• Journal of Nutrition and Health
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• 제30권4호
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• pp.379-385
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• 1997

This study was designed to determine whether genetic defects in the efficiency of ATP synthesis existed in the NIDDM-prone BHE/cdb rat and to determine whether these defects caused the development of glucose intolerance. Thyroxine treatment provided an excellent clue as to the nature of the genetic defects in this rat. The characteristics of hyperhyroid and control Sprague-Dawley(SD) and BHE/cdb rats were studied. Hyperthyroidism was induced through the addition of thyroxine($T_4$) to the diet(2mg/kg of diet). Active proton conductances and passive proton conductances were tested. Mitochondria from hyperhyroid BHE/cdb rats were less efficient iii active proton conductances than mitochondria from hyperhyroid SD rats. It showed that decreased efficiency of ATP synthesis in the BHE/cdb rat was probably related to defects in active proton conductance, Indicating aberrant FoATPase. The levels of $F_1F_0$ATPaseATPase activity were tested. Mitochondria from hyperthyroid BHE/cdb rats were less active than mitochondria from hyperthyroid SD rats. This may be an attribute of aberrant F$_1$ATPase and may contribute to the BHE/cdb strain s characteristic of reduced ATP synthesis efficiency. Glucose tolerances were tested. BHE/cdb rats were profoundly affected by thyroxine, whereas SD rats were less so. It showed that the diabetes phenotype in BHE/cdb rats was related to defects in thyroxine-induced uncoupling. These results showed the decreased efficiency of ATP synthesis due to genetic defects in $F_1F_0$ATPase had relevance to the characteristic of impaired glucose tolerance in the NIDDM-prone BHE/cdb rat.

• BMB Reports
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• 제50권12호
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• pp.597-598
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• 2017

Mitochondria have evolutionarily, functionally and structurally distinct outer- (OMM) and inner-membranes (IMM). Thus, mitochondrial morphology is controlled by independent but coordinated activity of fission and fusion of the OMM and IMM. Constriction and division of the OMM are mediated by endocytosis-like machineries, which include dynamin-related protein 1 with additional cytosolic vesicle scissoring machineries such as actin filament and Dynamin 2. However, structural alteration of the IMM during mitochondrial division has been poorly understood. Recently, we found that the IMM and the inner compartments undergo transient and reversible constriction prior to the OMM division, which we termed CoMIC, ${\underline{C}}onstriction$ ${\underline{o}}f$ ${\underline{M}}itochondrial$ ${\underline{I}}nner$ ${\underline{C}}ompartment$. In this short review, we further discuss the evolutionary perspective and the regulatory mechanism of CoMIC during mitochondrial division.

• 한국균학회지
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• 제20권1호
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• pp.51-57
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• 1992

Mitochondria in Pleurotus ostreatus were isolated and purified by stepped sucrose density gradient centrifugation, to compare the effects of organic compound on the activities of mitochondrial ATPase in Basidiomycotina with those in mammalian cell. The effects of N, N'-dicycio-hexylcarbodiimide (DCCD), carbonyl cyanide m-chlorophenylhydrazone (CCCP), sodium azide and aurovertin known as compounds to be related to electron transfer system in mitochondria were studied. A activity of mitochondrial ATPase was inhibited by 64%, 57% and 53% in the presence of 0.25 mM DCCD, 0.02 mM sodium azide and 1.5 $({\mu}g/mg\;of\;protein)$ aurovertin B, respectively. It was stimulated by 22% in the presence of 0.15 ${\mu}M$ CCCP.

• 한국식품위생안전성학회지
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• 제3권1호
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• pp.37-40
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• 1988

Alloxan으로 유도된 당뇨병상태에서 Brazilin 투여시 mitochondira 분획 및 microsome 분획에서 용량의존적으로 억제효과가 증가하였으며 Brazilin 100mg/kg을 투여시는 mitochondria 분획에서 56.7% 억제를 , microsome 분획에서는 68.4%의 억제효과를 보였다. 또한 Brazilin 100mg/kg을 시간별 투여시 시간의존적으로 억제효과가 증가하였으며 30일간 투여시에 mitochondria 분획에서 66.2%, microsome 분획에서 74.3%의 억제효과를 보았다.

