• Journal of Environmental Health Sciences
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• v.49 no.2
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• pp.99-107
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• 2023

Background: Excessive alcohol consumption is at the root of serious social problems such as hangovers, liver dysfunction, and alcoholism. Objectives: This study was carried out to determine the hangover ameliorating effect of fermented rice extract and a combination of yeast-fermented powder and lysate containing aldehyde dehydrogenase (ALDH) (improved new ingredients) in an ethanol-induced rat study. Methods: The concentrations of alcohol, acetaldehyde, and malondialdehye in serum were evaluated to assess the anti-alcohol and anti-aldehyde hangover effect in two experiments, one with fermented rice extract) and a second with yeast-fermented powder and lysate, using animal studies. Results: Experiment 2 with yeast-fermented powder and lysate containing ALDH showed similar and higher activity, respectively, in reducing ethanol and acetaldehyde concentration compared with Experiment 1 with fermented rice extract. Experiment 2 also significantly reduced malondialdehyde, a type of lipid peroxide. The ALDH-related compound (ARC) lysate showed better hangover relief effect than ARC powder. Conclusions: These results indicate that ALDH-related compounds exhibit a hangover relief effect, and fermented lysate is considered to be a better candidate for hangover relief.

• Journal of Life Science
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• v.19 no.9
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• pp.1321-1327
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• 2009

The present study examined the comparative effects of various amino acids on the alcohol dehydrogenase (ADH) and acetaldehyde dehydrogenase (ALDH) activities of yeast Saccharomyces cereviciae and rat liver homogenate in vitro. Methionine showed the highest activity in yeast ADH among the amino acids used in this study, but this was not higher than that of the hangover product, Condition-Power (CP) used as positive control. Methionine was also found to be the best amino acid in terms of the ALDH activity in rat liver homogenate among the treatment amino acids, which was comparatively higher than that of positive control CP. It was chosen for further experiments and yeast ADH activity increased in parallel with increased methionine concentration, but not rat liver ALDH activity, and it was comparatively higher than those of the positive control. Arginine showed the highest values in yeast ALDH and rat liver ADH activities among amino acids, and it was chosen for further experiments. Yeast ALDH activity increased in parallel with increased arginine concentration, which was higher than that of positive control CP, and rat liver ADH activity was also comparatively higher in all treatment concentrations of arginine than that of positive control CP. The native electrophoresis of ADH and ALDH from cell-free extracts of yeast Saccharomyces cerevisiae cultured in the growth medium containing various arginine concentrations by $0{\sim}0.1%$ showed two active bands upon zymogram staining analysis, and the straining intensity of ADH and ALDH active bands in arginine treatment yeast was stronger than that of non-yeast or low treatment yeast. These results indicate that alcohol metabolizing enzyme activities can be enhanced by arginine and methionine, suggesting that arginine and methionine have potent ethanol-metabolizing activities.

• Applied Biological Chemistry
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• v.40 no.6
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• pp.572-576
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• 1997

Effect of anoxia treatment on alcohol fermentation in the placenta of oriental melons (Cucumis melo) at different developmental stages was studied. Results showed that fruits at the rapid growth stage (stage III) contained the lowest amount of acetaldehyde and ethanol as compared with fruits at other developmental stages. During anoxia treatment, a steady increase in ethanol content was observed in the placenta of oriental melons, regardless of their developmental stages, while the increment of acetaldehyde content was relatively small. Alcohol dehydrogenase in growing and maturing stage fruits showed increased activity with the maximum value at one day after the onset of anoxia treatment and then decreased gradually. An increase in the activity of pyruvate decarboxylase was also observed during anoxia.

