• Title/Summary/Keyword: Coenzyme Q10

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Antioxidant and Cytotoxic Effects of Coenzyme Q10 Derivatives (Coenzyme Q10 유도체들의 항산화 및 세포독성 효과)

  • Choi, Won-Sik;Nam, Seok-Woo;Ahn, Eun-Kyung;Eo, Jin-Yong;Lim, Sang-Ho
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.9 no.6
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    • pp.1787-1794
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    • 2008
  • Coenzyme $Q_{10}$ and six derivatives of coenzyme $Q_n$ were synthesized and tested for their antioxidative effects occurred in proximal tubular epithelial cell (LLC-PK1 cell) and cytotoxicities using in NIH/3T3 cell. As the result, synthetic coenzyme $Q_n$ derivatives showed a potent antioxidative effect compared to coenzyme $Q_{10}$. Among these synthetic compounds, coenzyme $Q_3$-C at ranged 0.04 to 0.4 mmol showed the $107.7{\sim}135.9%$ of cell viability in LLC-PK1 cell. In the test of NIH/3T3, all synthesized coenzyme $Q_n$ derivatives showed the similar effect compared with coenzyme $Q_{10}$. A correlation between isoprene unit number of coenzyme $Q_n$ derivatives and its biological effects, we suggest reduction of isoprene unit number of $Q_n$ derivatives may be related to the increase of antioxidants effects and the reduction of cytotoxicities.

Influence of Organic, Inorganic Nitrogen Sources and Amino Acids on the Biosynthesis of Coenzyme $Q_{10}$ by Agrobacterium tumefaciens Mutant (Agrobacterium tumefaciens 변이주에 의한 Coenzyme $Q_{10}$ 생합성시 유기, 무기질소원과 아미노산의 영향)

  • Kim, Jeong-Keun;Won, Yong-Bae;Lee, Kang-Moon;Koo, Yoon-Mo
    • KSBB Journal
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    • v.24 no.1
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    • pp.75-79
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    • 2009
  • The effect of inorganic, organic nitrogen sources and amino acids on the coenzyme $Q_{10}$ production and coenzyme $Q_{10}$ component ratio was investigated. Among the nine organic nitrogen sources, CSP showed a remarkable enhancing effect on the production of coenzyme $Q_{10}$. But this enhancement was not observed in medium containing Bacto peptone, tryptone, casamino acid and soybean meal. These differences on the production of coenzyme $Q_{10}$ may be due to differences in kinds and amounts of component amino acids and peptides in the various organic nitrogen sources tested. In the addition of inorganic nitrogens, only $(NH_4)_2SO_4$ increase the coenzyme $Q_{10}$ production by 2.0 times compare to the control group. The addition of L-tyrosine to the medium containing Bacto tryptone, was also determined to be crucial for the coenzyme $Q_{10}$ production. But phenylalanin and tryptophan, other aromatic amino acids, had no stimulatory effect on the coenzyme $Q_{10}$ production. These results show that the production and components ratio of coenzyme $Q_{10}$ was greatly affected by the kinds and the concentration of inorganic, organic nitrogen sources as well as amino acids.

Effect of Dietary Coenzyme $Q_{10}$ on Lipid Peroxidation in Adriamycin-treated Rats - II. Effect on Mitochondrial Coenzyme $Q_{10}$ Level and Fatty Acid Composition - (식이 중의 Coenzyme $Q_{10}$첨가가 Adriamycin을 투여한 흰쥐의 체내 지질과산화에 미치는 영향 -II. 미토콘드리아내의 Coenzyme $Q_{10}$ 수준과 지방산 조성에 미치는 영향-)

