374 Effects of maternal nutrition on secretion of leptin in the neonatal heifer and interaction of maternal and postnatal nutrition on age at puberty and postpubertal secretion of luteinizing hormone

Abstract Nutrition during gestation and early postnatally can program developmental changes in the offspring that persist until adult life. Here we tested the hypotheses that maternal nutritional during the second and third trimesters of gestation 1) affects neonatal secretion of leptin in heifer offspring, and 2) interacts with dietary energy intake during the juvenile period to affect age at puberty and postpubertal pulsatile secretion of luteinizing hormone (LH) in heifers. Bos indicus-influenced beef cows (n = 108) in 3 replicates bearing heifer fetuses were assigned randomly to receive low (L), moderate (M), or high energy (H) diets to achieve body condition scores (BCS) of 3–3.5 (thin; n = 36), 5.5–6 (moderate; n = 36), or 7.5–8 (obese; n = 36) by the second trimester of gestation until calving. Heifer offspring were weaned at 3–3.5 months of age and assigned randomly to either a high- (H; 1 kg/day) or low-gain (L; 0.5 kg/day) diet for 5 months. Blood samples from a subgroup of 30 heifers (Exp. 1) from cows in each maternal treatment (n = 10/treatment) were collected once every 2–3 days for 2 weeks after birth. In Exp. 2, 18 heifers representing 3 of the maternal × postnatal groups (HH, MH and LL) were ovariectomized and received estradiol replacement (OVX+E) after puberty. Pulsatile secretion of LH was evaluated for 5.5 hours. Maternal nutrition did not affect postnatal circulating leptin. Based on two replicates (n = 61), postnatal diets had the greatest effect on age at puberty (L > H; P < 0.001), with a lesser maternal diet effect (P < 0.10), although LL > HH by 99 days. None of the characteristics of pulsatile LH secretion differed among treatments in OVX + E heifers. Dietary effects on age at puberty were not associated with hormonal characteristics evaluated in these initial studies.

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Low levels of sulfur and cobalt during the pre- and periconceptional periods affect the oocyte yield of donors and the DNA methylome of preimplantation bovine embryos

Journal of Developmental Origins of Health and Disease ◽

10.1017/s2040174421000222 ◽

2021 ◽

pp. 1-13

Author(s):

Allice R. Ferreira Nochi ◽

Luna N. Vargas ◽

Roberto Sartori ◽

Roberto G. Júnior ◽

Davi B. Araújo ◽

...

Keyword(s):

Maternal Nutrition ◽

Maternal Diet ◽

Bos Indicus ◽

Epigenetic Reprogramming ◽

Mammalian Development ◽

Gestational Length ◽

Dna Methylome ◽

Insulin Growth Factor ◽

Oocyte Yield ◽

The Impact

Abstract Maternal nutrition is critical in mammalian development, influencing the epigenetic reprogramming of gametes, embryos, and fetal programming. We evaluated the effects of different levels of sulfur (S) and cobalt (Co) in the maternal diet throughout the pre- and periconceptional periods on the biochemical and reproductive parameters of the donors and the DNA methylome of the progeny in Bos indicus cattle. The low-S/Co group differed from the control with respect to homocysteine, folic acid, B12, insulin growth factor 1, and glucose. The oocyte yield was lower in heifers from the low S/Co group than that in the control heifers. Embryos from the low-S/Co group exhibited 2320 differentially methylated regions (DMRs) across the genome compared with the control embryos. We also characterized candidate DMRs linked to the DNMT1 and DNMT3B genes in the blood and sperm cells of the adult progeny. A DMR located in DNMT1 that was identified in embryos remained differentially methylated in the sperm of the progeny from the low-S/Co group. Therefore, we associated changes in specific compounds in the maternal diet with DNA methylation modifications in the progeny. Our results help to elucidate the impact of maternal nutrition on epigenetic reprogramming in livestock, opening new avenues of research to study the effect of disturbed epigenetic patterns in early life on health and fertility in adulthood. Considering that cattle are physiologically similar to humans with respect to gestational length, our study may serve as a model for studies related to the developmental origin of health and disease in humans.