• Journal of Life Science
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• v.27 no.11
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• pp.1262-1268
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• 2017

Lemon myrtle (Backhousia citriodora), a plant in the Myrtaceae family, is native to the semitropical rain-forests of Queensland and is presumably the most commercialized native spice. In Australian thousands of lemon-myrtle trees are under tillage. This study was carried out to investigate the alcohol metabolism, hepatoprotective effects and antidiabetic, tyrosinase inhibitory activity of hot-water (LMW) and 80% ethanol (LME) extracts from lemon-myrtle leaves. The alpha-glucosidase (${\alpha}$-glucosidase) inhibitory activities of the LMW and LME extracts were 7.66% and 40.29% at 1 mg/ml (p<0.05), respectively. The tyrosinase inhibitory activity of the LME extract was about 38.26 % at 1 mg/ml. The effects the LMW and LME extracts had on alcohol-metabolizing activities were determined by measuring the generation of reduced nicotinamide-adenine dinucleotide (NADH) by acetaldehyde dehydrogenase (ALDH) and alcohol dehydrogenase (ADH). The ADH activities of the LMW and LME extracts significantly increased in a dose-dependent manner and were about 154.40% and 192.03% at 1 mg/ml, respectively (p<0.05). The ALDH activities of the LMW and LME extracts also significantly increased in a dose-dependent manner and were about 151.14% and 192.34% at 1 mg/ml, respectively (p<0.05). At $100{\mu}g/ml$, the LMW and LME extracts showed significant protective effects against tacrine-induced cytotoxicity in Hep G2 cells. The results suggested that Backhousia citriodora leaf extracts have the potential to be significant sources for natural health products.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.18 no.2
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• pp.218-225
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• 2017

To investigate the anti-hangover effects of Cudrania tricuspidata root extract (CTE), the blood alcohol metabolism and blood gas imbalance of CTE in rats treated with 10 ml/kg alcohol were examined. CTE (500 mg/kg and 750 mg/kg) was administrated after 30 minutes of alcohol consumption (10 ml/kg). Blood collection was implemented from the tails of the animals after 1, 3, and 5 hours post alcohol consumption. The Condition drink (a commercial anti-hangover beverage) was used as a positive control. Single administration by the oral route was performed. The consumption of CTE (500 mg/kg and 750 mg/kg) decreased the serum alcohol concentration by increasing and maintaining both the alcohol dehydrogenase (ADH) and acetaldehyde dehydrogenase (ALDH) enzyme activity levels in the blood and liver. In addition, CTE led to recovery from the imbalances in the blood gas levels, including carbon dioxide ($CO_2$) and changes in pH, bicarbonate ($HCO_3{^-}$) and lactic acid levels due to alcohol ingestion. In conclusion, CTE exerted a more pronounced anti-hangover effect than a commercial anti-hangover drink. Therefore, CTE can be a novel and safe anti-hangover natural product agent for the prevention or treatment of symptoms caused by excessive alcohol consumption.

• Korean Journal of Microbiology
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• v.32 no.1
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• pp.78-83
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• 1994

Membrane-bound alcohol dehydrogenase(ADH) was purified to homogeneous state fron an acetic acid producing bacteria, Acetobacter sp. HA. The enzyme was purified about 153-fold with an overall yield of 35% from the crude cell extract by solubilization and extraction of the enzyme with Triton X-100 and subsequent fractions by column chromatography. Upon sodium dodecyl sulphate-PAGE, the enzyme showed the presence of three subunits with a molecular mass of 79,000 daltons, 49,000, and 45,000 daltons, respectively. Absorption oxidized aliphatic alcohols with a straight carbon chain except for methanol. Formaldehyde, acetaldehyde and glutaraldehyde were also oxidizable substrates. The apparent $K_m$ for ethanol was 1.38mM. The optimun pH and temperature were 5.0~6.0 and 32${\circ}C$, respectively. $V_2O_5$ and heavy metals such as $ZnCl_2\;and\; NiCl_2$ were inhibitory to the enzyme activity.

