Increased frequency of acetaldehyde-induced sister-chromatid exchanges in human lymphocytes treated with an aldehyde dehydrogenase inhibitor

Acetaldehyde, the first metabolite of ethanol oxidation, in concentrations ranging from 100 microM to 400 microM caused a dose-dependent linear increase in the frequency of sister-chromatid exchanges (SCE) in cultured human peripheral lymphocytes. The SCE frequency was on an average 2-fold higher when the cells were exposed to the acetaldehyde after 24 h incubation instead of at the time of mitogen stimulation (0 h). When acetaldehyde was added together with the potent aldehyde dehydrogenase inhibitor 1-aminocyclopropanol (0.1 mM), the SCE response was significantly (p less than 0.05) increased. The present results indicate that acetaldehyde is metabolized within human lymphocytes, and, moreover, that alcohol consumption during treatment with drugs that inactivate aldehyde dehydrogenase may cause a further increased incidence of acetaldehyde-induced SCE and concomitant lesions.     

The role of aldehyde dehydrogenases in the malonic dialdehyde metabolism in the rat liver

The enzymes catalyzing the NAD-dependent oxidation of malonic dialdehyde (MDA) were isolated from rat liver extracts. Upon 5'-AMP-Sepharose chromatography MDA dehydrogenase was separated into two isoforms, I and II. Isoform I was eluted from the affinity carrier with a 0.1 M phosphate buffer pH 8.0. This isoform had a broad substrate specificity towards aliphatic and aromatic aldehydes. Kinetic studies showed that short- and medium-chain aliphatic aldehydes (C2-C6) were characterized by the lowest Km values and the highest Vmax values. The Km' values for MDA and acetaldehyde were 2.8 microM and 0.69 microM, respectively. Isoform II was eluted with a 0.1 M phosphate buffer pH 8.0 containing 0.5 mM NAD, was the most active with medium- and long-chain aliphatic aldehydes (C6-C11) and had Km values for MDA and acetaldehyde equal to 37 microM and 52 microM, respectively. Isoform I was much more sensitive towards disulfiram inhibition than isoform II. Both isoforms had an identical molecular mass (93 kD) upon gel filtration. It is concluded that MDA dehydrogenase isoform I is identical to mitochondrial aldehyde dehydrogenase having a low Km for acetaldehyde, whereas isoform II may be localized in liver cytosol. The role of aldehyde dehydrogenases in the metabolism of aldehydes derived from lipid peroxidation is discussed.     

Effects of UV-irradiation on the SCE frequency in human lymphocyte cultures

UV-irradiation (254 nm) was found to induce a smaller increase of SCE in human lymphocytes than in human fibroblasts and CHO cells. The UV-induced SCE frequency in human lymphocytes was not influenced by the duration between irradiation and the subsequent S-phase. UV-irradiated lymphocytes showed a slightly more than additive response to the SCE-inducing effect of HN2 and acetaldehyde in comparison with non-irradiated cells. The UV-induced SCE frequency was similar in lymphocyte cultures containing 20 and 100 microM of BrdUrd. The results suggest that human lymphocytes are relatively insensitive to the SCE-inducing effect of UV-irradiation, and that SCE-inducing damage caused by UV is not removed during the G1 phase in these cells.     

Human class I alcohol dehydrogenases catalyze the interconversion of alcohols and aldehydes in the metabolism of dopamine

The class I human liver alcohol dehydrogenases (ADHs) catalyze the interconversion of the intermediary alcohols and aldehydes of dopamine metabolism in vitro, whereas those of the class II and class III do not. The individual, homogeneous class I isozymes oxidize (3,4-dihydroxyphenyl)ethanol and (4-hydroxy-3-methoxyphenyl)ethanol (HMPE) and ethanol with kcat/Km values in the range from 16 to 240 mM-1 min-1 and from 16 to 66 mM-1 min-1, respectively. They reduce the corresponding dopamine aldehydes (3,4-dihydroxyphenyl)acetaldehyde and (4-hydroxy-3-methoxyphenyl)acetaldehyde (HMPAL) with kcat/Km values varying from 7800 to 190,000 mM-1 min-1, considerably more efficient than the reduction of acetaldehyde with kcat/Km values from 780 to 4900 mM-1 min-1. For beta 1 gamma 2 ADH, ethanol competes with HMPE oxidation with a Ki of 23 microM. In addition, 1,10-phenanthroline inhibits HMPE oxidation and HMPAL reduction with Ki values of 20 microM and 12 microM, respectively, both quite similar to that for ethanol, Ki = 22 microM. Thus, both ethanol/acetaldehyde and the dopamine intermediates compete for the same site of ADH, a basis for the ethanol-induced in vivo alterations of dopamine metabolism.     

