The role of aldehyde dehydrogenase isozyme variance in alcohol sensitivity, drinking habits formation and the development of alcoholism in Japan, Taiwan and the Philippines

Structure of daidzin, a naturally occurring anti-alcohol-addiction agent, in complex with human mitochondrial aldehyde dehydrogenase

The ALDH2*2 gene encoding the inactive variant form of mitochondrial aldehyde dehydrogenase (ALDH2) protects nearly all carriers of this gene from alcoholism. Inhibition of ALDH2 has hence become a possible strategy to treat alcoholism. The natural product 7-O-glucosyl-4'-hydroxyisoflavone (daidzin), isolated from the kudzu vine ( Peruraria lobata), is a specific inhibitor of ALDH2 and suppresses ethanol consumption. Daidzin is the active principle in a herbal remedy for "alcohol addiction" and provides a lead for the design of improved ALDH2. The structure of daidzin/ALDH2 in complex at 2.4 A resolution shows the isoflavone moiety of daidzin binding close to the aldehyde substrate-binding site in a hydrophobic cleft and the glucosyl function binding to a hydrophobic patch immediately outside the isoflavone-binding pocket. These observations provide an explanation for both the specificity and affinity of daidzin (IC50 =80 nM) and the affinity of analogues with different substituents at the glucosyl position.

ALDH2 genotype-associated differences in the acute effects of alcohol on P300, psychomotor performance, and subjective response in healthy young Korean men: a double-blind placebo-controlled crossover study

BACKGROUND

This study investigated the acute effects of alcohol on neurophysiological and psychomotor functions and the subjective response in healthy young Korean men according to the mitochondrial aldehyde dehydrogenase (ALDH2) genotype.

METHOD

A total of 24 males, half with ALDH2*1/*1 (active form) and the rest with ALDH2*1/*2 (inactive form), were selected through genotyping. In a double-blind placebo-controlled crossover design, each subject consumed either a 0.5 g/kg dose of alcohol or a placebo on two separate occasions, 1 week apart. The blood alcohol concentrations (BACs), P300 of event-related potential, psychomotor performance, and perceived feelings were assessed.

RESULTS

Although the BACs were similar between the two groups, the effects of alcohol on P300 were greater overall in subjects with ALDH2*1/*2 than in subjects with ALDH2*1/*1. Psychomotor performance was more impaired after alcohol ingestion in subjects with ALDH2*1/*2 than in subjects with ALDH2*1/*1. The subjective response after alcohol ingestion was more negative in subjects with ALDH2*1/*2, compared to subjects with ALDH2*1/*1.

CONCLUSIONS

These results suggest that the ALDH2 polymorphism is an important factor in determining the effects of alcohol on various psychobehavioral functions.

Lifetime and 6-month prevalence of DSM-III-R psychiatric disorders in an urban community in Japan

We conducted a community-based interview survey of a random sample of residents aged 20 years or older in an urban community in Japan using the University of Michigan Version of the WHO Composite International Diagnostic Interview for selected mood and anxiety disorders and alcohol abuse/dependence according to DSM-III-R. The final sample consisted of 1029 respondents (response rate, 57%). The lifetime and 6-month prevalences of selected mood, anxiety and alcohol use disorders were low in general. Alcohol abuse/dependence was more prevalent in men than in women. Younger respondents had a greater risk of generalized anxiety disorder and alcohol dependence. A greater risk of mood, anxiety and alcohol use disorders was observed among a recent birth cohort. We confirmed a lower prevalence of mood and anxiety disorders and alcohol use disorders in a community population in Japan than in Western countries, observations that were similar to previous ones in East-Asian countries. The patterns of demographic correlates and comorbidity are similar to those of most other countries.

Quantitative trait locus gene mapping: a new method for locating alcohol response genes

Alcoholism is a multigenic trait with important non-genetic determinants. Studies with genetic animal models of susceptibility to several of alcohol's effects suggest that several genes contributing modest effects on susceptibility (Quantitative Trait Loci, or QTLs) are important. A new technique of QTL gene mapping has allowed the identification of the location in mouse genome of several such QTLs. The method is described, and the locations of QTLs affecting the acute alcohol withdrawal reaction are described as an example of the method. Verification of these QTLs in ancillary studies is described and the strengths, limitations, and future directions to be pursued are discussed. QTL mapping is a promising method for identifying genes in rodents with the hope of directly extrapolating the results to the human genome. This review is based on a paper presented at the First International Congress of the Latin American Society for Biomedical Research on Alcoholism, Santiago, Chile, November 1994.

