The causes of neurodegeneration are not well understood. However, the role of environmental and endogenous toxins is receiving much attention. In this study, we compared the synthetic neurotoxin 1-methyl-4-phenyl-pyridinium with beta-carbolines occurring in human brain. Methylation of both nitrogens is necessary to convert a beta-carboline into a potent inhibitor of mitochondrial complex I. The respective beta-carboline, 2,9-dimethyl-beta-carbolinium ion is neurotoxic in rats. To investigate the underlying mechanisms, we incubated mouse neuroblastoma 2A cells with 2,9-dimethyl-beta-carbolinium ion, and compared the findings with effects of norharman, the precursor beta-carboline of methylated derivatives, and with 1-methyl-4-phenyl-pyridinium. 2,9-Dimethyl-beta-carbolinium ion caused a significant increase of reactive oxygen species (higher efficiency than 1-methyl-4-phenyl-pyridinium) and of mitochondrial membrane potential within the first minutes. After 60 min, the membrane potential dissipated. Concomitantly, the levels of glutathione increased in 2,9-dimethyl-beta-carbolinium ion but not in 1-methyl-4-phenyl-pyridinium treated cells. After 24 h effector caspases 3 and 7 were activated and the number of apoptotic cells increased as revealed by fluorescence-activated cell sorting cytometry. When incubated longer (48 h), cells underwent late apoptosis/secondary necrosis as shown by fluorescence-activated cell sorting analysis and confirmed qualitatively by an electron microscopy study. The effects of 2,9-dimethyl-beta-carbolinium ion on apoptotic changes were similar to those induced by 1-methyl-4-phenyl-pyridinium(,) while norharman showed only a weak potency at the very high doses. To investigate whether 2,9-dimethyl-beta-carbolinium ion is neurotoxic under in vivo conditions and whether only dopaminergic neurones are affected we conducted a dose-response study. Three weeks after injection of 2,9-dimethyl-beta-carbolinium ion in the substantia nigra we found a dose-dependent decrease of dopamine and its metabolites in the striatum of rats. The levels of 5-hydroxytryptamine were diminished although the decrease was less. The levels of noradrenaline increased after some doses. The findings strongly suggest an important role of endogenous beta-carbolines in neurodegeneration with apoptosis as the predominant mechanism.

Psychopathological and behavioral correlates of dopaminergic sensitivity in alcohol-dependent patients.

OBJECTIVES: To explore 2 facets of dopamine receptor sensitivity in alcoholics: (1) whether reduced sensitivity of central dopamine receptors is correlated with anxiety, depression, or novelty seeking and (2) whether this reduction is associated with poor treatment outcome. METHOD: Sixty-four alcohol-dependent patients were assessed according to their clinical outcome, sensitivity of central dopamine receptors (apomorphine-induced growth hormone secretion), mood states, and personality traits before and after detoxification. RESULTS: Patients with poor treatment outcome displayed a blunted growth hormone response before, but not after, detoxification. Growth hormone response was not significantly correlated with novelty seeking. Relapsing patients tended to be less depressed than patients who remained abstinent during observation. CONCLUSION: This study did not support the hypothesis that reduced sensitivity of dopamine receptors is associated with anxiety, depressed mood, or high novelty seeking in alcoholism.

Influence of the dopamine D2 receptor (DRD2) genotype on neuroadaptive effects of alcohol and the clinical outcome of alcoholism.

The present study was performed to test the hypotheses that allelic variants at the human dopamine D2 receptor gene locus (DRD2) confer susceptibility to alcoholism or are associated with clinical subtypes of alcoholism. We investigated an A --> G substitution polymorphism in the 3'-untranslated region of exon 8 (E8) of DRD2 with allele frequencies of f(G) = 0.295 - 0.329. No significant association of the DRD2 genotype or allele frequencies with alcoholism was found in an association study including 283 alcoholics and 146 non-alcoholic controls. However, the frequent homozygous E8 A/A genotype with f(AA) = 0.47 - 0.48 was associated with increased anxiety and depression scores in alcoholics during the follow up after clinical detoxification treatment. In addition, E8 A/A was associated with increased suicide attempts and showed a tendency towards more severe withdrawal symptoms, early relapse and reduced responsiveness to the dopaminergic agonist apomorphine. Regression analysis revealed the DRD2 E8 genotype as the only significant factor determining withdrawal severity in female alcoholics. The findings suggest an influence of the DRD2 genotype on the neuropharmacological effects of chronic alcohol exposure and the clinical course of alcoholism.