Polymorphism of aldehyde dehydrogenase and alcohol sensitivity

The metabolism of acetaldehyde has received considerable attention in the past years owing to its acute and chronic toxic effects in humans. Aldehyde dehydrogenase (ALDH) catalyzes the oxidation of acetaldehyde in liver and other organs. Two major isozymes of hepatic ALDH (ALDH I or E2 and ALDH II or E1), which differ in their structural and functional properties, have been characterized in humans. The ALDH I with a low Km for acetaldehyde is predominantly of mitochondrial origin and ALDH II which has a relatively higher Km is of cytosolic origin. An inherited deficiency of ALDH I isozyme has been found among Japanese and Chinese which is primarily responsible for producing acute alcohol sensitivity symptoms (flushing response) after drinking mild doses of alcohol. Biochemical, immunochemical and molecular genetics data indicate a structural mutation in the ALDH I isozyme gene responsible for the loss in catalytic activity. Population genetic studies indicate a wide prevalence of this ALDH polymorphism among individuals of Mongoloid race. Flushing response to alcohol shows familial resemblances and preliminary family data from Japan, China and Korea hint to an autosomal codominant inheritance for ALDH I isozyme deficiency. The ALDH polymorphism is apparently responsible for the low incidence of alcoholism in Japanese, Chinese and Koreans. Alcohol-induced sensitivity due to ALDH isozyme deficiency may act as an inhibitory factor against excessive alcohol drinking thereby imparting a protection against alcoholism.     

Metabolism of 2-oxoaldehyde in mold. Purification and characterization of two methylglyoxal reductases from Aspergillus niger

Two kinds of methylglyoxal reductases were purified to apparent homogeneity from Aspergillus niger and designated MGR I and MGR II. Both enzymes consisted of a single polypeptide chain with a relative molecular mass of 36,000 (MGR I) and 38,000 (MGR II). NADPH was specifically required for the activities of both enzymes and Km values for NADPH were 54 microM (MGR I) and 6.8 microM (MGR II). MGR I was specific to 2-oxoaldehydes [glyoxal, methylglyoxal (Km = 15.4 mM) and phenylglyoxal], whereas MGR II was active on both 2-oxoaldehydes [glyoxal (Km = 10 mM), methylglyoxal (Km = 1.43 mM), phenylglyoxal (Km = 4.35 mM) and 4,5-dioxovalerate] and some aldehydes (propionaldehyde and acetaldehyde). Optimal pH values for MGR I and MGR II activities were 9.0 and 6.5 respectively. Both enzymes were inactivated by a brief incubation with 2-oxoaldehydes (glyoxal, methylglyoxal and phenylglyoxal) in the absence of NADPH. MGR I activity was competitively inhibited by NADP+ and the Ki value for NADP+ was calculated to be 0.49 mM. On the other hand, the inhibition of MGR II activity by NADP+ was of mixed type, the Ki value for NADP+ being 45 microM. MGR I was different from MGR II in amino acid composition.     

