Shared Effects of Genetic and Intrauterine and Perinatal Environment on the Development of Metabolic Syndrome

Vuguin, Patricia; Hartil, Kirsten; Kruse, Michael; Kaur, Harpreet; Lin, Chia-Lei; Fiallo, Ariana; Glenn, Alan S.; Patel, Avanee; Williams, Lyda; Seki, Yoshinori; Katz, Ellen B.; Charron, Maureen J.

doi:10.1371/journal.pone.0063021

Cited by 31 publications

(56 citation statements)

References 76 publications

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“…The CD1 mouse model is an outbred strain and was chosen because of a strong heterogeneity in its genome [27]. WT female mice were bred to non-littermate GLUT4 heterozygote (G4+/-) males [28, 29]. Genotyping was performed as previously described [30].…”

Section: Methodsmentioning

confidence: 99%

“…Male offspring were the focus of this study to circumvent the confounding effects of estrogen in metabolism. In addition, we previously demonstrated that only male offspring exposed to HFD during IU/L develop hypertension in adult life [28]. Body weight was recorded weekly until 12 weeks of life and then bi-weekly until the end of the study.…”

Section: Methodsmentioning

confidence: 99%

“…This study utilized the GLUT4 heterozygous (G4+/-) mouse that exhibits insulin resistance [27] and develops hypertension when exposed to a HFD during IU/L [28]. Since, to the best of our knowledge, the role of GLUT4, the major glucose transporter in the heart that is also present in the kidney [27, 28], has not been investigated in the genesis of fetal programming of CRS or CRMS, we provide a mouse model that is novel for investigating these diseases.…”

Section: Introductionmentioning

confidence: 99%

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A High Fat Diet During Pregnancy and Lactation Induces Cardiac and Renal Abnormalities in GLUT4 +/- Male Mice

Kruse¹,

Fiallo²,

Jiang³

et al. 2017

Kidney Blood Press Res

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Background/Aims: Altered nutrients during the in utero (IU) and/or lactation (L) period predispose offspring to cardio-renal diseases in adulthood. This study investigates the effect of a high fat diet (HFD) fed to female mice during IU/L on gene expression patterns associated with heart and kidney failure and hypertension in male offspring. Methods: Female wild type (WT) mice were fed either a HFD or control chow (C) prior to mating with males with a genetic heterozygous deletion of GLUT4 (G4+/-, a model of peripheral insulin resistance and hypertension) and throughout IU/L. After weaning male offspring were placed on a standard rodent chow until 24 weeks of age. Results: All offspring exposed to a maternal HFD showed increased heart and kidney weight and reduced cardiac insulin responsiveness. G4+/- offspring on a HFD displayed early hypertension associated with increased renal gene expression of renin and the AT₁- receptors compared to G4+/- on a C diet. This group showed decreased cardiac expression of key genes involved in fatty acid oxidation compared to WT on a C diet. Conclusions: These results indicate an interaction between a HFD diet and genotype during early life development that can enhance susceptibility to cardio-renal diseases later in life.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A High Fat Diet During Pregnancy and Lactation Induces Cardiac and Renal Abnormalities in GLUT4 +/- Male Mice

Kruse¹,

Fiallo²,

Jiang³

et al. 2017

Kidney Blood Press Res

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“…Increased globalization, associated with a nutritional transition towards Western diets, is thought to be a contributing factor to the increasing prevalence of obesity and T2D globally (Popkin 2006)). In addition to poor diet and genetics, evidence suggests that an altered intrauterine environment (IU) plays a key role in the development of MetS (Vuguin, et al 2013) and that interactions between the IU environment and lifestyle can increase risk of MetS and T2D in people who are genetically susceptible (Hu 2011). …”

Section: Introductionmentioning

confidence: 99%

“…Poor nutrition during pregnancy impacts fetal growth and development particularly that of the endocrine pancreas (Snoeck, et al 1990; Vuguin, et al 2013). Specifically, alterations in the IU environment caused by a low calorie, low protein or a high fat diet (HFD) affects the function of the endocrine pancreas by altering islet size, islet vascularization, number of insulin-cells (INS), insulin content, function, and parasympathetic innervation (Cerf, et al 2005; Dahri, et al 1991; Ford, et al 2009; Garofano, et al 1997; Ng, et al 2010; Rodriguez-Trejo, et al 2012; Vogt, et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Effects of genetics and in utero diet on murine pancreatic development

Lin

Williams

Seki

et al. 2014

Journal of Endocrinology

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Malnutrition in utero (IU) could alter pancreatic development. Reported here are the effects of high fat diet (HFD) during pregnancy on fetal growth and pancreatic morphology in an “At Risk” animal model of metabolic disease, the glucose transporter 4 heterozygous mouse (G4+/−). Wild type (WT) female mice mated with G4+/− males were fed HFD or control (CD) diet for 2 weeks prior to mating and throughout pregnancy. At embryonic day18.5 fetuses were sacrificed and pancreata isolated for analysis of morphology and expression of genes involved in insulin-cell development, proliferation, apoptosis, glucose transport and function. Compared to WT CD, WT HFD fetal pancreata had a 2.4 fold increase in the number of glucagon cells (p=0.023). HFD also increased glucagon cell size by 18% in WT pancreata compared to WT CD. Compared to WT CD, G4+/− CD had an increased number of insulin cells, and decreased insulin and glucagon cell size. Compared to G4+/− CD, G4+/− HFD fetuses had increased pancreatic gene expression of Igf2, a mitogen and inhibitor of apoptosis. Expression of genes involved in proliferation, apoptosis, glucose transport and insulin secretion were not altered in WT HFD compared with G4+/− HFD pancreata. In contrast to WT HFD pancreata, HFD exposure did not alter pancreatic islet morphology in fetuses with GLUT4 haploinsufficiency; this may be mediated in part by increased Igf2 expression. Thus, interactions between IU diet and fetal genetics may play a critical role in the developmental origins of health and disease.

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Obesity Impairs Embryonic Myogenesis by Enhancing BMP Signaling within the Dermomyotome

et al. 2021

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Obesity during pregnancy leads to adverse health outcomes in offspring. However, the initial effects of maternal obesity (MO) on embryonic organogenesis have yet to be thoroughly examined. Using unbiased single-cell transcriptomic analyses (scRNA-seq), the effects of MO on the myogenic process is investigated in embryonic day 9.5 (E9.5) mouse embryos. The results suggest that MO induces systematic hypoxia, which is correlated with enhanced BMP signaling and impairs skeletal muscle differentiation within the dermomyotome (DM). The Notch-signaling effectors, HES1 and HEY1, which also act down-stream of BMP signaling, suppress myogenic differentiation through transcriptionally repressing the important myogenic regulator MEF2C. Moreover, the major hypoxia effector, HIF1A, enhances expression of HES1 and HEY1 and blocks myogenic differentiation in vitro. In summary, this data demonstrate that MO induces hypoxia and impairs myogenic differentiation by up-regulating BMP signaling within the DM, which may account for the disruptions of skeletal muscle development and function in progeny.

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Shared Effects of Genetic and Intrauterine and Perinatal Environment on the Development of Metabolic Syndrome

Cited by 31 publications

References 76 publications

A High Fat Diet During Pregnancy and Lactation Induces Cardiac and Renal Abnormalities in GLUT4 +/- Male Mice

A High Fat Diet During Pregnancy and Lactation Induces Cardiac and Renal Abnormalities in GLUT4 +/- Male Mice

Effects of genetics and in utero diet on murine pancreatic development

Obesity Impairs Embryonic Myogenesis by Enhancing BMP Signaling within the Dermomyotome

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