  • Seo, Jung-Sook;Han, In-Kyu
    • Journal of Nutrition and Health
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    • v.24 no.4
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    • pp.299-307
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    • 1991
  • The present study was designed to evaluate the effects of dietary coenzyme $Q_{10}$ on mitochondrial coenzyme $Q_{10}$ and fatty acid composition in adriamycin (ADR)-treated rats. Two experiments were conducted in rats. Experiment 1 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 1 after feeding the experimental diets alone without administration of ADR for 4 weeks. Heart mitochondrial coenzyme $Q_{10}$ level of rats was greatly decreased by ADR treatment. but higher level of dietary coenzyme $Q_{10}$ elevated this decrease to control ranges. Pretreatment with dietary supplementation of coenzyme $Q_{10}$ showed a significant increase in myocardial coenzyme $Q_{10}$ level. With ADR treatment. polyunsaturated fatty acids such as arachidonic acid (20 : 4) and docosahexaenoic acid (22 : 6) were decreased. However, dietary supplementation of coenzyme $Q_{10}$ modified this decrement to some extent. In both experiment 1 and 2. the polyunsaturated fatty acids/saturated and polyunsaturated fatty acids (P/S+ M) ratio of ADR-treated rats tended to be lower than that of control rats.

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Structural and Solubility Characteristics of Coenzyme Q10 Complexes Including Cyclodextrin and Starch (사이클로덱스트린과 전분을 이용한 coenzyme Q10 복합체의 특성 연구)

  • Lee, Joon-Kyoung;Lee, Hyun-Joo;Lim, Jae-Kag
    • Korean Journal of Food Science and Technology
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    • v.46 no.2
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    • pp.180-188
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    • 2014
  • This study focused on assessing the solubility and structural characteristics of two types of coenzyme $Q_{10}$ ($CoQ_{10}$) complexes: the $CoQ_{10}$-starch and the $CoQ_{10}$-cyclodextrin complexes. The solubility of $CoQ_{10}$-starch complex increased significantly as the temperature was increased. However, the solubility of $CoQ_{10}$-cyclodextrin complex reached a peak at $37^{\circ}C$, and strong aggregation occurred at $50^{\circ}C$. When the temperature was raised to $80^{\circ}C$, the $CoQ_{10}$-cyclodextrin complex dissociated owing to the weakening of bonds, resulting in $CoQ_{10}$ emerging at the surface of water. Therefore, $CoQ_{10}$-cyclodextrin complexes have lower solubility, due to their reduced heat-stability, than do the $CoQ_{10}$-starch complexes. Structural differences between the two $CoQ_{10}$ complexes were confirmed by Fourier transform infrared (FT-IR) spectroscopy, X-ray diffractometer (XRD), and differential scanning calorimeter (DSC). The $CoQ_{10}$-cyclodextrin complex included an isoprenoid chain of $CoQ_{10}$, while the $CoQ_{10}$-starch complex included both the benzoquinone ring and the isoprenoid chain of $CoQ_{10}$. These results suggest that $CoQ_{10}$-starch complexes possess higher heat-stability and solubility than do the $CoQ_{10}$-cyclodextrin complexes.

Preparation and Its Stability of a Coenzyme Q10 Nanoemulsion by High Pressure Homogenization with Different Valve Type Conditions (초고압균질기 밸브 타입에 따른 coenzyme Q10 나노에멀젼의 제조 및 안정성)

  • Lim, Ji-Sun;Gang, Ho-Jin;Yoon, Sung-Woo;Kim, Hyeong-Min;Suk, Jong-Woo;Kim, Do-Un;Lim, Jae-Kag
    • Korean Journal of Food Science and Technology
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    • v.42 no.5
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    • pp.565-570
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    • 2010
  • A coenzyme Q10 nanoemulsion was prepared using high pressure homogenization with different valve type conditions (A, B, and C) and cycle numbers (1, 2, and 3). The particle size, transmittance, zeta potential, and coenzyme Q10 content of the prepared coenzyme Q10 nanoemulsion were measured. The stability of the prepared coenzyme Q10 nanoemulsion was evaluated on heating ($95^{\circ}C$), freezing ($-20^{\circ}C$), and different pH (2-10) conditions. Also, the prepared coenzyme Q10 nanoemulsion was stored at different temperatures of 4, 25, and $40^{\circ}C$ for 12 weeks to evaluate its storage stability. In this study, the optimal conditions of high pressure homogenization for the preparation of a coenzyme Q10 nanoemulsion were identified to be 150 MPa, C valve, and a cycle number of 3. The results showed that the prepared coenzyme Q10 nanoemulsion had an average particle size of 40 nm, generated no deposits or floating matter when stored at either 4 or $25^{\circ}C$ for 12 weeks, and displayed excellent dispersibility and transparency when processed at different pHs (4-10) or heating ($95^{\circ}C$) and, freezing ($-20^{\circ}C$) conditions. Our results indicated that a coenzyme Q10 nanoemulsion prepared by high pressure homogenization can be used for preparing beverages in the food industry.