Three different proteins exhibiting NAD-dependent acetaldehyde dehydrogenase activity from Alcaligenes eutrophus

The existence of three different proteins exhibiting NAD-dependent acetaldehyde dehydrogenase activity was confirmed in Alicaligenes eutrophus. The fermentative alcohol dehydrogenase, which also exhibits acetaldehyde dehydrogenase activity, is one of these proteins. The other two proteins were purified from A. eutrophus N9A mutant AS4 grown on ethanol applying chromatography on DEAE-Sephacel and triazine-dye affinity media. Acetaldehyde dehydrogenase II, which amounts to about 14% of the total soluble protein in cells grown on ethanol, was purified to homogeneity. The relative molecular masses of the native enzyme and of the subunits were 195,000 or 56,000, respectively. This enzyme exhibits a high affinity for acetaldehyde (Km = 4 microM). Acetaldehyde dehydrogenase I amounts only to less than 1% of the total soluble protein. The relative molecular masses of the native enzyme and of the subunits were 185,000 and 52,000, respectively. This enzyme exhibits a low affinity for acetaldehyde (Km = 2.6 mM). Antibodies raised against acetaldehyde dehydrogenase II did not react with acetaldehyde dehydrogenase I. Two different strains, A. eutrophus N9A mutant AS1, which represents a different mutant type and can utilize both ethanol or 2,3-butanediol, and the type strain of A. eutrophus (TF93), which can utilize ethanol, form two acetaldehyde dehydrogenases during growth on ethanol, too. As in AS4, one of these enzymes from each strain amounted to a substantial portion of the total soluble protein in the cells. These major acetaldehyde dehydrogenases were purified from both strains; they resemble acetaldehyde dehydrogenase II isolated from AS4 in all relevant properties. Antibodies against the enzyme isolated from AS4 gave identical cross-reactions with the enzymes isolated from AS1 and TF93.     

Carbonic anhydrase inhibitors. Inhibition of the cytosolic and tumor-associated carbonic anhydrase isozymes I, II, and IX with a series of 1,3,4-thiadiazole- and 1,2,4-triazole-thiols

A series of heterocyclic mercaptans incorporating 1,3,4-thiadiazole- and 1,2,4-triazole rings have been prepared and assayed for the inhibition of three physiologically relevant carbonic anhydrase (CA, EC 4.2.1.1) isozymes, the cytosolic human isozymes I and II, and the transmembrane, tumor-associated hCA IX. Against hCA I the investigated thiols showed inhibition constants in the range of 97 nM to 548 microM, against hCA II in the range of 7.9-618 microM, and against hCA IX in the range of 9.3-772 microM. Thiadiazoles were generally more active than triazoles against all investigated isozymes. Generally, the best inhibitors were the simple derivative 5-amino-1,3,4-thiadiazole-2-thiol and its N-acetylated derivative, which were anyhow at least two orders of magnitude less effective inhibitors when compared to the corresponding sulfonamides, acetazolamide, and its deacetylated derivative. An exception was constituted by 5-(2-pyridylcarboxamido)-1,3,4-thiadiazole-2-thiol, which is the first hCA I-selective inhibitor ever reported, possessing an inhibition constant of 97 nM against isozyme I, and being a 105 times less effective hCA II inhibitor, and 3154 times less effective hCA IX inhibitor. Thus, the thiol moiety may lead to effective CA inhibitors targeting isozyme I, whereas it is a less effective zinc-binding function for the design of CA II and CA IX inhibitors over the sulfonamide group.     

Luteinizing hormone releasing activity of [Gln8]-LHRH and [His5, Trp7, Tyr8]-LHRH in the cockerel, in vivo and in vitro

The luteinizing hormone (LH)-releasing activity of two distinct chicken luteinizing hormone releasing hormones ([Gln8]-LHRH and [His5, Trp7, Tyr8]-LHRH) were evaluated in white Leghorn cockerels. In the first study, thirty birds were randomly allotted to five groups and injected, i.v., with 0.9% saline, [Gln8]-LHRH (cLHRH I, 1 microM or 10 microM) or [His5, Trp7, Tyr8]-LHRH, (cLHRH II; 1 microM or 10 microM). Blood samples were drawn prior to and through 60 min following the injection, and plasma was collected for LH determination. In the second study, anterior pituitary cells from cockerels were dispersed and preincubated for 1 hr. Approximately 1.5 X 10(5) cells per tube were incubated with either Medium 199 buffer (control), 8-bromo-cAMP or various doses of cLHRH I or cLHRH II at final concentrations ranging from 0.02 to 100.0 nM. At the end of a two hour incubation, supernatant was collected and the concentration of LH determined. Injection of cLHRH I or cLHRH II at 1 microM and 10 microM levels caused a significant increase in blood LH concentrations which peaked 5 min following injection. There were, however, no differences between the stimulatory effect of cLHRH I compared to cLHRH II at either dose. On the other hand, cLHRH II was found to be 4.7 times more potent than cLHRH I in stimulating LH release from dispersed pituitary cells. It is suggested that cLHRH II may have greater affinity for the gonadotroph receptor, greater uptake by the cell, and/or that it may be more resistant to in vitro degradation than cLHRH I. On the other hand, an extra pituitary site of degradation may be more effective in metabolizing cLHRH II, resulting in its equipotency with cLHRH I, in vivo.     

