Mitochondrial Dysfunction in Cancer and Neurodegenerative Diseases: Spotlight on Fatty Acid Oxidation and Lipoperoxidation Products

Barrera, Giuseppina; Gentile, Fabrizio; Pizzimenti, Stefania; Canuto, Rosa Angela; Daga, Martina; Arcaro, Alessia; Cetrangolo, Giovanni Paolo; Lepore, Alessio; Ferretti, Carlo; Dianzani, Chiara; Muzio, Giuliana

doi:10.3390/antiox5010007

Cited by 59 publications

(49 citation statements)

References 153 publications

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“…Excessive ROS enhance the peroxidation of fatty acids in mitochondrial membranes to produce lipid peroxidation productions, such as MDA (Barrera et al, 2016). In fatty liver mice, MDA remarkably increased, which indicated that the cells were damaged by overproduction of ROS.…”

Section: Discussionmentioning

confidence: 99%

Mitotherapy for Fatty Liver by Intravenous Administration of Exogenous Mitochondria in Male Mice

Shi

Zhang

et al. 2017

Front. Pharmacol.

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Mitochondrial dysfunction is a major and common mechanism in developing non-alcoholic fatty liver disease (NAFLD). Replacement of dysfunctional mitochondria by functional exogenous mitochondria may attenuate intrahepatic excessive lipid and recover hepatocyte function. However, no data shows that mitochondria can be systemically administrated to animals to date. Here we suggest that mitochondria isolated from hepatoma cells are used as a mitotherapy agent to treat mouse fatty liver induced by high-fat diets. When the mitochondria were intravenously injected into the mice, serum aminotransferase activity and cholesterol level decreased in a dose-dependent manner. Also, the mitotherapy reduced lipid accumulation and oxidation injury of the fatty liver mice, improved energy production, and consequently restored hepatocyte function. The mitotherapy strategy offers a new potential therapeutic approach for treating NAFLD.

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Section: Discussionmentioning

confidence: 99%

Mitotherapy for Fatty Liver by Intravenous Administration of Exogenous Mitochondria in Male Mice

Shi

Zhang

et al. 2017

Front. Pharmacol.

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“…하지만 과도하게 발생된 ROS는 산화적 스트레스를 유발하여 유전자 돌연변이 유발과, 체내 세포와 조직에 비가역적인 손상 및 각 종 암의 발생뿐 만 아니라 치매와 같은 퇴행성 신경 질환의 주요한 원인이 되고 [3,16,22], 면역 질환 [19,38], 당뇨병 [31] 및 노화 [17] [8], 해독 [32], 해열 [1], 방부 [6], 항염증 [40] Sipyukmiyuki-eum; 2) Danjacheongpi-tang; 3) Jipae-san Ⅰ; Table 2에 Values are presented as the mean ± SD. 1) Hot water extracts of Sipyukmiyuki-eum; 2) Hot water extracts of Danjacheongpi-tang; 3) Hot water extracts of Jipae-san Ⅰ;…”

Section: 서 론unclassified

Anti-oxidant and Anti-microbial Activities of Herb-combined Remedies used in Traditional Korean Medicine for Treating Breast Cancer

