• Title/Summary/Keyword: coenzyme Q

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Effect of Dietary Coenzyme $Q_10$ on Lipid Peroxidation in Adriamycin-treated Rats - I. Effect on Lipid Peroxide Metabolizing Enzyme Activities- (식이 중의 Coenzyme $Q_10$첨가가 Adriamycin을 투여한 흰쥐의 체내 지질과산화에 미치는 영향- 1. 지질과산화물 대사효소에 미치는 영향-)

  • 서정숙;한인규
    • Journal of Nutrition and Health
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    • v.24 no.3
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    • pp.166-178
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    • 1991
  • This present study was designed to evaluate whether supplementaion of dietary coenzyme $Q_{10}$ protects the lipid peroxidation damage in adriamycin (ADR)-treated rats. Two experiments were conducted in this study. Experiment I was undertaken under the condition of simultaneous administration of ADR and coenzyme $Q_{10}$ for 4 weeks. Experiment 2 was undertaken under the same condition as experiment I after feeding the experimetal diets alone without administration of ADR for 4 weeks. Results obtained from the present study were as follows. Lipid peroxide value of plasma and heart mitochondria was elevated by ADR treatment. but decreased according to dietary coenzyme $Q_{10}$ supplementation. Pretreatment with dietary coenzyme $Q_{10}$ was more efficient in reducing ADR-induced lipid peroxide value. The simultaneous use of ADR and coenzyme $Q_{10}$ enhanced the heart glutathione peroxidase (GSH-Px) activity. particularly at higher level of coenzyme $Q_{10.}$ The change of superoxide dismutase(SOD) activity was similar to that of GSH-Px activity. In case of pretreatment with coenzyme $Q_{10, }$ these enzyme activities were more enhanced by dietary coenzyme $Q_{10.}$ However, there was little difference in catalase activity.

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The inhibitory Effects of Coenzyme Q10 on Melanogenesis of cultured Human Melanocytes and in vivo Guinea Pig Model (Coenzyme Q10의 멜라닌 생성억제효과)

  • 황재성;박원만;안수미;강병영;이병곤;심영철
    • Journal of the Society of Cosmetic Scientists of Korea
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    • v.26 no.1
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    • pp.149-162
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    • 2000
  • Coenzyme Q10 is found in all tissues including skin and it is the well-known coenzyme for mitochondrial enzymes. The electron and proton transfer functions of the quinone ring are of fundamental importance for the oxidative phosphorylation pathway to generate energy in the cells. Coenzyme Q10 has been studied as a potent antioxidant molecule in the skin. It is involved in the skin's response to UVR irradiation. The concentration of this antioxidant in UVR exposed skin is higher than in non-exposed skin. However, recent studies have also shown that coenzyme Q10 is one of the first antioxidants to be depleted when skin is UVR-irradiated. This indicates that coenzyme Q10 is primarily involved in defense mechanisms of the skin. Therefore, we questioned whether coenzyme Q10 shows reulatory effect of melanogenesis. Here we report that coenzyme Q10 inhibits melanin neosynthesis of normal human melanocytes grown in culture, and lightens UVB-induced hyperpigmentation of the guinea pig skin in vivo. We treated human melanocytes with 0.05mM to 0.5mM of coenzyme Q10 for a total of two days. This inhibited melanin neosynthesis of cultured human melanocytes dose-dependently. The inhibitory effect of coenzyme Q10 was as effective as kojic acid or vitamin C on cultured human melanocytes. CoQ10 didn't have direct inhibitory effect on tyrosinase activity in in vitro tyrosine hydroxylase activity To further clarify the effect of coenzyme Q10 on the melanogenesis, we established UVB-induced hyperpigmentation on the shaved backs of brownish guinea pigs. The UVB intensity was 500mJ/$\textrm{cm}^2$ and the total energy dose was 1,500 mJ/$\textrm{cm}^2$. The animals were exposed to UVB radiation one times a week for three consecutive weeks. Coenzyme Q10, kojic acid, Arbutin, vitamin C(1% in vehicle) or vehicle alone as a control were then topically applied daily to the hyperpigmented areas twelve times per week far four successive weeks. The lightening effect was evaluated by visual scoring, chromameter and immunohistochemistry. Coenzyme Q10 had lightening effect on the UVB-induced hyperpigmentation without any other side effects, whereas another compounds showed weak lightening efficacies. Therefore, these results suggest that coenzyme Q10 may be useful for solving physiological hyperpigmenting problems for cosmetic purposes.