Polymorphic haplotypes and recombination rates at the LDL receptor gene locus in subjects with and without familial hypercholesterolemia who are from different populations.

RFLPs at the low-density lipoprotein (LDL) receptor locus for TaqI, StuI, HincII, AvaII, ApaLI (5' and 3'), PvuII, and NcoI were studied in Swiss and German families with familial hypercholesterolemia (FH). A total of 1,104 LDL receptor alleles were analyzed using Southern blotting and new PCR-based techniques for detection of the TaqI, StuI, HincII, AvaII, NcoI RFLPs. Two hundred fifty-six independent haplotypes from 368 individuals of 61 unrelated Swiss families, as well as 114 independent haplotypes from 184 subjects of 25 unrelated German families, were constructed. In 76 families, clinical diagnosis of FH was confirmed by cosegregation analysis. Of the 43 unique haplotypes consisting of seven RFLPs detected in the Swiss and Germans, only 9 were common in both population samples. Analysis of linkage disequilibrium revealed nonrandom associations between several of the investigated RFLPs. ApaLI (5'), NcoI, PvuII, TaqI, and AvaII or HincII were particularly informative (cumulative informativeness .85). Relative frequencies, heterozygosity indexes, and PICs of the RFLPs from the Swiss and Germans were compared with values calculated from reported haplotype data for Italians, Icelanders, North American Caucasians, South African Caucasians, and Japanese. Pairwise comparisons of population samples by common RFLPs demonstrated unexpected differences even between geographically adjacent populations (e.g., the Swiss and Germans). Furthermore, genetic distances from the Germans to the other Caucasians were larger than to the Japanese. An unexpected lack of correlation between linkage disequilibria and physical distances was detected for the German and Japanese data, possibly because of nonuniform recombination with excessively high rates between exon 13 and intron 15. Hence, the present study revealed a striking variety of polymorphic haplotypes and heterogeneity of RFLP frequencies and recombination rates among the seven population samples.     

Effect of tissue culture variables on sister chromatid exchange in a nontransformed rat cell line

The frequency of sister chromatid exchange (SCE) was determined in a nontransformed diploid rat cell line, FR3T3 , under several tissue culture variables such as cultivation temperature, growth conditions of cells, and concentrations of 5-bromo-2'-deoxyuridine (BrdU). The conclusions to be drawn from these experiments are: (a) The cell growth and mechanisms(s) of SCE formation in FR3T3 cells are largely temperature independent (or efficiently regulated) in the range between 33 and 40.5 degrees C. (b) The concentration limits for BrdU incorporation are 5 to 100 microM; baseline frequency is about 11 SCE/metaphase (constant up to 20 microM BrdU) and increases only moderately at higher BrdU concentrations. (c) Toxic levels of BrdU (150 microM) cause a decrease of SCE rates below that found at 100 microM, presumably due to selective cell death. (d) Keeping cells growth arrested over a long period causes substantial SCE induction after replating. (e) Induced increase of SCEs probably occurs in this manner during the first cell cycle after release from growth arrest. It is no longer detectable after the fourth consecutive cell division.     

