The effects of voluntary exercise on oocyte quality in a diet-induced obese murine model

Boudoures, Anna L.; Chi, Maggie; Thompson, Anna M.; Zhang, Wendy; Moley, Kelle H.

doi:10.1530/rep-15-0419

Cited by 37 publications

(42 citation statements)

References 45 publications

(62 reference statements)

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“…Four-week-old female C57Bl/6 mice were fed either a high-fat/ high-sugar (HF/HS) (Test Diet 58R3; 59% fat, 26% carbohydrates [17% sucrose] and 15% protein) or standard chow (Con) (PicoLab Rodent diet 20; 13% fat, 62% carbohydrates [3.2% sucrose] and 25% protein for six weeks (Boudoures et al, 2016; Reynolds et al, 2015). Con- and HF/HS-fed F0 mice were mated with chow-fed male mice to produce the first generation.…”

Section: Methodsmentioning

confidence: 99%

“…Briefly, we demonstrated that female mice with diet-induced metabolic syndrome had abnormal oocyte mitochondrial morphology characterized by fewer, more disarrayed cristae, decreased electron density of the matrix, increased swelling, and more vacuoles (Luzzo et al, 2012). Additionally, oocyte mitochondria from mice fed a high fat-high sugar (HF/HS) were less round and more dumbbell shaped than their chow-fed counterparts, suggesting a defect in mitochondrial dynamics (Boudoures et al, 2016). These defects in mitochondrial morphology were accompanied by impaired beta oxidation (Boudoures et al, 2016), decreased mitochondrial membrane potential (Reynolds et al, 2015), and altered ATP and citrate levels (Boudoures et al, 2016; Luzzo et al, 2012; Reynolds et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, oocyte mitochondria from mice fed a high fat-high sugar (HF/HS) were less round and more dumbbell shaped than their chow-fed counterparts, suggesting a defect in mitochondrial dynamics (Boudoures et al, 2016). These defects in mitochondrial morphology were accompanied by impaired beta oxidation (Boudoures et al, 2016), decreased mitochondrial membrane potential (Reynolds et al, 2015), and altered ATP and citrate levels (Boudoures et al, 2016; Luzzo et al, 2012; Reynolds et al, 2015). Adult offspring bore to obese mothers developed characteristics of metabolic syndrome (Jungheim et al, 2010), suggesting that the maternal germline can transmit changes to offspring metabolic function.…”

Section: Introductionmentioning

confidence: 99%

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Maternal Metabolic Syndrome Programs Mitochondrial Dysfunction via Germline Changes across Three Generations

et al. 2016

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SUMMARY Maternal obesity impairs offspring health, but the responsible mechanisms are not fully established. To address this question, we fed female mice a high-fat/high-sugar diet from before conception until weaning and then followed the outcomes in the next three generations of offspring, all fed a control diet. We observed that female offspring born to obese mothers had impaired peripheral insulin signaling that was associated with mitochondrial dysfunction and altered mitochondrial dynamic and complex proteins in skeletal muscle. This mitochondrial phenotype persisted through the female germline and was passed down to the second and third generations. Our results indicate maternal programing of metabolic disease can be passed through the female germline and that the transfer of aberrant oocyte mitochondria to subsequent generations may contribute to the increased risk for developing insulin resistance.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Maternal Metabolic Syndrome Programs Mitochondrial Dysfunction via Germline Changes across Three Generations

et al. 2016

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“…For example, obese mice experience infertility and one mechanism is that oocyte development is impeded resulting in aberrant spindle formation. Reversal of the obesity by diet alone or by exercise does not eliminate the spindle disorders (Reynolds et al, 2015;Boudoures et al, 2016). The mechanism of obesity-related oocyte damage is not fully elucidated and may involve oxidative damage and abnormal lipid accumulation in the oocyte.…”

Section: A Major Effect Of Uterine Disease Is Subsequent Failure Of Fmentioning

confidence: 99%

Symposium review: Mechanisms of disruption of fertility by infectious diseases of the reproductive tract

Gilbert

2019

Journal of Dairy Science

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“…Weight loss, at least in mice, did not show reversal of these negative defects or reverse oocyte lipid accumulation, alterations in TCA cycle metabolite levels and mitochondrial membrane potential, or abnormalities in mitochondrial distribution, despite reversal of the metabolic phenotypes of obesity (Reynolds et al 2015). But effects can be reversed with therapies specifically targeting the mitochondrial respiratory chain (Boots et al 2016) or ER stress, and oocyte competence has been improved with voluntary exercise regimes (Boudoures et al 2016). These impairments in oocytes are associated with poor blastocyst and embryo development, increased ROS production as well as mitochondrial dysfunction in embryos (Igosheva et al 2010, Wu et al 2010, Boudoures et al 2017.…”

Section: Journal Of Endocrinologymentioning

confidence: 98%

Nutritional adversity, sex and reproduction: 30 years of DOHaD and what have we learned?

Jazwiec

Sloboda

2019

Journal of Endocrinology

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It is well established that early life environmental signals, including nutrition, set the stage for long-term health and disease risk – effects that span multiple generations. This relationship begins early, in the periconceptional period and extends into embryonic, fetal and early infant phases of life. Now known as the Developmental Origins of Health and Disease (DOHaD), this concept describes the adaptations that a developing organism makes in response to early life cues, resulting in adjustments in homeostatic systems that may prove maladaptive in postnatal life, leading to an increased risk of chronic disease and/or the inheritance of risk factors across generations. Reproductive maturation and function is similarly influenced by early life events. This should not be surprising, since primordial germ cells are established early in life and thus vulnerable to early life adversity. A multitude of ‘modifying’ cues inducing developmental adaptations have been identified that result in changes in reproductive development and impairments in reproductive function. Many types of nutritional challenges including caloric restriction, macronutrient excess and micronutrient insufficiencies have been shown to induce early life adaptations that produce long-term reproductive dysfunction. Many pathways have been suggested to underpin these associations, including epigenetic reprogramming of germ cells. While the mechanisms still remain to be fully investigated, it is clear that a lifecourse approach to understanding lifetime reproductive function is necessary. Furthermore, investigations of the impacts of early life adversity must be extended to include the paternal environment, especially in epidemiological and clinical studies of offspring reproductive function.

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The effects of voluntary exercise on oocyte quality in a diet-induced obese murine model

Cited by 37 publications

References 45 publications

Maternal Metabolic Syndrome Programs Mitochondrial Dysfunction via Germline Changes across Three Generations

Maternal Metabolic Syndrome Programs Mitochondrial Dysfunction via Germline Changes across Three Generations

Symposium review: Mechanisms of disruption of fertility by infectious diseases of the reproductive tract

Nutritional adversity, sex and reproduction: 30 years of DOHaD and what have we learned?

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