Choi¹,

Son²,

Kim³

et al. 2016

Journal of Life Science

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Sipyukmiryuki-eum (SYMYKE), Danjacheongpi-tang (DJCPT), Jipae-san Ⅰ (JPS Ⅰ), Jipae-san Ⅱ (JPS Ⅱ), and Chungganhaeul-tang (CGHUT) are representative herb-combined remedies used in traditional Korean medicine for treating breast cancer patients, as mentioned in "Dongeuibogam." In this study, we investigated the total phenolic contents (TPCs) and the anti-oxidant and anti-microbial activities of hot water and 70% ethanol extracts of these herbal prescriptions. Among the five herb-combined remedies, the extraction yields of the hot water extracts and 70% ethanol extracts were the highest in JPS Ⅱ (34.30%) and DJCPT (30.50%), respectively. The TPCs of the hot water extracts from the herb medicines were rich in the order of JPS Ⅰ < CGHUT < JPS Ⅱ < SYMYKE < DJCPT. In addition, the 70% ethanol extracts from the herb medicines were rich in the order of JPS Ⅱ < JPS Ⅰ < CGHUT < SYMYKE < DJCPT. Among them, DJCPT and SYMYKE displayed a strong anti-oxidant capability, which was determined using ferric-reducing anti-oxidant power and scavenging of 2,2'-diphenyl-1-picrylhydrazyl and 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonate) cationic radical activity assays. In addition, anti-microbial activities against Staphylococcus aureus and Escherichia coli were stronger in the 70% ethanol extracts than in the hot water extracts. Together, these findings reveal a positive relationship between TPCs and their anti-oxidant activities.Key words : Antimicrobial activity, antioxidant activity, total phenolic contents, traditional herb-combined remedies

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“…5,87 In cancer cells, the increased ROS production is linked to mtDNA mutations and to alterations of their bioenergetics and biosynthetic state. 88 Several metabolic alterations are found in cancer cells, such as increased fatty acid synthesis and glutamine metabolism and increased aerobic glycolysis, known as the "Warburg effect," which is thought to be caused by defective mitochondria: the aerobic glycolysis enables cancer cells to use glucose for the biosynthesis of macromolecules, thus supporting their rapid growth. Other mechanisms of damage include the peroxidation of fatty acids in mitochondrial membranes, with the production of reactive aldehydes, which react with DNA and proteins.…”

Section: Oxidative Stress and Tumor Development In Cancer-prone Genetmentioning

confidence: 99%

“…Other mechanisms of damage include the peroxidation of fatty acids in mitochondrial membranes, with the production of reactive aldehydes, which react with DNA and proteins. [88][89][90][91] A mitochondrial dysfunction is a hallmark in several genetic diseases characterized by high neoplastic risk starting from pediatric age 92 : these syndromes represent a valid model to study the correlation between mitochondrial impairment and tumor development. Among these diseases, one of the best known is Ataxia-Telangiectasia (AT), an autosomal recessive disorder caused by mutational inactivation of ATM gene.…”

Section: Oxidative Stress and Tumor Development In Cancer-prone Genetmentioning

confidence: 99%

Mitochondrial Dysfunction and Oxidative Stress in Pediatric Diseases

et al. 2016

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Oxidative stress is a distinctive sign in a long series of human diseases, including metabolic, neurologic, and cancer disorders. Several studies demonstrated that the toxic effects resulting from a redox imbalance take place even during infant age. Recent literature focused in particular on the role exerted by unpaired mitochondrial function in the pathogenesis of these diseases. Oxidative damage and mitochondrial dysfunction are cofactors in the pathogenesis of diabetes, as well as major contributors to its associated complications, primarily represented by cardiovascular disease. In epilepsy, mitochondrial failure is thought to be one of the possible mechanisms for seizure generation through a dysregulation in calcium homeostasis; moreover, the prolonged seizure-related neuronal excitation is able to trigger mitochondrial damage, proving the existence of interdependency between epileptic activity and mitochondrial dysfunction. Oxidative stress plays a pivotal role in carcinogenesis, and its intervention has been demonstrated in the pathogenesis of cancer-prone genetic diseases. The identification of specific molecular targets linked to altered mitochondrial function allows to select more rational and appropriate supportive treatments using antioxidants and mitochondrial nutrients as potential new therapeutic approaches.

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Mitochondrial Dysfunction in Cancer and Neurodegenerative Diseases: Spotlight on Fatty Acid Oxidation and Lipoperoxidation Products

Cited by 59 publications

References 153 publications

Mitotherapy for Fatty Liver by Intravenous Administration of Exogenous Mitochondria in Male Mice

Mitotherapy for Fatty Liver by Intravenous Administration of Exogenous Mitochondria in Male Mice

Anti-oxidant and Anti-microbial Activities of Herb-combined Remedies used in Traditional Korean Medicine for Treating Breast Cancer

Mitochondrial Dysfunction and Oxidative Stress in Pediatric Diseases

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