Biogenic aldehyde(s) derived from the action of monoamine oxidase may mediate the antidipsotropic effect of daidzin

Daidzin, a major active principle of an ancient herbal treatment for 'alcohol addiction', was first shown to suppress ethanol intake in Syrian golden hamsters. Since then this activity has been confirmed in Wistar rats, Fawn hooded rats, genetically bred alcohol preferring P rats and African green moneys under various experimental conditions, including two-level operant, two-bottle free-choice, limited access, and alcohol-deprivation paradigms. In vitro, daidzin is a potent and selective inhibitor of mitochondrial aldehyde dehydrogenase (ALDH-2). However, in vivo, it does not affect overall acetaldehyde metabolism in golden hamsters. Using isolated hamster liver mitochondria and 5-hydroxytryptamine (5-HT) and dopamine (DA) as the substrates, we demonstrated that daidzin inhibits the second but not the first step of the MAO/ALDH-2 pathway, the major pathway that catalyzes monoamine metabolism in mitochondria. Correlation studies using structural analogs of daidzin led to the hypothesis that the mitochondrial MAO/ALDH-2 pathway may be the site of action of daidzin and that one or more biogenic aldehydes such as 5-hydroxyindole-3-acetaldehyde (5-HIAL) and/or DOPAL derived from the action of monoamine oxidase (MAO) may be mediators of its antidipsotropic action.

Aldehyde dehydrogenase genotypes and male alcohol use disorders: a case-control study in Khon Kaen, north-east Thailand

A genetic epidemiological case-control study on aldehyde dehydrogenase 2 (ALDH2) genotype and male probable alcohol use disorders (AUD) was performed in Khon Kaen province, northeast Thailand. One hundred and twenty-four of cases (probable AUD) were obtained from male villagers aged 18-65 years using the modified Michigan Alcoholism Screening Test-Thai version. The same number of controls were selected, being matched with the cases in terms of age (+/-4 years) within the same village. Marital status, education history and past or present histories of physical illnesses were essentially the same for the cases and the controls. All of the cases and 85.5% of the controls were current drinkers, and the cases tended to drink significantly more often than the controls. Genomic DNA was extracted from fingernails and ALDH2 genotypes were determined by polymerase chain reaction technique and digested by Ksp 632I. The ALDH2 genotypes of the cases and the controls were not significantly different: 90.3% versus 91.1% normal homozygote; 8.1% versus 8.9% heterozygote; and 1.6% versus 0.0% mutant homozygote, respectively. Among the normal homozygote, the daily amount of alcohol intakes of the cases were significantly larger than that of the controls (56.2+/-40.6g vs. 8.1+/-14.1 g), the same was found among the ALDH2 deficient (55.9+/-43.4 vs. 2.2+/-5.8 g). Multivariate analysis based on the conditional logistic regression model showed no significant association of AUD with ALDH2 genotype, marital status, education history, or past history of injury, however, occupation and daily amount of alcohol intake were found to be significantly associated with AUD (OR = 10.72, 95% CI = 1.15-99.99, P = 0.037, and OR = 1.12, 95% CI = 1.06-1.18, P = 0.000, respectively). Non-farmers showed 10.7 times larger risk of developing AUD compared to farmers, and the subjects had three times more chance of developing AUD for each increase of 10 g of the daily amount of alcohol intake.

Daidzin and its antidipsotropic analogs inhibit serotonin and dopamine metabolism in isolated mitochondria