The Tridimensional Personality Questionnaire and the intensity dependence of auditory evoked dipole source activity.

The relationship between the tridimensional personality questionnaire's (TPQ) dimensions "novelty seeking," "harm avoidance," and "reward dependence" and the intensity dependence of the auditory evoked N1/P2-component was investigated in healthy subjects. Using dipole source analysis, evoked activity of the primary auditory cortex (tangential dipole) could be analyzed at least in part separately from that of secondary auditory areas (radial dipole). It was found that the intensity dependence of the tangential dipole was positively correlated to the TPQ dimension "novelty seeking," but not to "harm avoidance" and "reward dependence." This is in line with findings concerning similar personality traits like "sensation seeking," "impulsivity," or "extraversion." It is therefore concluded that a strong intensity dependence may characterize subjects with an action-oriented and extroverted personality style. The results are discussed within the concept that a low central serotonergic neurotransmission is underlying both an impulsive personality type and a strong intensity dependence of the tangential dipole.

Reduced dopaminergic function in alcoholics is related to severe dependence.

With a view to the role of dopamine (DA) systems in reward processes and considering recent studies linking specific alleles at the DA-D2 receptor gene locus with alcoholism (especially with severe types) dopaminergic functions were evaluated in 49 alcoholics using growth hormone (GH) response to DA receptor agonist apomorphine (0.01 mg/kg subcutaneously). neuroendocrine testing was performed (during intoxication) at the time of admission to an inpatient alcohol treatment program and was repeated 7 days later (in a postintoxicated state). Patients underwent clinical examination, detoxification treatment and a subsequent rehabilitation program for abstinence including follow-up evaluation of outcome for 6 months. A two-factor analysis of variance (ANOVA) revealed a significant change of GH response (peak values corrected for baseline) over time (between intoxication and postintoxication; p < 0.001) and between abstainers and relapsers (p = 0.032). Relapse was also associated with paternal alcoholism, early onset of disease, and a more complete dependence syndrome and cerebellar atrophy. Standardized canonical discriminant coefficient was highest for reduced GH response compared to other relapse predictors in the model used. It is concluded that reduced GH response to dopaminergic stimulation corresponds to a progressed stage or syndrome of severe alcohol dependence; however, if reduced, dopaminergic function is one cause or consequence of addiction in this particular subgroup of patients that remains to be elucidated.

Allelic association of a dopamine transporter gene polymorphism in alcohol dependence with withdrawal seizures or delirium.

Hereditary factors confer susceptibility to alcohol dependence. Alcohol mediates its reinforcing effects by enhancing dopamine activity in the mesolimbic dopamine system. The role of the dopamine transporter in terminating dopaminergic activity in synaptic neurotransmission suggests that variants of the dopamine transporter gene (DAT1) might contribute to individual differences in vulnerability to addictive behavior. Our population-based association study investigated whether variants of DAT1 confer susceptibility to alcohol dependence in 293 alcoholics and clinically more homogeneous subgroups formed by: positive family history, early age-at-onset, delirium, withdrawal seizures, antisocial tendencies, type 1 and 2 alcoholics. Analyzing a VNTR polymorphism in the 3' untranslated region of DAT1, we found a significantly increased prevalence of the nine-repeat allele in 93 alcoholics displaying withdrawal seizures or delirium, compared with 93 ethnically matched nonalcoholic controls (p = 0.003; OR = 2.44; 95% confidence interval: 1.35-4.43). Our data provide evidence that a major genetic determinant of DAT1 influences vulnerability to severe alcohol withdrawal symptoms.

Serotonin transporter gene variants in alcohol-dependent subjects with dissocial personality disorder.