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Fetal programming of CVD and renal disease: animal models and mechanistic considerations

Proceedings of The Nutrition Society ◽

10.1017/s0029665112003035 ◽

2013 ◽

Vol 72 (3) ◽

pp. 317-325 ◽

Cited By ~ 29

Author(s):

Simon C. Langley-Evans

Keyword(s):

Animal Models ◽

Fetal Programming ◽

Maternal Nutrition ◽

Maternal Diet ◽

Critical Role ◽

Adult Life ◽

Maternal Nutritional Status ◽

Health And Disease ◽

Risk Of Disease ◽

Mechanistic Basis

The developmental origins of health and disease hypothesis postulates that exposure to a less than optimal maternal environment during fetal development programmes physiological function, and determines risk of disease in adult life. Much evidence of such programming comes from retrospective epidemiological cohorts, which demonstrate associations between birth anthropometry and non-communicable diseases of adulthood. The assertion that variation in maternal nutrition drives these associations is supported by studies using animal models, which demonstrate that maternal under- or over-nutrition during pregnancy can programme offspring development. Typically, the offspring of animals that are undernourished in pregnancy exhibit a relatively narrow range of physiological phenotypes that includes higher blood pressure, glucose intolerance, renal insufficiency and increased adiposity. The observation that common phenotypes arise from very diverse maternal nutritional insults has led to the proposal that programming is driven by a small number of mechanistic processes. The remodelling of tissues during development as a consequence of maternal nutritional status being signalled by endocrine imbalance or key nutrients limiting processes in the fetus may lead to organs having irreversibly altered structures that may limit their function with ageing. It has been proposed that the maternal diet may impact upon epigenetic marks that determine gene expression in fetal tissues, and this may be an important mechanism connecting maternal nutrient intakes to long-term programming of offspring phenotype. The objective for this review is to provide an overview of the mechanistic basis of fetal programming, demonstrating the critical role of animal models as tools for the investigation of programming phenomena.

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The long-term consequences of intra-uterine protein malnutrition for glucose metabolism

Proceedings of The Nutrition Society ◽

10.1017/s0029665199000804 ◽

1999 ◽

Vol 58 (3) ◽

pp. 615-619 ◽

Cited By ~ 130

Author(s):

Susan E. Ozanne ◽

C. Nicholas Hales

Keyword(s):

Insulin Resistance ◽

Glucose Tolerance ◽

Maternal Nutrition ◽

Maternal Diet ◽

Adult Life ◽

Subsequent Development ◽

Insulin Resistance Syndrome ◽

Epidemiological Studies ◽

Thrifty Phenotype ◽

Adaptive Processes

Our initial observations, in epidemiological studies, linking indices of poor early (fetal and infant) growth to the subsequent development of poor glucose tolerance and the insulin resistance syndrome in adult life, have been confirmed in studies in a wide variety of populations around the world. These findings led us 5 years ago to propose the ‘thrifty phenotype’ hypothesis. Tests of this hypothesis in an animal model in which the pregnant and/or lactating rat dams are fed on an isoenergetic diet containing just under half the normal protein content are consistent with the ideas put forward. They have also allowed us to refine the hypothesis in the light of the new data as follows: (1) the growth of the fetus (and possibly infant) is quantitatively and qualitatively altered by its nutritional environment (which may include maternal diet-dependent changes in maternal hormones); (2) these changes serve to select between the growth rates of different tissues according to priorities which differ between males and females (nutritional thrift) and to alter organ function to constitute a thrifty offspring adapted to survival in poor nutritional circumstances (thrifty phenotype); (3) an individual so constituted suffers adverse consequences in adult life if he/she experiences good or supranormal nutrition; (4) both poor insulin secretion and insulin resistance can result from these adaptive processes; (5) the adverse consequences include loss of glucose tolerance and hypertension. The precise outcome of growth retardation during early life may vary according to the type and timing of the factors responsible for the retardation. It remains to be determined to what extent these potentially adverse effects can be delayed or prevented by a suitable postnatal diet. Experiments in animal models are largely consistent with the concepts proposed from human epidemiological studies. They show that the metabolism of the liver, muscle and adipose tissue may be programmed by maternal nutrition during gestation and lactation. The combination of early growth restriction and subsequent adult obesity reproduced in the rat are the main features of the insulin resistance syndrome.

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Personalized Nutrition Approach in Pregnancy and Early Life to Tackle Childhood and Adult Non-Communicable Diseases

Life ◽

10.3390/life11060467 ◽

2021 ◽

Vol 11 (6) ◽

pp. 467

Author(s):

Shaikha Alabduljabbar ◽

Sara Al Zaidan ◽

Arun Prasath Lakshmanan ◽

Annalisa Terranegra

Keyword(s):