Daidzin, a major active principle of an ancient Chinese herbal treatment (Radix puerariae) for alcohol abuse, selectively suppresses ethanol intake in all rodent models tested. It also inhibits mitochondrial aldehyde dehydrogenase (ALDH-2). Studies on ethanol intake suppression and ALDH-2 inhibition by structural analogs of daidzin established a link between these two activities and suggested that daidzin may suppress ethanol intake by inhibiting ALDH-2. ALDH-2 is a principal enzyme involved in serotonin (5-HT) and dopamine (DA) metabolism. Thus, daidzin may act by inhibiting 5-HT and DA metabolism. To evaluate this possibility, we have studied the effect of daidzin and its analogs on 5-HT and DA metabolism in isolated hamster and rat liver mitochondria. Daidzin potently inhibits the formation of 5-hydroxyindole-3-acetic acid (5-HIAA) and 3,4-dihydroxyphenylacetic acid (DOPAC) from their respective amines in isolated mitochondria. Inhibition is concentration-dependent and is accompanied by a concomitant accumulation of 5-hydroxyindole-3-acetaldehyde and 3, 4-dihydroxyphenylacetaldehyde. Daidzin analogs that suppress hamster ethanol intake also inhibit 5-HIAA and DOPAC formation. Comparing their effects on mitochondria-catalyzed 5-HIAA or DOPAC formation and hamster ethanol intake reveals a positive correlation-the stronger the inhibition on 5-HIAA or DOPAC formation, the greater the ethanol intake suppression. Daidzin and its active analogs, at concentrations that significantly inhibit 5-HIAA formation, have little or no effect on mitochondria-catalyzed 5-HT depletion. It appears that the antidipsotropic action of daidzin is not mediated by 5-HT (or DA) but rather by its reactive intermediates 5-hydroxyindole-3-acetaldehyde and, presumably, 3, 4-dihydroxyphenylacetaldehyde as well, which accumulates in the presence of daidzin.

Kudzu root: an ancient Chinese source of modern antidipsotropic agents

Kudzu (Pueraria lobata) is one of the earliest medicinal plants used in traditional Chinese medicine. It has many profound pharmacological actions including antidipsotropic (antialcohol abuse) activity. Although both the roots and flowers of kudzu, Radix and Flos puerariae, respectively, have been used to treat alcohol abuse safely and effectively in China for more than a millennium, their true efficacy, active constituents, sites and mechanisms of action have never been critically examined. Recently, we have demonstrated that a crude extract of Radix puerariae suppresses the free-choice ethanol intake of ethanol-preferring golden Syrian hamsters and have identified two of its isoflavones, daidzin and daidzein, that account for this effect. Since then, we and other investigators have confirmed these findings in rats that were either trained or genetically bred to prefer and consume large amounts of ethanol. This article summarizes recent progress on the pharmacological and biochemical studies of the antidipsotropic isoflavones isolated from Radix puerariae.

Allele frequency of ADH2 and ALDH2 among Brazilians of different ethnic groups

We determined the genotypes of the alcohol dehydrogenase (ALDH) and aldehyde dehydrogenase (ALDH2) loci of different ethnic groups living in Brazil, using saliva DNA amplified by PCR and allele-specific oligonucleotides. Self-reports of flushing reaction after drinking were also studied. The allelic frequencies of ADH2 and ALDH2 were found to be lower than those reported other authors, which might be a result of the admixture origin of the Brazilian population. Variability in facial flushing reaction suggests that other factors play a role in the expression of alcohol-induced flushing.

Voluntary alcohol drinking and acetaldehyde metabolism in F2 hybrid crosses of AA and ANA rat lines

Alcohol-preferring AA and alcohol-avoiding ANA rat lines differ in their acetaldehyde metabolism and this has been suggested to be one reason for their different ethanol drinking behavior. To study whether acetaldehyde accumulation is indeed associated with alcohol drinking behavior and to evaluate which enzymatic differences previously observed in these rat lines are of importance in this regard, we produced an F2 generation from them. ADH and ALDH activities, and ALDH patterns were then assessed from these hybrids and correlated with their voluntary ethanol drinking and blood acetaldehyde concentrations measured during ethanol metabolism. A significant negative correlation between voluntary ethanol intake and blood acetaldehyde concentration was observed in F2 females drinking less than 17% of the total fluid as ethanol. In F2 males, hepatic microsomal high Km ALDH activities correlated negatively with blood acetaldehyde concentrations, indicating that low activity of this isoenzyme in ANA rats could be at least in part responsible for the accumulation of acetaldehyde in their blood. Finally, F2 rats that possessed the cytosolic ALDH isoenzyme pattern most frequently found in the AA rat line drank significantly more ethanol than the animals with typical ANA pattern, suggesting that this polymorphism might also be relevant in the regulation of voluntary ethanol drinking although it is probably not associated with acetaldehyde metabolism.