BACKGROUND: We tested the hypothesis that a functional biallelic repetitive element in the 5' regulatory region of the human serotonin transporter gene (SLC6A4) confers susceptibility to serotonin-related personality traits underlying alcohol dependence with dissocial behavior. METHODS: The association study was focused on 64 alcohol-dependent subjects with a dissocial personality disorder (according to ICD-10) who were derived from 315 German alcohol-dependent subjects. The Tridimensional Personality Questionnaire (TPQ) was applied to assess personality dimensions in 101 alcohol-dependent men, including 39 dissocial alcoholics. RESULTS: Our association analyses revealed a trend towards a higher frequency of the short (S) allele of the SLC6A4 polymorphism in dissocial alcoholics compared to 216 German controls (chi 2 = 2.81, df = 1, p = 0.094). Dissocial alcoholics carrying the S/S genotype exhibited significant lower scores of harm avoidance compared to those lacking it (U-test, p = 0.015). Significantly higher novelty seeking scores were obtained in dissocial alcoholics carrying the S allele relative to those lacking it (U-test, p = 0.021). CONCLUSIONS: Our tentative association findings in dissocial alcoholics suggest that the S allele of the 5' regulatory SLC6A4 polymorphism confers susceptibility to a temperamental profile of high novelty seeking and low harm avoidance that has been postulated to underlie dissocial (type-2) alcoholism according to Cloninger's neurogenetic theory of personality.

Dopamine D2 receptor gene (DRD2) haplotypes in Caucasians.

The human dopamine D2 receptor gene (DRD2) is considered a candidate gene for neuro-psychiatric diseases. We typed three new DNA sequence variants in DRD2 intron 4, intron 6 and exon 8, in combination with the known TaqI A restriction fragment length polymorphism (RFLP) and exon 7 311Ser/Cys in 106 unrelated psychiatrically healthy Caucasians. Based on the genotypic data we delineated 10 distinct DRD2 haplotypes and their genetic relationship. Our data provide evidence that the Taq A1 allele and the 311Cys variant are components of different groups of haplotypes though both variants have been speculated to be associated with alcoholism or schizophrenia in recent studies. Therefore we conclude that the prior knowledge of the frequencies and genetic relationships of DRD2 haplotypes will lead to the selection of more suitable intragenic markers for future association studies.

Modification of alcohol withdrawal by the A9 allele of the dopamine transporter gene.

OBJECTIVE: Determinants of individual vulnerability to alcohol withdrawal symptoms are largely unknown. Because of the substantial role of monoaminergic transporters in limiting time and space effects of synaptic neurotransmission, the dopamine transporter gene (DAT1; locus symbol: SLC6A3) was studied as a candidate gene possibly related to symptoms of uncomplicated alcohol withdrawal. METHOD: In 48 chronically intoxicated alcoholics (diagnosed according to ICD-10), withdrawal symptoms were examined and the presence of a variable-number tandem repeat in the 3' untranslated region of the DAT1 gene was determined. RESULTS: Withdrawal syndromes were more pronounced in the 22 patients carrying the nine-copy repeat than in the 26 patients without this variant. Multiple regression analysis revealed that 4% of the variance of withdrawal was explained by this genotype, whereas 16% was due to the amount of alcohol the patients reported having consumed in the month before detoxification. CONCLUSIONS: The A9 allele of the dopamine transporter gene is associated with more severe effects of alcohol withdrawal, possibly because of modifications of the brain's capacity to compensate for long-term effects of ethanol on cerebral function.

Dopaminergic responsivity in alcoholism: trait, state, or residual marker?

OBJECTIVE: In order to classify neuroendocrine abnormalities in alcohol-dependent patients as trait, state, or residual markers, growth hormone (GH) secretion was assessed longitudinally. METHOD: GH secretion, stimulated by the dopaminergic agonist apomorphine, was evaluated in 21 alcohol-dependent patients (16 men, five women) and 10 healthy comparison subjects (eight men, two women). The patients were tested during early withdrawal, after 8 days of abstinence, and after 3 months. RESULTS: Patients who relapsed within 3 months (N = 8) showed significantly less GH secretion in all neuroendocrine tests than did either the patients who abstained from ethanol consumption for 6 months (N = 13) or the healthy comparison subjects. The relapsers and abstainers did not differ significantly in any of their clinical or pathophysiological data, in the severity of their withdrawal symptoms, or in antecedent or concomitant illnesses associated with alcoholism. CONCLUSIONS: GH blunting appears to be a residual marker of clinical relevance in alcoholism.

