Diet-Induced Obesity Modulates Epigenetic Responses to Ionizing Radiation in Mice

Varès, Guillaume; Wang, Bing; Ishii-Ohba, Hiroko; Nenoi, Mitsuru; Nakajima, Tetsuo

doi:10.1371/journal.pone.0106277

Cited by 28 publications

(27 citation statements)

References 101 publications

(96 reference statements)

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“…Epigenetic modification of genes acquired early in life by exposure to environmental factors, may contribute to the later development of obesity in offspring (Vogt et al, 2014), correlate with offspring adiposity (Dick et al, 2014), and is important for transgenerational propagation of changes in energy metabolism that promotes weight gain and obesity (Desai et al, 2015). Unlike alterations in genetic codes, epigenetic changes are modifiable by dietary energy and factors (Dong et al, 2014; Myzak et al, 2006, 2007; Rajendran et al, 2011; Vares et al, 2014). This review focuses on the current understanding of the role of epigenetic mechanisms and alterations that regulate metabolic processes in beige and brown adipocytes, and how these epigenetic alterations might be transmitted to subsequent generations.…”

Section: Epigenetics Mechanisms Of Obesity: An Overviewmentioning

confidence: 99%

Influence of maternal obesity, diet and exercise on epigenetic regulation of adipocytes

Dhasarathy

Roemmich

Claycombe

2017

Molecular Aspects of Medicine

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Section: Epigenetics Mechanisms Of Obesity: An Overviewmentioning

confidence: 99%

Influence of maternal obesity, diet and exercise on epigenetic regulation of adipocytes

Dhasarathy

Roemmich

Claycombe

2017

Molecular Aspects of Medicine

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“…Epigenetic mechanisms may play a key role in the response of our body to IR. For examples, in the experimental animal models, diet-induced obesity modulated epigenetic responses (DNA methylation and microRNA regulation) to IR in mice [3]; antioxidant diets containing blueberry or strawberry extract were capable of mitigating the effects from exposure to heavy particles on behavioral alterations in rats [4,5]. Multiple dietary, lifestyle and environmental factors, in addition to genetic factors, have a big impact on the health of our body [6].…”

Section: Introductionmentioning

confidence: 99%

Dietary Modification of Mouse Response to Total-Body-Irradiation

Wang¹,

Tanaka²,

Katsube³

et al. 2015

Evolution of Ionizing Radiation Research

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Exposure to ionizing radiation (IR) could induce deleterious effects including cancer. Diet, as one of the major factors to influence susceptibility to many diseases, plays a critical role in maintaining human heath. It is known that unbalanced diet could result in health consequences, for example, high-calorie diet could lead to obesity, which could increase the risk of diabetes, heart disease, fatty liver, and some forms of cancer. Although the impact of diet on susceptibility to IR is thought to be big, the evidence is not clear due to lack of study. In this work, effects from dietary fat on modulation of mouse responses to total-body-irradiation (TBI) were studied. The mice were fed after weaning at postnatal age of 4 weeks with a standard diet (MB-1), a very high-fat diet (HFD32), and a very low-fat diet (CE-2 Low Fat), containing of 4.4%, 32.0%, and 0.4% of crude fat, respectively. A mouse model for radiation-induced adaptive response (AR) was applied to this work. The priming low-dose TBI at a dose of 0.5 Gy from X-rays was given at postnatal age of 6 weeks, and the challenge high dose of TBI was given at postnatal age of 8 weeks. The mouse response to low dose of TBI was evaluated by the efficacy of the priming low dose to rescue the animals from bone marrow death induced by the challenge high dose in the 30-day survival test. The mouse response to high dose of TBI was evaluated by comparing the LD50 in the 30day survival test. In addition, dietary modulation of the residual (late) genotoxic effect from TBI was also evaluated by comparing the incidence of micronucleated erythrocytes in bone marrow using micronucleus test. Results showed that for the mice fed with the MB-1, a successful AR was demonstrated. While for the mice fed with either HFD32 or CE-2 Low Fat, no AR was observed, and all the animals died within 15 days after TBI with the challenge high dose at 7.

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“…It should be noted here that metabolic abnormalities, including serum levels of high triglyceride, low HDL cholesterol and fatty liver development, have been reported in association with radiation dose among A-bomb survivors (13)(14)(15). Moreover, emerging evidence from mouse studies suggests direct interactions between diet-induced obesity and biological responses to radiation, e.g., DNA double-strand breaks, microRNA expression and cell survival (16,17). Therefore, lymphocyte subsets in A-bomb survivors may be influenced by their metabolic profiles especially after radiation exposure.…”

Section: Introductionmentioning

confidence: 72%

“…Metabolic profile indicators associated with lymphocyte subset percentages (Table 1) might be potential modifiers of the radiation effects on lymphocyte subsets, because biological interactions between radiation responses and metabolic conditions were demonstrated in mouse studies (16,17). To test this hypothesis, we investigated the association of the interaction term between radiation dose and each of the metabolic indicators whose associations with lymphocyte subsets were significant (see Table 1).…”

Section: Interaction Effects Between Radiation Exposure and Metabolicmentioning

confidence: 99%

Metabolic Profile as a Potential Modifier of Long-Term Radiation Effects on Peripheral Lymphocyte Subsets in Atomic Bomb Survivors

Yoshida¹,

Nakashima²,

Kyoizumi³

et al. 2016

Radiation Research

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Immune system impairments reflected by the composition and function of circulating lymphocytes are still observed in atomic bomb survivors, and metabolic abnormalities including altered blood triglyceride and cholesterol levels have also been detected in such survivors. Based on closely related features of immune and metabolic profiles of individuals, we investigated the hypothesis that long-term effects of radiation exposure on lymphocyte subsets might be modified by metabolic profiles in 3,113 atomic bomb survivors who participated in health examinations at the Radiation Effect Research Foundation, Hiroshima and Nagasaki, in 2000-2002. The lymphocyte subsets analyzed involved T-, B- and NK-cell subsets, and their percentages in the lymphocyte fraction were assessed using flow cytometry. Health examinations included metabolic indicators, body mass index, serum levels of total cholesterol, high-density lipoprotein cholesterol, C-reactive protein and hemoglobin A1c, as well as diabetes and fatty liver diagnoses. Standard regression analyses indicated that several metabolic indicators of obesity/related disease, particularly high-density lipoprotein cholesterol levels, were positively associated with type-1 helper T- and B-cell percentages but were inversely associated with naïve CD4 T and NK cells. A regression analysis adjusted for high-density lipoprotein cholesterol revealed a radiation dose relationship with increasing NK-cell percentage. Additionally, an interaction effect was suggested between radiation dose and C-reactive protein on B-cell percentage with a negative coefficient of the interaction term. Collectively, these findings suggest that radiation exposure and subsequent metabolic profile changes, potentially in relationship to obesity-related inflammation, lead to such long-term alterations in lymphocyte subset composition. Because this study is based on cross-sectional and exploratory analyses, the implications regarding radiation exposure, metabolic profiles and circulating lymphocytes warrant future longitudinal and molecular mechanistic studies.

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Diet-Induced Obesity Modulates Epigenetic Responses to Ionizing Radiation in Mice

Cited by 28 publications

References 101 publications

Influence of maternal obesity, diet and exercise on epigenetic regulation of adipocytes

Influence of maternal obesity, diet and exercise on epigenetic regulation of adipocytes

Dietary Modification of Mouse Response to Total-Body-Irradiation

Metabolic Profile as a Potential Modifier of Long-Term Radiation Effects on Peripheral Lymphocyte Subsets in Atomic Bomb Survivors

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