TY - JOUR A1 - Hocher, Berthold A1 - Haumann, Hannah A1 - Rahnenführer, Jan A1 - Reichetzeder, Christoph A1 - Kalk, Philipp A1 - Pfab, Thiemo A1 - Tsuprykov, Oleg A1 - Winter, Stefan A1 - Hofmann, Ute A1 - Li, Jian A1 - Püschel, Gerhard Paul A1 - Lang, Florian A1 - Schuppan, Detlef A1 - Schwab, Matthias A1 - Schaeffeler, Elke T1 - Maternal eNOS deficiency determines a fatty liver phenotype of the offspring in a sex dependent manner JF - Epigenetics : the official journal of the DNA Methylation Society N2 - Maternal environmental factors can impact on the phenotype of the offspring via the induction of epigenetic adaptive mechanisms. The advanced fetal programming hypothesis proposes that maternal genetic variants may influence the offspring's phenotype indirectly via epigenetic modification, despite the absence of a primary genetic defect. To test this hypothesis, heterozygous female eNOS knockout mice and wild type mice were bred with male wild type mice. We then assessed the impact of maternal eNOS deficiency on the liver phenotype of wild type offspring. Birth weight of male wild type offspring born to female heterozygous eNOS knockout mice was reduced compared to offspring of wild type mice. Moreover, the offspring displayed a sex specific liver phenotype, with an increased liver weight, due to steatosis. This was accompanied by sex specific differences in expression and DNA methylation of distinct genes. Liver global DNA methylation was significantly enhanced in both male and female offspring. Also, hepatic parameters of carbohydrate metabolism were reduced in male and female offspring. In addition, male mice displayed reductions in various amino acids in the liver. Maternal genetic alterations, such as partial deletion of the eNOS gene, can affect liver metabolism of wild type offspring without transmission of the intrinsic defect. This occurs in a sex specific way, with more detrimental effects in females. This finding demonstrates that a maternal genetic defect can epigenetically alter the phenotype of the offspring, without inheritance of the defect itself. Importantly, these acquired epigenetic phenotypic changes can persist into adulthood. KW - Epigenetics KW - eNOS KW - Fetal programming KW - fatty liver KW - metabolism Y1 - 2016 U6 - https://doi.org/10.1080/15592294.2016.1184800 SN - 1559-2294 SN - 1559-2308 VL - 11 SP - 539 EP - 552 PB - Routledge, Taylor & Francis Group CY - Philadelphia ER - TY - JOUR A1 - Putra, Sulistyo Emantoko Dwi A1 - Neuber, Corinna A1 - Reichetzeder, Christoph A1 - Hocher, Berthold A1 - Kleuser, Burkhard T1 - Analysis of genomic DNA methylation levels in human placenta using liquid Chromatography-Electrospray ionization tandem mass spectrometry JF - Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry and pharmacology N2 - Background: DNA-methylation is a common epigenetic tool which plays a crucial role in gene regulation and is essential for cell differentiation and embryonic development. The placenta is an important organ where gene activity can be regulated by epigenetic DNA modifications, including DNA methylation. This is of interest as, the placenta is the interface between the fetus and its environment, the mother. Exposure to environmental toxins and nutrition during pregnancy may alter DNA methylation of the placenta and subsequently placental function and as a result the phenotype of the offspring. The aim of this study was to develop a reliable method to quantify DNA methylation in large clinical studies. This will be a tool to analyze the degree of DNA methylation in the human placenta in relationship to clinical readouts. Methods: Liquid chromatography-electrospray ionization/multi-stage mass spectrometry (LC-ESI/MS/MS) technique was used for the quantification of the 5dmC/dG ratio in placentas from 248 healthy pregnancies. We were able to demonstrate that this method is a reliable and stable way to determine global placental DNA methylation in large clinical trials. Results/Conclusion: The degree of placental DNA methylation seen in our pilot study varies substantially from 2% to 5%. The clinical implications of this variation need to be demonstrated in adequately powered large studies. KW - Pregnancy KW - Placenta KW - Methylation KW - Global KW - LC-MS/MS KW - Fetal programming KW - Clinical Y1 - 2014 U6 - https://doi.org/10.1159/000358666 SN - 1015-8987 SN - 1421-9778 VL - 33 IS - 4 SP - 945 EP - 952 PB - Karger CY - Basel ER - TY - JOUR A1 - Reichetzeder, Christoph A1 - Chen, Hong A1 - Foeller, Michael A1 - Slowinski, Torsten A1 - Li, Jian A1 - Chen, You-Peng A1 - Lang, Florian A1 - Hocher, Berthold T1 - Maternal vitamin D deficiency and fetal programming - lessons learned from humans and mice JF - Kidney & blood pressure research : official organ of the Gesellschaft für Nephrologie N2 - Background/Aims: Cardiovascular disease partially originates from poor environmental and nutritional conditions in early life. Lack of micronutrients like 25 hydroxy vitamin D-3 (25OHD) during pregnancy may be an important treatable causal factor. The present study explored the effect of maternal 25OHD deficiency on the offspring. Methods: We performed a prospective observational study analyzing the association of maternal 25OHD deficiency during pregnancy with birth outcomes considering confounding. To show that vitamin D deficiency may be causally involved in the observed associations, mice were set on either 25OHD sufficient or insufficient diets before and during pregnancy. Growth, glucose tolerance and mortality was analyzed in the F1 generation. Results: The clinical study showed that severe 25OHD deficiency was associated with low birth weight and low gestational age. ANCOVA models indicated that established confounding factors such as offspring sex, smoking during pregnancy and maternal BMI did not influence the impact of 25OHD on birth