• Korean Journal of Food Science and Technology
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• v.16 no.1
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• pp.90-94
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• 1984

We deduced a possible metabolic pathway of L-malate in a malo-alcoholic yeast, Schizosaccharomyces japonicus var. japonicus St-3. The malic enzyme (EC 1.1.1.40) prepared from the microorganism was about four times as active as that of malate dehydrogenase (EC 1.1.1.37). And Km values of malic enzyme and malate dehydrogenase for malate were found to be 3.125 mM and 4.761 mM, respectively, which referred to the fact that the affinity of malic enzyme for the substrate was greater than that of malate dehydrogenase. We also found that pyruvate was produced with disappearing malate in malo-alcoholic fermentation, and that the addition of $Mn^{2+}$ activated malic enzyme activity. Based on these results obtained we have deduced a main pathway of malate${\rightarrow}$pyruvate${\rightarrow}$acetaldehyde${\rightarrow}$ethanol for the utilization of L-malate by this malo-alcoholic yeast strain.

• The Journal of Natural Sciences
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• v.4
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• pp.29-58
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• 1991

Ethanol은 섭취량에 따라 간 대사에 여러가지 영향을 미치는 것으로 알려져 있다. 과량의 ethanol 섭취가 유해한 것은 ethanol 그 자체보다는 산화과정에서 생성된 acetaldehyde와 과량의 수소(NADH)에 기인한다. 과량의 NADH는 간 세포의 화학적 평형을 저해하고 대사이상을 초래한다. 본 연구에서는 in vitro 뿐만 아니라 in vivo에서 alcohol dehydrogenase(ADH), aldehyde dehydroge-nase(ALDH), microsomal ethanol oxidizing system(MEOS)에 미치는 인삼 사포닌의 영향을 조사하고, 간에서의 수소 평형, 간에서의 $[1^(-14)C]$-ethanol의 분포, ethanol의 acetaldehyde와 lipid로의 전환 등을 관찰하였다. 인삼 사포닌은 상기 효소외에도 ethanol 대상에 관련된 다른 효소들의 활성을 증가시키는 것으로 관찰되었으며 이는 동물 체내로부터 acetaldehyde와 과량의 수소를 신속히 제거하는 것으로 사료된다.

• Proceedings of the Korean Society of Applied Pharmacology
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• 1994.04a
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• pp.323-323
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• 1994

Allyl alcohol은 간에서 두 단계의 효소 반응을 거쳐 대사되는데, 먼저, alcohol dehydrogenase (ADH)에 의해 독성 활성체인 acrolein으로 바뀌고, 이후 계속하여 aldehyde dehydrogenase (ALDH)에 의해 acrylic acid로 무독화되어 배설된다. Ethanol 역시 간에서 대사되는데 있어 같은 효소들을 공유하므로 allyl alcohol과 경쟁적으로 반응할 것이다. 따라서, 본 실험에서는 ethanol에 의한 대사 효소 경쟁반응에 의해 allyl alcohol 의 간독성이 어떻게 변화하는지를 연구하였다. 우선 ethanol과 allyl alcohol을 동시 투여할 경우 5시간째에 allyl alcohol에 의해 증가된 ALT level을 낮춘다는 보고를 확인하고자 ethanol 2 g/kg과 allyl alcohol 40 mg/kg을 동시투여했으나 오히려 치사율이 증가했고, ethanol을 2시간 전처리한 군에서도 역시 치사율이 증가되고, 간의 glutathione 양은 allyl alcohol 단독 처리군에 비해 현저히 감소되는 양상을 보였다.

• YAKHAK HOEJI
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• v.38 no.2
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• pp.107-113
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• 1994

Ally alcohol is metabolized in the liver through two steps, first to reactive acrolein by alcohol dehydrogenase(ADH), subsequently to acrylic acid by aldehyde dehydrogenase(ALDH). Since ethanol could compete the same enzymes to be metabolized in the liver, we have studied the interaction between allyl alcohol and ethanol on liver toxicity. Simultaneous treatment of 2 g/kg ethanol by ip administration with 40 mg/kg allyl alcohol to rats increased the lethality significantly, accompanied by potentiation of the loss of hepatic glutathione. Collectively, these findings suggested that ethanol potentiated the hepatotoxicity and lethality induced by allyl alcohol probably through competing two metabolizing enzymes, ADH and ALDH.