Superiority of carbohydrate-deficient transferrin to gamma-glutamyltransferase in detecting relapse in alcoholism.

OBJECTIVE: The usefulness of carbohydrate-deficient transferrin is widely accepted in screening (male) population samples for heavy alcohol consumption, but its role in relapse detection is not convincingly established. The authors therefore compared the diagnostic value of carbohydrate-deficient transferrin with the commonly used gamma-glutamyltransferase in identifying relapsed alcoholics during outpatient aftercare. METHOD: The patients were 101 male alcoholics who entered a 6-month rehabilitation program after hospital detoxification. Drinking status was assessed by means of self- and collateral reports obtained during regular contacts with the rehabilitation team; relapse was defined as consumption of any alcohol. Visits occurred weekly during month 1, biweekly during month 2, and every 4 weeks during months 3-6. At every visit a blood sample was taken for measurement of carbohydrate-deficient transferrin and gamma-glutamyltransferase. RESULTS: The proportion of men who reported relapse was 25.6% per scheduled contact on average. Positive predictive values indicated that relapse was identified with a 76.2% probability by carbohydrate-deficient transferrin values above the upper normal limit, in contrast to a 32.9% chance with gamma-glutamyltransferase. Carbohydrate-deficient transferrin was especially useful in detecting early relapses during the initial rehabilitation phase, when gamma-glutamyltransferase values had not normalized. Because of the longer half-life of gamma-glutamyltransferase, it had some value with a 4-week monitoring schedule in detecting new drinking episodes in alcoholics whose previous results had been normal. CONCLUSIONS: Carbohydrate-deficient transferrin proved to be superior to gamma-glutamyltransferase in relapse detection in an outpatient care setting for alcoholics.

The effect of ethanol and haloperidol on dopamine receptor (D2) density.

The study was performed to investigate the influence of ethanol on haloperidol-induced changes of the dopamine (D2) receptors in rat striatal membrane preparations. Subchronic administration of the neuroleptic in the drinking water resulted in an increase of the number of binding sites in a dose-dependent manner. Simultaneous treatment with both haloperidol and ethanol prevented the rise of D2 receptors.

The natural beta-carbolines facilitate inositol phosphate accumulation by activating small G-proteins in human neuroblastoma cells (SH-SY5Y).

The naturally occurring beta-carbolines exert psychotropic actions in humans and have numerous behavioral effects in animals. The known in vitro activities of these substances do not provide a satisfactory explanation for their in vivo effects. The present study was undertaken to explore the possibility of a specific signal transduction pathway. The human neuroblastoma cell line SH-SY5Y was used as a model system. High-affinity binding sites for [3H]norharman (synonymous: beta-carboline) were detected. Pharmacological characterization revealed displacement of the ligand by beta-carbolines, to a weaker extent by indoleamines, but not by opioids, muscarinic receptor agonists, metabotropic glutamate receptor agonists or several peptide neurotransmitters. Inositol phosphate accumulation was only slightly affected by the beta-carbolines. However, the action of carbachol was clearly facilitated in a dose-dependent and pertussis toxin-insensitive manner. Pretreatment of the cells with Clostridium difficile toxin B blocked the facilitating effect of the beta-carbolines by concentrations which did not affect the action of carbachol alone. This suggests that low molecular weight GTP-binding proteins are involved in the facilitating action of the beta-carbolines. This mechanism was further supported by experiments measuring the concentrations of phosphatidylinositol phosphates after various activating compounds. In conclusion, the facilitating effect of beta-carbolines on inositol phosphate accumulation could play a part in the actions of beta-carbolines and may be produced by stimulating the generation of phosphatidylinositol-4,5-bisphosphate (PtdIns-4,5-P2), the key component in the activation of phosphoinositide-phospholipase C.

Long-term changes of markers of alcoholism after orthotopic liver transplantation (OLT).