Effects of Dietary Coenzyme $Q_10$ and Vitamin E on Lipid Peroxidation in Adriamycin-treated Rat (Coenzyme $Q_10$과 Vitamin E 첨가식이가 Adriamycin을 투여한 흰쥐의 체내 지질과산화에 미치는 영향)

  • 서정숙;양경미;정영아
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.20 no.4
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    • pp.320-328
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    • 1991
  • The present study was designed to evaluate the effects of dietary vitamin E and coenzyme $Q_{10}$ supplementation on adriamycin (ADR) -induced lipid petoxidation in rats. After feeding the experimental diets for e weeks. Ann treatment significantly decreased growth performance of rats. But this decrement was not modified by supplementation of vitamin E or coenzyme $Q_{10}$ . Lipid peroxide values of plasma and heart mitochondria were elevated by Ann treatment. But these values were significantly decreased according to vitamin E or coenzyme $Q_{10}$ supplementation. Adriamycin treatment elevated glutathione peroxidase (GSH-Px) activity of rats, but this increment was modified by vitamin E supplementation. There was a tendency of higher superoxide dismutase (SOD) activity in ADR-treated rats. However, vitamin E or coenzyme $Q_{10}$ administration reduced this enzyme activity. With ADR treatment, arachidonic acid (20 : 4) was greatly increased, but docosahexaenoic acid (22 : 6) was not detected. Arachidonic acid was decreased and docosahexaenoic acid increased by supplementation of higher level of vitamin E or coenzyme $Q_{10}$ . Present data showed that dietary vitamin E and coenzyme $Q_{10}$ influenced on ADR-induced lipid peroxidation in rats, and also the degree of antioxidative effect was greater in vitamin E-supplemented rats.

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Inhibitory Effect on Melanin Formation, Collagenase and Elastase Activity by synthesized Coenzyme $Q_{10}$ Derivatives (세포내 멜라닌 생성 및 Collagenase와 Elastase에 대한 Coenzyme $Q_{10}$ 유도체들의 억제활성)

  • Choi, Won-Sik;Jang, Do-Yoen;Nam, Seok-Woo;Eo, Jin-Yong;Lee, Kyoung-Ju
    • Applied Biological Chemistry
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    • v.51 no.3
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    • pp.164-170
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    • 2008
  • Coenzyme $Q_{10}$ and six derivatives of coenzyme Qn were synthesized and tested for their inhibitory effects on melanogenesis occurred in murine melanoma (B16/F1) cells and on collagenase/elastase activities as well. As the result, synthetic coenzyme Qn showed a potent inhibitory effect on melanin formation, collagenase and elastase activities in all tested concentrations. Among these synthetic compounds, coenzyme $Q_1$ and coenzyme $Q_2$ potentially inhibited melanin formation and elastase activity when compared to other coenzyme Qn derivatives. For the collagenase activities, all coenzyme Qn derivatives inhibited 80-85% of controls. As compared, coenzyme Qn derivatives exhibited strong inhibitory activities with the decrease of isoprenoid unit number of coenzyme Qn derivatives except for collagenase activity. For the inhibition of collagenase activity, moiety of benzoquinone might be considered as the active functional group. Taken together, coenzyme $Q_1$ and coenzyme $Q_2$ might be used for functional cosmetics.