Reversible acetaldehyde inhibition of A23187-stimulated amylase secretion from isolated rat pancreatic acini

The Ca2+ ionophore, A23187, stimulated amylase secretion from isolated rat pancreatic acini in a dose-dependent manner with a maximal effect at 6 microM. Acetaldehyde, a metabolite of ethanol, caused a reduction in the magnitude of ionophore-stimulated secretion with no evidence of competitive inhibition. Furthermore, 6 microM ionophore-stimulated amylase secretion was dose-dependently inhibited by acetaldehyde. This inhibitory effect of acetaldehyde, however, was reversible on washing and reincubating acetaldehyde-treated acini. These results suggest that acetaldehyde reversibly inhibits intracellular components mediating stimulated secretion and this inhibition requires a continuous chemical interaction between acetaldehyde and intracellular component(s) regulating stimulated enzyme secretion.     

Effects of 5-bromo-2-deoxyuridine concentration and alpha-naphthoflavone on the association between smoking and the frequency of sister-chromatid exchanges in lymphocytes from maternal and cord blood

The frequency of sister-chromatid exchanges was analyzed in maternal and cord blood lymphocytes obtained at delivery from 23 nonsmokers and 21 smokers. Lymphocytes were cultured under 3 conditions: in the presence of 100 microM 5-bromo-2-deoxyuridine (BUdR), 20 microM BUdR and 20 microM BUdR with 40 microM alpha-naphthoflavone (ANF). Under all assay conditions, frequencies of SCEs were consistently higher for maternal lymphocytes than for cord lymphocytes. There was no association between SCE values for cultures of the same blood specimen with 100 microM BUdR and 20 microM BUdR. When cultured with 100 microM BUdR, maternal lymphocytes from smokers had a mean SCE frequency of 13.5, which was significantly higher than the value of 11.1 observed for nonsmokers (p = 0.001 by the Wilcoxon rank sum test). Maternal smoking had no significant effect on overall frequencies of SCEs in maternal blood cultured with 20 microM BUdR either with or without ANF or when the differential between cells cultured with and without ANF was considered. Use of caffeinated beverages was associated with increased SCE values for maternal lymphocytes cultured with 20 microM BUdR (Tau beta = 0.36, p = 0.02 for the Kendall's Rank Correlation), but no such association was seen with 100 microM BUdR. For cord blood lymphocytes, however, neither smoking nor caffeine use were associated with SCE values obtained by any of the assay conditions used. The findings suggest that results of human monitoring studies using SCEs could differ depending on the concentration of BUdR used in cultures.     

Bloom syndrome B-lymphoblastoid cells are hypersensitive towards carcinogen and tumor promoter-induced chromosomal alterations and growth in agar.

The effects of the carcinogens (4NQO, 4-nitroquinoline-N-oxide; MNNG, N-methyl-N'-nitro-N-nitrosoguanidine; AFLG1, aflatoxin G1; AFLB1, aflatoxin B1; BNU, butylnitrosourea; MNU, methylnitrosourea) and the tumor promoter (TPA, 12-O-tetradecanoylphorbol-13-acetate) on sister chromatid exchanges (SCE), chromosome aberrations and colony formation (CF) were examined in three types of Bloom syndrome (BS) B-lymphoblastoid cell lines (B-LCLs); type I with normal SCE and normal karyotype; type II with high SCE and normal karyotypes; type III with high SCE and abnormal karyotypes. BS type I cells had the same SCE and CF response as normal cells to these carcinogens and TPA. In BS type II and III cells treated with carcinogens the SCE frequency increased to 140/cell from a baseline of 70/cell versus an increase of only 10/cell in normal cells. Colony formation occurred at the concentrations that caused the highest SCE. TPA caused a significant SCE increase and highly enhanced CF with dose dependency only in type III cells, suggesting that type III cells may be already in a pre-malignant state; type II cells appear to be one step behind those of type III in the process of becoming malignant. BS type II and III cells may be usable to establish a sensitive system to detect SCE-inducing agents.     