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Effect of Dietary Coenzyme ${Q}_{10}$ on Lipid Peroxidation in Adriamycin-Treated Rats -III. Effect on Myocardial Ultrastructural Changes- (식이 중의 Coenzyme ${Q}_{10}$ 첨가가 Adriamycin을 투여한 흰쥐의 체내 지질과산화에 미치는 영향 -III. 심근 미세구조 변화에 미치는 영향-)

  • Seo Jung Sook
    • Journal of Nutrition and Health
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    • v.25 no.6
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    • pp.501-510
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    • 1992
  • The present study was designed to evaluate the effect of pretreatment with coenzyme {{{{ { Q}_{10 } }}}} on adriamycin-induced myocardial ultrastructural changes in rats. Except control group 6 treat-ments included three levels of dietary conenzyme {{{{ { Q}_{10 } }}}} (0, 0.1 or 0.5g/kg diet) and two levels of ADR(1.0 or 2.0mg/kg B.W/week) Adriamycin treatment significantly decreased growth perfo-rmance of rats. But this decrement was not modified by dietary supplementation of coenzyme{{{{ { Q}_{10 } }}}} Electron microscopic examination revealed a progression of myocardial lesions were depen-dent upon the level of ADR injection. The most frequently observed fin structural alterations in rat myocardium were mitochondrial swelling dilation of the sarcoplasmic reticulum and the appearance of a perinuclear vacuolication. But these structural changes were somewhat reduced by dietary supplementation of coenzyme {{{{ { Q}_{10 } }}}}.

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Functional Expression of the Neurospora crassa coq-4 Gene in Saccharomyces cerevisiae. (Saccharomyces cerevisiae에서 Neurospora crassa coq-4 유전자의 기능적 발현)

  • 김은정;최상기;천재우;오계헌;이병욱
    • Korean Journal of Microbiology
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    • v.40 no.2
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    • pp.73-80
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    • 2004
  • Coenzyme Q is a quinone derivative that acts as a lipid electron carrier in the respiratory chain located at mito-chondrial inner membrane in eucaryotes or plasma membrane in procaryotes and also functions as antioxidant. A putative Neurospora crassa coq-4 gene was cloned and functionally expressed in Saccharomyces cerevisiae coq4 mutant. Complemented S. cerevisaie mutant strain was able to produce coenzyme $Q_{6}$ and showed a normal growth rate. They also showed less sensitivities to polyunsaturated fatty acids such as linoleic acid or linolenic acid. The predicted sequence of N. crassa COQ4 is consisted of 347 amino acids with a molecular mass of 39.7 kDa and showed 35% identity and 52% similarity with that of S. cerevisiae.

The protective effect of coenzyme Q10 on cytotoxicity of regin monomer of odontoblast caused by TEGDMA (코엔자임 Q10 처리에 따른 TEGDMA에 의해 유발된 치아 세포 사멸 억제 효과)

  • Lee, Ahreum;Park, Soyeong;Lee, Kyung Hee
    • Journal of Korean society of Dental Hygiene
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    • v.14 no.5
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    • pp.775-781
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    • 2014
  • Objectives : The purpose of the study is to investigate the protective effect of coenzyme $Q_{10}$ on cytotoxicity effect of dental monomers in odontoblast(MDPC-23). Methods : MDPC-23 was incubated with the(co)monomers triethylene glycol dimethacrylate (TEGDMA) with and without addition of coenzyme $Q_{10}$. The cell proliferation and survival was determined using WST-1 assay. The level of reactive oxygen species(ROS) was measured by immunofluorescent staining for DCF-DA. Results : TEGDMA treatment decreased the cell proliferation by dose dependently(0.1, 1, 2.5, 5, 10 mM) on the growth of MDPC-23 cells. Coenzyme $Q_{10}$ showed cell proliferation from 5 to $500{\mu}M$ by WST-1 assay. Pre-treatment coenzyme $Q_{10}$ showed the antioxidant effect on proliferation and viability of MDPC-23 after 48h(p<0.05). The positive cells were observed in non-coenyme $Q_{10}$ treatment group(group 2) in comparison with coenyme $Q_{10}$ pre-treatment group(group 1) by DCF-DA. The fluorescence positive cells showed 14.715(group 1) and 19.788(group 2) using image J system. Conclusions : TEGDMA induced cytotoxicity. The MDPC-23 cell death was associated with the increasing ROS. Coenyme $Q_{10}$ showed the antioxidant effects by decreasing ROS. This effects may contribute to the treatment of periodontal disease induced by TEGDMA after operation.