Alcohol and aldehyde dehydrogenase genotypes and drinking behavior in Japanese

The effects of the genotype of alcohol dehydrogenase-2 (ADH2) and mitochondrial aldehyde dehydrogenase (ALDH2) on drinking behavior were investigated in a population of 451 Japanese. Although the ALDH2*2 allele had a significant inhibitory effect on alcohol consumption, hence on drinking problems, the apparent association was not confirmed between ADH2 genotype and overall drinking patterns for either males or females. However, the frequency of the ADH2*2 allele was significantly lower in male Japanese classified as alcoholic on the basis of the Kurihama Alcoholism Screening Test than in nonalcoholic males. These results corroborate a previous study that revealed a significantly lower ADH2*2 allele frequency in hospitalized Japanese alcoholics than in the general population. Together, these studies suggest that the ALDH2*2 allele has an inhibitory effect on drinking behavior, irrespective of the level of alcohol consumption, whereas the effect of the ADH2 polymorphism only becomes apparent in individuals with higher alcohol consumption, such as alcoholics.

Daidzin suppresses ethanol consumption by Syrian golden hamsters without blocking acetaldehyde metabolism

Daidzin is a potent, selective, and reversible inhibitor of human mitochondrial aldehyde dehydrogenase (ALDH) that suppresses free-choice ethanol intake by Syrian golden hamsters. Other ALDH inhibitors, such as disulfiram (Antabuse) and calcium citrate carbimide (Temposil), have also been shown to suppress ethanol intake of laboratory animals and are thought to act by inhibiting the metabolism of acetaldehyde produced from ingested ethanol. To determine whether or not daidzin inhibits acetaldehyde metabolism in vivo, plasma acetaldehyde in daidzin-treated hamsters was measured after the administration of a test dose of ethanol. Daidzin treatment (150 mg/kg per day i.p. for 6 days) significantly suppresses (> 70%) hamster ethanol intake but does not affect overall acetaldehyde metabolism. In contrast, after administration of the same ethanol dose, plasma acetaldehyde concentration in disulfiram-treated hamsters reaches 0.9 mM, 70 times higher than that of the control. In vitro, daidzin suppresses hamster liver mitochondria-catalyzed acetaldehyde oxidation very potently with an IC50 value of 0.4 microM, which is substantially lower than the daidzin concentration (70 microM) found in the liver mitochondria of daidzin-treated hamsters. These results indicate that (i) the action of daidzin differs from that proposed for the classic, broad-acting ALDH inhibitors (e.g., disulfiram), and (ii) the daidzin-sensitive mitochondrial ALDH is not the one and only enzyme that is essential for acetaldehyde metabolism in golden hamsters.

Molecular biological aspects of alcohol-induced liver disease

Molecular biological investigations have become a predominant methodology applied to the study of alcohol-induced liver disease. The enzymatic pathways responsible for ethanol metabolism, and their genetic as well as environmental control, have become the focus of detailed investigation. More recently, the significance of cytokines in the pathogenesis of alcohol-induced liver disease has also become a major area of speculation. This review focuses on the advances made in studies of two important enzymes responsible for alcohol metabolism, alcohol dehydrogenase and aldehyde dehydrogenase, as well as the investigation of the proinflammatory and profibrogenic cytokines involved in the process of hepatic fibrogenesis. The quality and quantity of new discoveries made in the field of alcohol-induced liver disease is impressive, especially when one realizes that molecular biological approaches have been employed in this area for only 15 years. However, in most cases the studies have been predominantly descriptive, with little direct relevance to the therapeutics of alcoholism and alcohol-induced organ injury. Because the groundwork has been laid, one hopes that the next 15 years will rectify this failure.

Hepatic aldehyde and alcohol dehydrogenases in alcohol-preferring and alcohol-avoiding rat lines