• BMB Reports
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• 제50권6호
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• pp.299-307
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• 2017

Mitophagy is a process of selective removal of damaged or unnecessary mitochondria using autophagic machinery. Mitophagy plays an essential role in maintaining mitochondrial quality control and homeostasis. Mitochondrial dysfunctions and defective mitophagy in neurodegenerative diseases, cancer, and metabolic diseases indicate a close link between human disease and mitophagy. Furthermore, recent studies showing the involvement of mitophagy in differentiation and development, suggest that mitophagy may play a more active role in controlling cellular functions. A better understanding of mitophagy will provide insights about human disease and offer novel chance for treatment. This review mainly focuses on the recent implications for mitophagy in human diseases and normal physiology.

• Journal of Ginseng Research
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• 제42권2호
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• pp.133-143
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• 2018

Background: AD-2 (20(R)-dammarane-3b, 12b, 20, 25-tetrol; 25-OH-PPD) is a ginsenoside and isolated from Panax ginseng, showing anticancer activity against extensive human cancer cell lines. In this study, effects and mechanisms of 1C ((20R)-3b-O-(L-alanyl)-dammarane-12b, 20, 25-triol), a modified version of AD-2, were evaluated for its development as a novel anticancer drug. Methods: MTT assay was performed to evaluate cell cytotoxic activity. Cell cycle and levels of reactive oxygen species (ROS) were determined using flow cytometry analysis. Western blotting was employed to analyze signaling pathways. Results: 1C concentration-dependently reduces prostate cancer cell viability without affecting normal human gastric epithelial cell line-1 viability. In LNCaP prostate cancer cells, 1C triggered apoptosis via Bcl-2 family-mediated mitochondria pathway, downregulated expression of mouse double minute 2, upregulated expression of p53 and stimulated ROS production. ROS scavenger, N-acetylcysteine, can attenuate 1C-induced apoptosis. 1C also inhibited the proliferation of LNCaP cells through inhibition on $Wnt/{\beta}-catenin$ signaling pathway. Conclusion: 1C shows obvious anticancer activity based on inducing cell apoptosis by Bcl-2 family-mediated mitochondria pathway and ROS production, inhibiting $Wnt/{\beta}-catenin$ signaling pathway. These findings demonstrate that 1C may provide leads as a potential agent for cancer therapy.

• Plant Biotechnology Reports
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• 제4권4호
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• pp.281-291
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• 2010

The rice CHLH gene encodes the $Mg^{2+}$-chelatase H subunit, which is involved in chlorophyll biosynthesis. Growth of the chlorophyll-deficient oschlh mutant is supported by mitochondrial activity. In this study, we investigated the activity of mitochondrial respiration in the illuminated leaves during oschlh seedling development. Growth of mutant plants was enhanced in the presence of 3% sucrose, which may be used by mitochondria to meet cellular energy requirements. ATP content in these mutants was, however, significantly lowered in light conditions. Low cytosolic levels of NADH in illuminated oschlh mutant leaves further indicated the inhibition of mitochondrial metabolism. This down-regulation was particularly evident for oxidative stressresponsive genes in the mutant under light conditions. Hydrogen peroxide levels were higher in oschlh mutant leaves than in wild-type leaves; this increase was largely caused by the impairment of the expression of the antioxidant genes, such as OsAPXl, OsRACl, and OsAOXc in knockout plants. Moreover, treatment of mesophyll protoplasts with ascorbic acid or catalase recovered ATP content in the mutants. Taken together, these results suggest that the light-mediated inhibition of mitochondrial activity leads to stunted growth of CHLH rice seedlings.