Effects of dietary coenzyme Q10 on adriamycin-induced myocardial ultrastructural changes in rats (식이중의 Coenzyme Q10첨가가 Adriamycin을 투여한 흰쥐의 심근 미세구조에 미치는 영향)

  • Seo, Jung-Sook;Han, In-Kyu;Chung, Hyung-Jae
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.18 no.1
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    • pp.62-70
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    • 1989
  • The present study was designed to evaluate whether supplementation of dietary coenzyme Q10 protects the ADR-induced cardiotoxicity in rats. Experiment was undertaken under the condition of simultaneous adminstration of ADR and coenzyme Q10 for 4 weeks. Adriamycin treatment significantly decreased growth performance of rats. But this decrement was not modified by dietary supplementation of conzyme Q10. In the plasma creatine phosphokinase activity, there was no significant difference among experimental groups. Electron microscopic examination revealed a progression of myocardial lesions were dependent upon the level of ADR injection. The most frequently observed fine structural alterations in rat myocardium were mitochondrial swelling, dilation of the sarcoplasmic reticulum and the appearance of a perinuclear vacuolization. But these structural changes were somewhat lesser in defree by dietary supplementation of coenzyme Q10.

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Ergogenic Effect of Cervi Cornu and CoenzymeQ10 Complex (녹각 추출물과 CoenzymeQ10 복합제가 운동능력에 미치는 영향)

  • Lee, In-hee;Kim, Min-ji;Park, Sung-woon;Park, Yeo-eun;Kim, Hyun-mi;Le, Jae-hwan
    • The Journal of Internal Korean Medicine
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    • v.36 no.3
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    • pp.297-307
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    • 2015
  • Objectives: We aimed to evaluate the effect of Cervi Cornu and coenzymeQ10 on exercise and endurance capacity in rats and mice. Methods: The extract of Cervi Cornu was manufactured by the pharmacy department of Kyung Hee Oriental Medical Hospital, and CoQ10 soft cap (Ildong Pharmaceutical) was used. In total, 24 rats and 30 mice were divided into 3 groups: Control (rat=8, mouse=10), CoQ10 alone (rat=8, mouse=10), Cervi Cornu extract, and CoQ10 (rat=8, mouse=10). Ergogenic effect was evaluated by administering the Cervi Cornu extract and coenzymeQ10 to rats and measuring the time to exhaustion during treadmill running; endurance capacity was assessed by measuring cold water swimming time, serum lactate level, and serum corticosterone level in each group. At 1 week from the end of treatment, we recalculated time to exhaustion during treadmill running in rats to investigate the long-term effect of the Cervi Cornu extract and coenzymeQ10. Results: Cervi Cornu extract has long-term benefits in that it preserves the ergogenic effect caused by exercise. Cervi Cornu and coenzymeQ10 have no effect on increasing cold water swimming time in ICR mice. CoenzymeQ10 decreases the serum corticosterone level in ICR mice performing cold water swimming test. Conclusions: Cervi Cornu seems to preserve the ergogenic effect caused by exercise, but a larger study is needed to investigate effect of Cervi Cornu and coenzymeQ10 on improving endurance capacity. CoenzymeQ10 decreases serum corticosterone level and it is related with the anti-psychological fatigue effect.

Effects of Dietary Coenzyme Q_{10}$ and Vitamin E on Hepatic Lipid Metabolism in Adriamycin-Treated Rat (식이 중에 첨가한 Coenzyme $Q_{10}$가 Vitamin E가 Adriamycin을 투여한 흰쥐의 간 지질대사에 미치는 영향)

  • Yang, Kyung-Mi;Jung, Young-Ah;Seo, Jung-Sook
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.21 no.5
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    • pp.484-489
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    • 1992
  • The present study was designed to evaluate the effects of dietary coenzyme $Q_{10}$ and vitamin E on hepatic lipid metabolism changes in adriamy cin(ADR)-treated rats. ADR treatment significantly increased the plasma levels of lipid peroxide in rats. But this increase was reduced by dietary supplementation of coenzyme $Q_{10}$ or vitamin E. Catalase and glutathione peroxidase activities were not greatly changed by ADR treatment, but the activities were significantly increased by dietary coenzyme $Q_{10}$. There was a tendency of lower superoxide dismutase activity in ADR-treated rats. However, coenzyme $Q_{10}$ administration induced this enzyme activity. The contents of cholesterol and phospholipid in liver were elevated by ADR-treated. Dietary coenzyme $Q_{10}$ reduced the increased hepatic cholesterol content in ADR-treated rat.

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