Restoration of Saccharomyces cerevisiae coq7 Mutant by a Neurospora crassa Gene (Neurospora crassa 유전자에 의한 Saccharomyces cerevisiae coq7 돌연변이의 회복)

  • 김은정;김상래;이병욱
    • Journal of Life Science
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    • v.13 no.6
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    • pp.933-942
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    • 2003
  • CoenzymeQ is a quinone derivative with a long isoprenoid side chain. It transports electrons in the respiratory chain located in the inner mitochondrial membrane of eukaryotes and the plasma membrane of prokaryotes. It also functions as an antioxidant. Saccharomyces cerevisine coq mutants, that are deficient coenzyme Q biosynthesis fail to aerobically grow. They are not able to grow on non-fermentable carbon sources, such as glycerol, either The putative $coq^{-7}$ gene involved in coenzyme Q biosynthesis of Neurospora crassa was cloned and used for complementation of S. cerevisiae coq7 mutant. The predicted amino acid sequence of N. crassa COQ7 showed about 58% homology with Coq7p of S. cerevisiae. The growth rate of S. cerevisiae $coq^7$ mutant transformed with the N. crassa $coq^{-7}$ gene was restored to the wild-type level. The complemented 5. cerevisiae strain was able to grow with glycerol as a sole carbon source and showed less sensitivities to linolenic acid, a polyunsaturated fatty acid.

Production and Characterization of Beta-lactoglobulin/Alginate Nanoemulsion Containing Coenzyme Q10: Impact of Heat Treatment and Alginate Concentrate

  • Lee, Mee-Ryung;Choi, Ha-Neul;Ha, Ho-Kyung;Lee, Won-Jae
    • Food Science of Animal Resources
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    • v.33 no.1
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    • pp.67-74
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    • 2013
  • The aims of this research were to produce oil-in-water ${\beta}$-lactoglobulin/alginate (${\beta}$-lg/Al) nanoemulsions loaded with coenzyme $Q_{10}$ and to investigate the combined effects of heating temperature and alginate concentration on the physicochemical properties and encapsulation efficiency of ${\beta}$-lg/Al nanoemulsions. In ${\beta}$-lg/Al nanoemulsions production, various heating temperatures (60, 65, and $70^{\circ}C$) and alginate concentrations (0, 0.01, 0.03, and 0.05%) were used. A transmission electron microscopy was used to observe morphologies of ${\beta}$-lg/Al nanoemulsions. Droplet size and zeta-potential values of ${\beta}$-lg/Al nanoemulsions and encapsulation efficiency of coenzyme $Q_{10}$ were determined by electrophoretic light scattering spectrophotometer and HPLC, respectively. The spherically shaped ${\beta}$-lg/Al nanoemulsions with the size of 169 to 220 nm were successfully formed. The heat treatments from 60 to $70^{\circ}C$ resulted in a significant (p<0.05) increase in droplet size, polydispersity, zeta-potential value of ${\beta}$-lg/Al nanoemulsions, and encapsulation efficiency of coenzyme $Q_{10}$. As alginate concentration was increased from 0 to 0.05%, there was an increase in the polydispersity index of ${\beta}$-lg/Al nanoemulsions and encapsulation efficiency of coenzyme $Q_{10}$. This study demonstrates that heating temperature and alginate concentration had a major impact on the size, polydispersity, zeta-potential value and encapsulation efficiency of coenzyme $Q_{10}$ in ${\beta}$-lg/Al nanoemulsions.