weight. However, there was a significant interaction between 25OHD and gestational age. Maternal 25OHD deficiency was also independently associated with low APGAR scores 5 minutes postpartum. The offspring of 25OHD deficient mice grew slower after birth, had an impaired glucose tolerance shortly after birth and an increased mortality during follow-up. Conclusions: Our study demonstrates an association between maternal 25OHD and offspring birth weight. The effect of 25OHD on birth weight seems to be mediated by vitamin D controlling gestational age. Results from an animal experiment suggest that gestational 25OHD insufficiency is causally linked to adverse pregnancy outcomes. Since birth weight and prematurity are associated with an adverse cardiovascular outcome in later life, this study emphasizes the need for novel monitoring and treatment guidelines of vitamin D deficiency during pregnancy. KW - Vitamin D KW - Birth weight KW - Preterm delivery KW - Fetal programming KW - Glucose tolerance KW - Cardiovascular diseases Y1 - 2014 U6 - https://doi.org/10.1159/000355809 SN - 1420-4096 SN - 1423-0143 VL - 39 IS - 4 SP - 315 EP - 329 PB - Karger CY - Basel ER - TY - JOUR A1 - Hocher, Berthold T1 - More than genes: the advanced fetal programming hypothesis JF - Journal of reproductive immunology : the international journal for experimental and clinical reproductive immunobiology N2 - Many lines of data, initial epidemiologic studies as well as subsequent extensive experimental studies, indicate that early-life events play a powerful role in influencing later suceptibility to certain chronic diseases. Such events might be over- or undernutrition, exposure to environmental toxins, but also changes in hormones, in particular stress hormones. Typically, those events are triggered by the environmental challenges of the mother. However, recent studies have shown that paternal environmental or nutritional factors affect the phenotype of the offspring as well. The maternal and paternal environmental factors act on the phenotype of the offspring via epigenetic modification of its genome. The advanced fetal programming hypothesis proposes an additional non-environmentally driven mechanism: maternal and also paternal genes may influence the maturating sperm, the oocyte, and later the embryo/fetus, leading to their epigenetic alteration. Thus, the observed phenotype of the offspring may be altered by maternal/paternal genes independent of the fetal genome. Meanwhile, several independent association studies in humans dealing with metabolic and neurological traits also suggest that maternal genes might affect the offspring phenotype independent of the transmission of that particular gene to the offspring. Considering the implications of this hypothesis, some conclusions drawn from transgenic or knockout animal models and based on the causality between a genetic alteration and a phenotype, need to be challenged. Possible implications for the development, diagnostic and therapy of human genetic diseases have to be investigated. (C) 2014 Elsevier Ireland Ltd. All rights reserved. KW - Fetal programming KW - Advanced fetal programming hypothesis Y1 - 2014 U6 - https://doi.org/10.1016/j.jri.2014.03.001 SN - 0165-0378 VL - 104 SP - 8 EP - 11 PB - Elsevier CY - Clare ER - TY - JOUR A1 - Li, Jian A1 - Wang, Zi-Neng A1 - Chen, You-Peng A1 - Dong, Yun-Peng A1 - Shuai, Han-Lin A1 - Xiao, Xiao-Min A1 - Reichetzeder, Christoph A1 - Hocher, Berthold T1 - Late gestational maternal serum cortisol is inversely associated with fetal brain growth JF - Neuroscience & biobehavioral reviews : official journal of the International Behavioral Neuroscience Society N2 - To analyze the association between fetal brain growth and late gestational blood serum cortisol in normal pregnancy.Blood total cortisol was quantified at delivery in 432 Chinese mother/child pairs. Key inclusion criteria of the cohort were: no structural anomalies of the newborn, singleton pregnancy, no alcohol abuse, no drug abuse or history of smoking no hypertensive disorders and no impairment of glucose tolerance and no use of steroid medication during pregnancy. Differential ultrasound examination of the fetal body was done in early (gestational day 89.95 +/- 7.31), middle (gestational day 160.17 16.12) and late pregnancy (gestational day 268.89 +/- 12.42). Newborn's cortisol was not correlated with any of the ultrasound measurements during pregnancy nor with birth weight. Multivariable regression analysis, considering timing of the ultrasound examination, the child's sex, maternal BMI, maternal age, maternal body weight at delivery, the timing of cortisol measurement and maternal uterine contraction states, revealed that maternal serum total cortisol was significantly negative correlated with ultrasound parameters describing the fetal brain: late biparietal diameter (R-2 =0.512, p =0.009), late head circumference (R-2 = 0.498, p= 0.001), middle biparietal diameter (R-2= 0.819, p = 0.013), middle cerebellum transverse diameter R-2 = 0.76, p= 0.014) and early biparietal diameter(R-2 = 0.819, p = 0.013). The same analysis revealed that birth weight as well as ultrasound parameters such as abdominal circumference and femur length were not correlated to maternal cortisol levels. In conclusion, our study demonstrates that maternal cortisol secretion within physiological ranges may be inversely correlated to fetal brain growth but not to birth weight. It remains to be demonstrated whether maternal cortisol secretion negatively influencing fetal brain growth translates to adverse neurological outcomes in later life. KW - Brain development KW - Fetal programming KW - Cortisol Maternal cortisol KW - Head circumference KW - Biparietal diameter Y1 - 2012 U6 - https://doi.org/10.1016/j.neubiorev.2011.12.006 SN - 0149-7634 VL - 36 IS - 3 SP - 1085 EP - 1092 PB - Elsevier CY - Oxford ER -