The Vitamin E Analog Gamma-Tocotrienol (GT3) Suppresses Radiation-Induced Cytogenetic Damage

Pathak, Rupak; Bachri, Abdel; Ghosh, Sanchita; Koturbash, Igor; Boerma, Marjan; Binz, Regina Lichti; Sawyer, Jeffrey R.; Hauer‐Jensen, Martin

doi:10.1007/s11095-016-1950-0

Cited by 19 publications

(14 citation statements)

References 39 publications

(43 reference statements)

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“…It was found that gamma tocotrienol modulates as many as 27 gene clusters in human umbilical vein endothelial cells involved in DNA damage (BERBEE et al, 2012). Pathak et al (2016), suggested several mechanisms to explain how gamma-tocotrienol detoxifies ROS. Gamma-tocotrienol may regulate mitochondrial activity, transcription factors, or endothelial cell surface receptors.…”

Section: Discussionmentioning

confidence: 99%

“…The vitamin E isoforms tocotrienol are natural dietary antioxidant and a potent radioprotector, with the largest dose reduction factor among all the natural products (GHOSH et al 2009). Many studies do not fully understand how tocotrienol protects against radiation damage but it may regulate apoptotic signals, cytokine production, cholesterol biosynthesis, or progenitor cell mobilization (PATHAK et al, 2016). Moreover, gene-expression profiles suggest that γ-tocotrienol affects a number of genes known to be important for the DNA damage response (BERBEE et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

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Radioprotective role of α-tocotrienol against oxidative damage in γ-irradiated human blood cultures

Ahmed¹,

Montaser²,

Mohamed³

et al. 2018

Biosci. J.

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Tocotrienols are members of the natural vitamin E family which is considered one of important fat soluble vitamins. The tocotrienols react with free radicals, which are the main cause of oxidation damage to cell membranes, without formation of other free radicals in the process. All natural forms of tocotrienols have the ability to regulate peroxidation reactions and to control free radicals production within the body. This study aimed to assess the antimutagenic and antioxidant ability of α-tocotrienol at a working dose (0.04 mg/ ml) through cytogenetic (Micronucleus test) study and biochemical analysis including Caspase-3, Superoxide dismutase (SOD), Catalase (CAT) activities and Nitric Oxide (NO) concentration in γ-irradiated human blood cultures. The treatment time was 72 hrs post-irradiation with gamma rays at dose of 3 Gy. Triple blood cultures for each blood sample were set up. Ionizing irradiation induces a significant increase in micronuclei (MNi) frequencies, and nucleuplasmic bridge (N bridge) accompanied by a significant rise in Caspase-3 activity and NO concentration. Furthermore, SOD and CAT activities showed significant decrease. αtocotrienol treatment results into a decrease of MNi and N bridges numbers, enhancement of SOD and CAT activities and improvement of both NO and Caspase-3 levels, compared to irradiated cells which not treated with α-tocotrienol. The present results reveal the antimutagenic and the anti-oxidant effects of α-tocotrienol against γ-irradiation.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Radioprotective role of α-tocotrienol against oxidative damage in γ-irradiated human blood cultures

Ahmed¹,

Montaser²,

Mohamed³

et al. 2018

Biosci. J.

View full text Add to dashboard Cite

show abstract

“…Furthermore, DNA damage taking place in human white blood cells in vitro appeared to be related to consumption of dietary antioxidants [169]. Additionally, in a recent study [141], human umbilical vein endothelial cells were subjected to gamma-irradiation where gamma-tocotrienol was found to attenuate DNA double-strand breaks. Moreover, the same work showed an increase in the expression of the DNA repair RAD50, therefore highlighting the importance of gamma-tocotrienol and its sources as a potential therapeutic strategy to reduce irradiation-induced genetic diseases.…”

Section: Tocopherols and Tocotrienols In Health Promotionmentioning

confidence: 99%

Tocopherols and Tocotrienols in Common and Emerging Dietary Sources: Occurrence, Applications, and Health Benefits

Shahidi

Camargo

2016

IJMS

294

176

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Edible oils are the major natural dietary sources of tocopherols and tocotrienols, collectively known as tocols. Plant foods with low lipid content usually have negligible quantities of tocols. However, seeds and other plant food processing by-products may serve as alternative sources of edible oils with considerable contents of tocopherols and tocotrienols. Tocopherols are among the most important lipid-soluble antioxidants in food as well as in human and animal tissues. Tocopherols are found in lipid-rich regions of cells (e.g., mitochondrial membranes), fat depots, and lipoproteins such as low-density lipoprotein cholesterol. Their health benefits may also be explained by regulation of gene expression, signal transduction, and modulation of cell functions. Potential health benefits of tocols include prevention of certain types of cancer, heart disease, and other chronic ailments. Although deficiencies of tocopherol are uncommon, a continuous intake from common and novel dietary sources of tocopherols and tocotrienols is advantageous. Thus, this contribution will focus on the relevant literature on common and emerging edible oils as a source of tocols. Potential application and health effects as well as the impact of new cultivars as sources of edible oils and their processing discards are presented. Future trends and drawbacks are also briefly covered.

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“…9) In addition, PATHAK et al have demonstrated that GT3 pretreatment reduced DNA double-strand breaks formation in human umbilical vein endothelial cells (HUVECs), and also decreased chromosomal aberrations in both HUVECs and mouse bone marrow cells after irradiation. 65) Moreover, GT3 increased expression of the DNA-repair gene RAD50 and attenuated radiation-induced RAD50 suppression. Currently, GT3 is being investigated for its ef cacy against 60 Co -irradiation using a NHP model.…”

Section: Cblb502mentioning

confidence: 98%

Overview of Radiation-protective Agent Research and Prospects for the Future

Kashiwakura

2017

Jpn. J. Health Phys.

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Since the discovery of X-rays in 1895, radioactivity and its effects on the body have led to the issue of radiation injury. Radiation-related casualties following exposure to a lethal dose of ionizing radiation show severe acute radiation syndromes (ARS) involving bone marrow death and gastrointestinal death. ARS causes a decrease in the peripheral blood cell count and such as severe ARS, the intake of appropriate medications is the most suitable initial treatment. Therefore, the development of effective radiation-protective agent is an important issue against radiological accidents and nuclear threats. In this review, the overview of radiation-protective/mitigative agent development against acute radiation effects (external exposure), as well as our research data, and the prospects for future research have been outlined.

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The Vitamin E Analog Gamma-Tocotrienol (GT3) Suppresses Radiation-Induced Cytogenetic Damage

Cited by 19 publications

References 39 publications

Radioprotective role of α-tocotrienol against oxidative damage in γ-irradiated human blood cultures

Radioprotective role of α-tocotrienol against oxidative damage in γ-irradiated human blood cultures

Tocopherols and Tocotrienols in Common and Emerging Dietary Sources: Occurrence, Applications, and Health Benefits

Overview of Radiation-protective Agent Research and Prospects for the Future

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