The alcohol-avoiding ANA (Alko, Non-Alcohol) and alcohol-preferring AA (Alko, Alcohol) rat lines are known to differ in their acetaldehyde metabolism and were originally found to differ in hepatic alcohol dehydrogenase (ADH) and aldehyde dehydrogenase (ALDH) activities in the 1970s. At the beginning of the 1980s, these rat lines were revitalized and some previously found line differences were lost. Thus, the purpose of this study was to determine whether these enzymatic line differences still exist and, if so, to study them further at the isoenzyme level. ADH and ALDH activities were measured from liver homogenates and different subcellular fractions of the rats. The ANA rats were found to have lower hepatic ALDH and higher ADH activities than AA rats, in accordance with the previous study. The line difference in ALDH activity was observed in all fractions, but was more apparent with millimolar than micromolar substrate concentrations and generally more pronounced in females than in males. The line difference in the microsomal ALDH activity was found to be quantitative, and it seemed to concern both microsomal ALDH isoenzymes. A qualitative line difference concerning mitochondrial high Km ALDH isoenzyme was found, and three different cytosolic ALDH isoenzyme patterns were observed, the frequencies of which were found to be different in the two lines. In conclusion, the results of the present study support the assumption that line differences in hepatic ADH and ALDH activities may be relevant to the acetaldehyde accumulation and the particularly low ethanol consumption of the ANA rats.

Effects of alcohol on the EEG in Asian men with genetic variations of ALDH2

Approximately 50% of Asians experience a facial flush following alcohol ingestion. These individuals have an inactive form of mitochondrial aldehyde dehydrogenase (ALDH) encoded by the ALDH2*2 allele. This study matched 15 flushing and 15 nonflushing Asian men on demographics and drinking histories. The 30 subjects were genotyped for ALDH2 and were evaluated both before and following placebo and 0.75 ml/kg alcohol. The two groups did not differ significantly on blood alcohol concentrations after drinking, but did differ in electroencephalographic (EEG) response on the falling phase of the blood alcohol curve. Nonflushing subjects displayed significant increases in slow-alpha EEG activity (7.5-9.0 Hz) at 90 and 150 min post-alcohol consumption, compared to flushing subjects who did not show characteristic increases in this frequency band at these timepoints. These data suggest flushers, those with at least one ALDH2*2 allele, have less of slow-alpha wave EEG response to alcohol than nonflushers with ALDH2*1/2*1 genotype.

Mitochondrial aldehyde dehydrogenase (ALDH2) polymorphism in AA and ANA rats: lack of genotype and phenotype line differences

Polymorphism of the gene coding for mitochondrial ALDH2 in humans is known to be associated with differences in alcohol drinking behavior. Recently, two different alleles of the ALDH2 gene, ALDH2R and ALDH2Q, have been found in rats also and a possible relationship between the frequencies of the two alleles and drinking behavior has been proposed. In this study, we examined whether this polymorphism of ALDH2 was the underlying cause for the previously reported acetaldehyde accumulation in the alcohol-avoiding ANA rat line and, thus, could be one of the factors explaining the differences in alcohol drinking behavior between the ANA and the alcohol-preferring AA rat lines. The experimental animals were genotyped and their mitochondrial ALDH activities and blood acetaldehyde concentrations after ethanol injection were measured. The two lines did not differ in their frequencies of ALDH2R and ALDH2Q alleles. Thus, the polymorphism in the ALDH2 gene does not explain the acetaldehyde accumulation in ANA rats and it does not seem to be associated with differences in the alcohol drinking behavior in these rat lines.

Daidzin: a potent, selective inhibitor of human mitochondrial aldehyde dehydrogenase

Human mitochondrial aldehyde dehydrogenase (ALDH-I) is potently, reversibly, and selectively inhibited by an isoflavone isolated from Radix puerariae and identified as daidzin, the 7-glucoside of 4',7-dihydroxyisoflavone. Kinetic analysis with formaldehyde as substrate reveals that daidzin inhibits ALDH-I competitively with respect to formaldehyde with a Ki of 40 nM, and uncompetitively with respect to the coenzyme NAD+. The human cytosolic aldehyde dehydrogenase isozyme (ALDH-II) is nearly 3 orders of magnitude less sensitive to daidzin inhibition. Daidzin does not inhibit human class I, II, or III alcohol dehydrogenases, nor does it have any significant effect on biological systems that are known to be affected by other isoflavones. Among more than 40 structurally related compounds surveyed, 12 inhibit ALDH-I, but only prunetin and 5-hydroxydaidzin (genistin) combine high selectivity and potency, although they are 7- to 15-fold less potent than daidzin. Structure-function relationships have established a basis for the design and synthesis of additional ALDH inhibitors that could both be yet more potent and specific.