• Applied Microscopy
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• 제27권1호
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• pp.87-100
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• 1997

To investigate the effects of mercuric chloride $(HgCl_2)$ on the differentiation of the cerebral neuron of chick embryo 10 days, the ultrastructural changes in nerve cells injected with a various doses of mercuric chloride were observed with transmission electron microscope. The enzyme activity of the some dehydrogenases, cerebral proteins and adenosine triphosphate (ATP) were also analyzed. The results obtained are as follows; The ultrastructural changes in 1.0 mg-injected group, the nuclear membranes were irregular, outer of mitochondria membrances dispressioned, their cristae were destroyed. In 2.0 mg-injected group, the nuclear envelops were destroyed and divided, were not observed organelle except of few ribosome, the RER and mitochondria. The number of polypeptide bands were separated by SDS-PAGE in the normal group were 38 bands. According to the in creased dose of mercuric chloride, contends of the bands were increased in 4 bands, but were decreased in 1 band. The activities of dehydrogenases were declined by increasing the dose of mercuric chloride. Lactate dehydrogenase (LDH) activity fatted to 61% in 2.0 mg-injected group. Malate dehydrogenase (MDH) activity fatted to 90% in 1.0 mg-injected group, greatly to 76% in 2.0 mg-injected group. Succinate dehydrogenase (SDH) activity decreased to 79% in 1.0 mg-injected group and greatly to 62% in 2.0 mg-injected group. ATP content in 1.0 mg-injected group was almost near to the normal level, but it was increased greatly in 2.0 mg-injected group.

• 대한한의진단학회지
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• 제17권3호
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• pp.275-286
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• 2013

In the present study, antioxidant activity and protective effect of extracts from Sambucus williamsii var. coreana stems (SWC) were evaluated on tert-butyl hydroperoxide (t-BHP) induced oxidative stress in human liver (Chang) cells. Antioxidant activities of the SWC extracts were determined by various radical scavenging activities, such as DPPH, ferric reducing antioxidant power (FRAP), 2,2'-azinobis-(3-ethybenzothiazoline-6-sulfonic acid) (ABTS) radical scavenging activity and oxygen radical absorbance capacity (ORAC) assay. SWC extracts showed strong antioxidant effect on various assay. To determine the hepatoprotective effects of SWC on t-BHP induced oxidative damage, cell viability was measured using MTT assay. Pretreatment of SWC extracts showed increasing cell viability, decreasing ROS and restoring mitochondria membrane potential on t-BHP induced oxidative stress in Chang cells. Our findings suggest that SWC extracts may be considered a potential agent for therapeutic protective effect from oxidative stress through its antioxidant activity.

• 한국균학회지
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• 제22권2호
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• pp.122-129
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• 1994

표고버섯의 mitochondria에 금속 chelating agent인 10 mM EDTA 및 10 mM o-Phe을 포함하는 10 mM Tris-HCl 완충용액(pH 7.5)으로 48시간 동안 각각 투석처리 하였을 때 mitochondria 내의 철 이온 함량이 투석처리를 하지 않은 대조구에 비하여 각각 74% 및 68% 감소되며, mitochondrial $F_1-ATPase$의 활성도는 대조구에 비하여 각각 56% 및 49%의 활성을 상실하였다. EDTA 투석에 의하여 활성을 상실한 metal-free mitochondrial $F_1-ATPase$는 $0.5\;mM\;Fe^{3+}$과 $0.05\;mM\;Mg^{2+}$에 의하여 각각 81% 및 70%의 활성이 회복되었으며, $Fe^{2+}$에 의해서는 활성이 회복되지 않았다. 또한 이 효소는 $0.5\;mM\;Fe^{3+}$와 $0.05\;mM\;Mg^{2+}$이 공존할 때 95%의 재활성화를 나타내었으며, $Fe^{2+}$와 $Mg^{2+}$의 공존 효과는 없었다. o-Phe으로 투석한 효소도 각 이온에 대하여 EDTA로 투석한 효소와 유사한 결과를 나타내었다. 그러므로, 표고버섯 내의 mitochondrial $F_1-ATPase$는 그 활성을 나타내는 데 있어서 $Fe^{3+}$ 및 $Mg^{2+}$을 필요로 함을 알았다. 기질 ATP에 대한 효소의 Km값은 1.67 mM이나, 효소를 가장 크게 활성화시키는 $0.5\;mM\;Fe^{3+}$와 $0.05\;mM\;Mg^{2+}$이 존재할 때의 Km값은 0.65 mM로서 기질 친화성이 증가되었다.