Both physical rehabilitation and the course of the alcoholism improve after orthotopic liver transplantation (OLT) in patients with end-stage alcoholic liver cirrhosis. In the present study including 17 alcoholics and 14 nonalcoholics, after OLT, three of the alcoholic patients resumed their pre-OLT alcohol drinking habits, 4 consumed alcohol occasionally, 10 remained abstinent over the observation period of 13 to 36 months. The laboratory parameters before OLT did not discriminate alcoholics from nonalcoholic patients. Furthermore, the blood levels of two so-called alcogens (harman and norharman) were determined to investigate whether they discriminate between the two groups. Alcogens are natural compounds that are presumed to induce alcohol abuse in predisposed individuals. Both alcogens measured were elevated in plasma from nonalcoholics and alcoholics before OLT, suggesting a disturbance in inactivation in end-stage liver disease. Following OLT, the alcogens normalized but in the alcoholics this process was slower with respect to harman. The present exploratory study suggests that the normalized metabolic capacity of the liver after OLT causes a normalization of the levels of alcogens, for which harman and norharman are representative. These changes could contribute to the observed benefit to the outcome in alcoholics with respect to the alcohol dependence.

The strong inhibition of triosephosphate isomerase by the natural beta-carbolines may explain their neurotoxic actions.

The natural beta-carbolines (BC) closely resemble the neurotoxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) in structure. The N-methylated beta-carbolinium ions (BC+) are potent inhibitors of mitochondrial respiration and are nigrostriatal neurotoxins. Utilizing [3H]BC, we have identified several proteins to which BC binds with high affinity (e.g. the chaperone member glucose regulated protein 78, the enzyme carboxylesterase, the cytochrome P450 2E1, the enzyme monoamine oxidase B and a small G-protein of the Rho subfamily). In the present study we isolated a protein from bovine brain to which [3H]BC binds with high affinity and identified it being the enzyme triosephosphate isomerase (TPI; EC 5.3.1.1.). 2,9-Dimethyl-BC+ was the most potent inhibitor of TPI, clearly more potent than the known inhibitors. TPI deficiency is a rare disorder in humans characterized by a severe progressive extrapyramidal course. Thus, TPI inhibition could contribute to neurodegeneration observed after injection of BCs into substantia nigra. Furthermore, the findings fit into the hypothesis of BCs as endogenous toxins responsible for neurodegeneration.

The high-affinity binding of [3H]norharman ([3H]beta-carboline) to the ethanol-inducible cytochrome P450 2E1 in rat liver.

High-affinity binding sites of [3H]norharman (synonymous: [3H]beta-carboline) were characterized in microsomal membranes from rat liver utilizing various beta-carboline (BC) derivatives and substances binding to enzymes of the cytochrome P450 (CYP) superfamily (EC 1.14.14.1). Saturation experiments demonstrated that [3H]norharman binds with high-affinity (dissociation constant 20.86 nM; maximum binding 21.40 pmol/mg protein). Displacement experiments with the beta-carboline derivatives 6-methyl-BC and 6-hydroxy-BC revealed a better adaptation to the two-site model, indicating that [3H]norharman binds to at least two sites, with an affinity of the high-affinity site in the low nM range. Substances binding with relative preference to isozymes of the CYP superfamily displaced [3H]norharman with a lesser potency than unlabeled norharman. Imidazole, pyrazole, and 4-methylpyrazole, known as inducers of the ethanol-inducible CYP2E1, displaced [3H]norharman with relative high potency. Furthermore, binding experiments with microsomes from human lymphoblast-expressed rat CYP2E1 revealed a high-affinity binding site [inhibition constant (Ki) 13.21 nM] comparable to that of microsomal membranes for norharman. It was displaceable by ethanol (Ki 14.25 microM), indicating that norharman and ethanol bind to the same binding site on CYP2E1. In vivo experiments with rats which had ingested ethanol for two weeks revealed that norharman blood plasma levels were significantly elevated at the end of this period, supporting the notion of an interaction of norharman and ethanol metabolism. Since it has been demonstrated in the Ames test that norharman's comutagenic action is connected with microsomal membranes (containing CYP isozymes), the present findings suggest that the observed increase in the levels of norharman in alcoholics leads to further CYP enzyme induction and thereby contributes to the increased risk of carcinomas in these patients.