Aversive reactions and alcohol use in Europeans

Two hundred subjects of European descent completed a questionnaire about alcohol use and reactions to alcohol. Eleven subjects (5.5%) reported that they always experienced unpleasant reactions after small amounts of alcohol, and these subjects reported significantly lower levels for quantity and frequency of habitual alcohol use, and fewer drinks in the preceding 7 days, than the other subjects. Reactions to alcohol, either genetic or acquired, can therefore be significant in determining alcohol use in non-Asian groups.

Subjective feelings of alcohol intoxication in Asians with genetic variations of ALDH2 alleles

Asian-American men who possess ALDH2*2 alleles and who experience a facial flush after consuming alcohol were carefully matched on drinking history and demographic variables with nonflushing Asian males with only ALDH2*1 alleles. Each man was tested following placebo and a challenge dose of 0.75 ml/kg alcohol. Following alcohol, flushers reported experiencing significantly more positive feelings of intoxication than nonflushers, despite equivalent blood alcohol concentrations. These data suggest that Asians who flush after drinking, particularly those with ALDH2*1/2*2 genotype, have a more intense, although not necessarily a more negative, response to alcohol than comparable nonflushing Asians. This alcohol sensitivity reaction that many Asian flushers experience may contribute to their lower tendency to drink excessively, even though their response to alcohol is not predominantly negative.

Genetic or cultural determinants of drinking: a study of embarrassment at facial flushing among Japanese and Japanese-Americans

Facial flushing after the ingestion of alcohol is common among Asians. Flushers are genetically less able to tolerate alcohol than nonflushers and are less likely to become alcoholics. This study examined whether lower consumption of alcohol among flushers was correlated with cultural factors such as embarrassment over flushing as well as with biological factors among Japanese in Japan and Japanese-Americans using data from a joint Japan-U.S. collaborative survey. Eight hundred forty-six Japanese and 737 Japanese-American current drinkers with known flushing status were studied. The mean alcohol intake differed significantly between groups: (1) habitat--Japanese versus Japanese-Americans, (2) flushing status--flushers versus nonflushers, and (3) embarrassment about flushing. Among men, ethnicity was the major determinant of alcohol consumption, followed by flushing status and embarrassment about flushing. Among women, differences were not significant. Lower alcohol consumption by flushers than by nonflushers has been attributed to differences in physiological reactions to alcohol. However, this study demonstrated that cultural factors such as embarrassment also contribute to lower alcohol consumption by flushers. The lack of interaction between habitat and flushing status and between habitat and embarrassment status suggests that flushing status and embarrassment status associated with drinking levels are independent of habitat.

Human aldehyde dehydrogenases: their role in alcoholism

This article surveys the state of our knowledge concerning the biochemical and genetic variations in aldehyde dehydrogenases (ALDHs) in humans and their role in alcohol sensitivity, alcohol drinking habits, and alcoholism. Variations in acetaldehyde metabolism via genetically determined polymorphisms in ALDH enzymes seem to play an important role in individual and racial differences in acute and chronic effects of alcohol drinking as well as towards vulnerability to organ damage after chronic alcohol abuse. Alcohol sensitivity and associated discomfort symptoms accompanying alcohol ingestion may be determinantal for the significantly low incidence of alcoholism among Japanese, Chinese and other Orientals of Mongoloid origin. An abnormal ALDH isozyme has been found to be widely prevalent among individuals of Mongoloid race, and is mainly responsible for the acute sensitivity to alcohol commonly observed in this race. Persons sensitive to alcohol by virtue of their genetically controlled ALDH isozyme deficiency may be discouraged from drinking large amounts of alcohol in their daily life due to the initial adverse reaction experienced after drinking alcohol, and thus are protected against alcoholism.

Molecular markers for linkage of genetic loci contributing to alcoholism

Specific locus and random locus linkage approaches to identify markers for genes whose allelic variants predispose to alcoholism or for genes controlling relevant physiological and behavioral phenotypes are discussed. Sib-pair analysis is superior for the direct analysis of complex genetic traits such as alcoholism, but classic family analysis will be useful for transmission and linkage analysis for marker traits whose genetics is less complex. In mice, a large number of inbred strains, recombinant inbred and congenic strains, and specifically selected outbred strains are available. In the human, an intriguing linkage result has emerged between a brain protein variant and alcoholism accompanied by suicide. In the mouse, preliminary linkages have been established to loci controlling ethanol preference and also activation after ethanol. Large panels of random DNA and protein genetic probes and of probes for specific loci will in the future increase the probability of establishing linkage in both species.