Metabolism of acetylene and acetaldehyde by Rhodococcus rhodochrous

We studied the ability of a soil bacterium, identified as Rhodococcus rhodochrous, to grow on acetylene and to accumulate acetaldehyde. Its maximum growth rate on acetylene was obtained at about 30 degrees C (mu = 0.11 h-1) and was independent of the concentration of this gas in air from 0.14 to 16% (v/v). During growth, acetylene was quantitatively transformed to acetaldehyde, ethanol, acetate, CO2, and biomass in proportions which varied with culture age and temperature. Growth was completely inhibited by acetaldehyde at a concentration of 10 mM. The inhibitory effect was relieved by addition of acetate. Growth on ethanol up to 140 mM did not result in acetaldehyde accumulation. Acetylene consumption was constitutive with apparent Km and Vmax equal to 250 microM and 800 nmol.min-1.(mg protein)-1, respectively. In resting cell suspensions, acetylene consumption rates decreased more rapidly under air than under nitrogen. The inhibitory effect of acetaldehyde was enhanced in the presence of oxygen. Acetaldehyde accumulation in aerobic resting cell conditions did not exceed 10 mM (440 mg/L), but under anaerobic conditions it attained more than 70 mM (3.08 g/L).     

Influence of chronic ethanol uptake and acute acetaldehyde treatment on the chromosomes of bone-marrow cells and peripheral lymphocytes of Chinese hamsters

Chinese hamsters received 10% (v/v) ethanol as their only liquid supply during 46 weeks. At the end of the drinking period the rate of chromosomal aberrations was determined in cultured lymphocytes. The cultures were set up with the blood from the retro-orbital plexus. Bone-marrow metaphases of the same animals were analysed with regard to sister-chromatid exchanges (SCE) after implantation of BrdU tablets in vivo. No cytogenetic effects were found in either test system.Another group of Chinese hamsters received acetaldehyde at 0.01, 0.1 and 0.5 mg/kg by i.p. injection, and bone-marrow metaphases were analysed with respect to SCE. The SCE frequencies were elevated by acetaldehyde at 0.5 mg/kg, but not by the lower doses.     

DNA topoisomerases and models of sister-chromatid exchange

Pommier et al. (1985) suggested that sister-chromatid exchange (SCE) results from exchange of topoisomerase II subunits. "Homologous displacement", an alternative mechanism, is proposed in which strand switching occurs during removal of parental helical turns by topoisomerases. The steps in the SCE model proposed by Ishii and Bender (1980) for SCE occurring at a blocked replication fork could occur by this mechanism and would require the action of both topoisomerases I and II. Homologous displacement involving topoisomerase II alone provides a mechanism for the strand switching required in the models of Kato (1977) and Cleaver (1981) in which SCE occur between replicated double strands. These mechanisms and models are discussed in relation to current knowledge of the locations and functions of topoisomerases during DNA replication.     

A comparison of cytotoxicity, ouabain-resistant mutation, sister-chromatid exchanges, and nascent DNA synthesis in Chinese hamster cells treated with dihydrodiol epoxide derivatives of benzo[a]pyrene

Chinese hamster V79 cells were treated with either (+/-)-7 beta, 8 alpha-dihydroxy-9 alpha, 10 alpha-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (B[a]P-diol epoxide I) or (+/-)-7 beta,8 alpha-dihydroxy-9 beta,10 beta-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene (B[a]P-diol epoxide II) and the nascent DNA was labeled with [Me-3H]thymidine. The cells were harvested for determination of cytotoxicity, sister-chromatid exchanges (SCE), ouabain-resistant (Or) mutations and the size of newly synthesized daughter-strand DNA. Both isomers caused dose-dependent decreases in survival of cells and in the size of nascent DNA. Increases in the frequencies of SCE and of Or mutation were found in cells treated with either isomer. However, B[a]P-diol epoxide I caused 10--20-fold more Or mutations and 50-100% more SCE than did B[a]P-diol epoxide II at equal molar dose levels. In contrast to the marked difference in the frequencies of both SCE and Or mutations caused by both compounds, the isomers induced similar reductions in the size of the nascent DNA at equal dose levels. In comparing the molecular and biological effects of the two isomers the reduction in the size of nascent DNA was more closely related to cytotoxicity than to the induction of SCE or Or mutations.