Thiazolidine derivatives as source of free L-cysteine in rat tissue.

The present study demonstrates that a variety of thiazolidine-4-(R)-carboxylic acids (TDs) which are the products of reactions of L-cysteine (cys) with carbonyl compounds could serve as a "delivery" system for cys to the cell. Liberation of the amino acid can occur enzymatically as well as non-enzymatically. The two possibilities have been proven by identification of representative compounds. The most specific substrate for mitochondrial enzymatic oxidation was thiazolidine-4-carboxylic acid (CF), the product of the reaction of cys with formaldehyde, and the least metabolized TD was 2-methyl-thiazolidine-4-carboxylic acid (CA), the product of the reaction of cys with acetaldehyde. TDs formed from cys and different sugars were not metabolized at all in mitochondria. N-Formyl-L-cysteine (NFC) the intermediate product of mitochondrial metabolism of CF was ascertained by 1H-NMR spectroscopy whereas N-acetyl-L-cysteine (NAC), the predicted metabolite of CA, was not detected, possibly due to a fast turnover. The further enzymatic hydrolysis of NFC as well as NAC to free cys was demonstrated to take place in the cytoplasm. Non-enzymatic hydrolysis of TDs depended on the chemical nature of the substituents in the thiazolidine (Th) ring. The most stable compound was unsubstituted Th and the least stable were CGlu(D) and CA. Following non-enzymatic ring opening and hydrolysis, CA was converted to methyl-djenkolic acid, which equilibrates with CA. We have identified this new compound by 1H-NMR spectroscopy. TDs may cause both a decrease and an increase in the levels of SH-groups in mitochondria. In the case of the stable CF, which is metabolized only enzymatically, an increase in the levels of SH-groups in mitochondria was observed. This suggests that enzymatic control of the breakdown of TDs prevents overflowing of the cell with thiol groups. The latter seems to be induced by high concentrations of those TDs which are hydrolysed non-enzymatically. This process leads finally to a decrease in free SH-groups by different mechanisms. The findings demonstrate two different mechanisms by which TDs can provide cys to the cells. The biological and pharmacological consequences are discussed.

Activation by beta-carbolines of G-proteins in HL-60 membranes and the bovine retinal G-protein transducin in a receptor-independent manner.

Naturally occurring beta-carbolines are lipophilic compounds which show psychotropic and physiological effects in mammals. They bind to distinct high-affinity binding sites in various mammalian tissues. However, the mechanism by which the beta-carbolines affect transmembrane signal transduction processes is still unknown. Since beta-carbolines are cationic-amphiphilic substances and since such substances are known to activate heterotrimeric regulatory guanine nucleotide binding proteins (G-proteins) in a receptor-independent manner, we put forward the hypothesis that beta-carbolines act directly on G-proteins. Therefore, we investigated the ability of beta-carbolines to stimulate high-affinity GTP hydrolysis in membranes of dibutyryl-cAMP differentiated HL-60 cells and of the purified bovine G-protein, transducin (TD). The beta-carbolines norharman and harman, stimulated the GTPase in HL-60 membranes with an EC50 of 410 microM and 450 microM, respectively, and a maximum effect at 1 mM each. Norharman and harman stimulated the GTPase of TD with an EC50 of 60 microM and 300 microM, and a maximum at 1 mM for both compounds. The stimulatory effect of norharman in HL-60 membranes was pertussis toxin-sensitive. Structure/activity characteristics of the beta-carbolines showed a specificity of norharman to stimulate the GTPase of TD, because norharman activated GTP hydrolysis in HL-60 membranes approximately 7 times less potently than that of TD. Norharman was a five-fold more potent activator of TD than tetrahydronorharman. Hydroxylation of the beta-carboline molecule in position 6 led to a loss of GTPase-activating properties. Our data suggest that naturally occurring beta-carbolines are a novel class of receptor-independent G-protein activating substances. This mechanism could contribute to their diverse biological effects.