The Effect of Coenzyme Q10 Supplementation on Oxidative Stress Index and Antioxidant Capacity in the Elderly (Coenzyme Q10 섭취가 노인들의 혈중 산화적 스트레스 지표 및 항산화 능력에 미치는 영향)

  • Kim, Jung-Kyu;Roh, Seong-Kyu
    • Korean Journal of Exercise Nutrition
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    • v.13 no.1
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    • pp.29-35
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    • 2009
  • The purpose of this study was to investigate the effects of oral supplementation of coenzyme Q10 (CoQ10) for 4 weeks on the plasma free oxygen radical and total antioxidant capacity at resting and after one bout exercise in healthy old men. Thirty volunteers with an average (+/-SD) age of 62.59+/-5.3 years participated in this study and were divided with three groups; CoQ10 (200 mg daily) group, vitamin C & E (800mg, 400 IU daily) group, and placebo group. A cycle exercise (60% HRR) test was performed at the end of study. Blood samples were taken for the analyses at rest and pre-, post-, 30min after cycle exercise, before and after the 4 weeks of supplementation. After supplementation, there were no significant differences in the plasma free oxygen radical levels and total antioxidant capacity at resting. Plasma free oxygen radical level and total antioxidant capacity in three groups were significantly elevated after exercise, however, it did not vary significantly between groups. CoQ10 supplementation showed significant difference in total antioxidant capacity during recovery phase compared with placebo group. Our results demonstrated that supplementation of CoQ10 in healthy old men improve blood total antioxidant capacity after one bout exercise, despite no alteration of plasma free oxygen radical levels.

Association of Colony Morphology with Coenzyme $Q_{10}$ Production and Its Enhancement from Rhizobium radiobacter T6102W by Addition of Isopentenyl Alcohol as a Precursor

  • Seo, Myung-Ji;Kook, Moo-Chang;Kim, Soon-Ok
    • Journal of Microbiology and Biotechnology
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    • v.22 no.2
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    • pp.230-233
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    • 2012
  • Rhizobium radiobacter T6102 was morphologically purified by the aniline blue agar plates to give two distinct colonies; white smooth mucoid colony (T6102W) and blue rough colony (T6102B). The coenzyme $Q_{10}$ ($CoQ_{10}$) was produced just by T6102W, showing 2.0 mg/g of $CoQ_{10}$ content, whereas the T6102B did not produce the $CoQ_{10}$. All of the used $CoQ_{10}$ biosynthetic precursors enhanced the $CoQ_{10}$ production by T6102W. Specifically, the supplementation of 0.75 mM isopentenyl alcohol improved the $CoQ_{10}$ concentration (19.9 mg/l) and content (2.4 mg/g) by 42% and 40%, respectively.

Birth weight was negatively correlated with plasma ghrelin, insulin resistance, and coenzyme Q10 levels in overweight children

  • Park, Eun-Ju
    • Nutrition Research and Practice
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    • v.4 no.4
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    • pp.311-316
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    • 2010
  • The purpose of this study was to investigate the relationship between birth weight and appetite related hormones, insulin resistance, and antioxidant status in overweight children aged 9-10 years. Thirty-four healthy overweight children (18 boys, 16 girls) were evaluated with respect to anthropometric measurement, lipid profiles, leptin, ghrelin, glucose, insulin, C-peptide, lipid soluble vitamins, and antioxidant enzyme activities. I found that birth weight was negatively correlated with insulin resistance parameters, ghrelin, and coenzyme Q10 levels. There was a significant positive correlation between present BMI and leptin level, while a negative correlation was noted between the BMI and $\alpha$-tocopherol and lycopene levels. When total subjects were classified into three groups by tertiles of birth weight, the lowest tertile of birth weight (LTB) group showed higher levels of fasting glucose, HOMA-IR, and ghrelin level than the highest tertile of birth weight (HTB) groups. On the other hand, HTB group showed an increased oxidative stress (decreased coenzyme Q10 level and catalase activity) compared to the LTB group. In conclusion, plasma ghrelin level might play an important role in accelerated growth in overweight children with LTB. Increased insulin resistance is present in overweight children with LTB, while decreased coenzyme Q10 and catalase activity in overweight children with HTB. These results suggest that birth weight might be an important factor for determination of treatment for obesity related complications in childhood obesity.