Health Status ◽

Molecular Mechanisms ◽

Maternal Nutrition ◽

Maternal Diet ◽

Adult Life ◽

Communicable Diseases ◽

Fetal Life ◽

Primary Role ◽

Personalized Nutrition ◽

Non Communicable Diseases

The development of childhood and adult non-communicable diseases (NCD) is associated with environmental factors, starting from intrauterine life. A new theory finds the roots of epigenetic programming in parental gametogenesis, continuing during embryo development, fetal life, and finally in post-natal life. Maternal health status and poor nutrition are widely recognized as implications in the onset of childhood and adult diseases. Early nutrition, particularly breastfeeding, also plays a primary role in affecting the health status of an individual later in life. A poor maternal diet during pregnancy and lack of breastfeeding can cause a nutrient deficiency that affects the gut microbiota, and acts as a cofactor for many pathways, impacting the epigenetic controls and transcription of genes involved in the metabolism, angiogenesis, and other pathways, leading to NCDs in adult life. Both maternal and fetal genetic backgrounds also affect nutrient adsorption and functioning at the cellular level. This review discusses the most recent evidence on maternal nutrition and breastfeeding in the development of NCD, the potentiality of the omics technologies in uncovering the molecular mechanisms underlying it, with the future prospective of applying a personalized nutrition approach to prevent and treat NCD from the beginning of fetal life.

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Lifestyle, Maternal Nutrition and Healthy Pregnancy

Current Vascular Pharmacology ◽

10.2174/1570161118666200401112955 ◽

2020 ◽

Vol 19 (2) ◽

pp. 132-140

Author(s):

Alfonso Mate ◽

Claudia Reyes-Goya ◽

Álvaro Santana-Garrido ◽

Carmen M. Vázquez

Keyword(s):

Physical Activity ◽

Maternal Nutrition ◽

Muscle Tone ◽

Maternal Diet ◽

Perinatal Outcomes ◽

Psychosocial Health ◽

World Health ◽

Large For Gestational Age ◽

Moderate Physical Activity ◽

Healthy Pregnancy

: Healthy lifestyle habits spanning from preconception to postpartum are considered as a major safeguard for achieving successful pregnancies and for the prevention of gestational diseases. Among preconception priorities established by the World Health Organization (WHO) are healthy diet and nutrition, weight management, physical activity, planned pregnancy and physical, mental and psychosocial health. Most studies covering the topic of healthy pregnancies focus on maternal diet because obesity increases the risks for adverse perinatal outcomes, including gestational diabetes mellitus, large for gestational age newborns, or preeclampsia. Thus, foods rich in vegetables, essential and polyunsaturated fats and fibre-rich carbohydrates should be promoted especially in overweight, obese or diabetic women. An adequate intake of micronutrients (e.g. iron, calcium, folate, vitamin D and carotenoids) is also crucial to support pregnancy and breastfeeding. Moderate physical activity throughout pregnancy improves muscle tone and function, besides decreasing the risk of preeclampsia, gestational diabesity (i.e. diabetes associated with obesity) and postpartum overweight. Intervention studies claim that an average of 30 min of exercise/day contributes to long-term benefits for maternal overall health and wellbeing. Other factors such as microbiome modulation, behavioural strategies (e.g. smoking cessation, anxiety/stress reduction and sleep quality), maternal genetics and age, social class and education might also influence the maternal quality of life. These factors contribute to ensure a healthy pregnancy, or at least to reduce the risk of adverse maternal and foetal outcomes during pregnancy and later in life.

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Differential Effects of Maternal Diets on Birth Outcomes and Metabolic Parameters in Rats After Ethanol Consumption during Pregnancy

British Journal Of Nutrition ◽

10.1017/s0007114520005152 ◽

2020 ◽

pp. 1-25

Author(s):

Yidi Wang ◽

Bradley A. Feltham ◽

Michael N. A. Eskin ◽

Miyoung Suh

Keyword(s):

Total Cholesterol ◽

Birth Outcomes ◽

Maternal Nutrition ◽

Maternal Diet ◽

Hdl Cholesterol ◽

Nutrition Intervention ◽

Metabolic Parameters ◽

Nutrition Status ◽

Sprague Dawley ◽

Metabolic Outcomes

Abstract Maternal nutrition status plays an important role in the development of fetal alcohol spectrum disorders (FASD), but its direct evidence is lacking. This study compared a standard chow with a semi-purified energy dense (E-dense) diet on birth and metabolic outcomes in rats after ethanol (EtOH) consumption during pregnancy. Pregnant Sprague-Dawley rats were randomized into four groups: chow (n=6), chow+EtOH (20% v/v) (n=7), E-dense (n=6), and E-dense+EtOH (n=8). Birth outcomes including litter size, body and organ weights were collected. Metabolic parameters were measured in dams and pups at postnatal day (PD) 7. Maternal EtOH consumption decreased body weights (p <0.0001) and litter sizes (p <0.05) in chow-fed dams. At PD7, pups born to dams fed E-dense diet had higher body (p <0.002) and liver weights (p <0.0001). These pups also had higher plasma total cholesterol (p <0.0001), triacyclglycerol (p <0.003) and alanine aminotransferase (p <0.03) compared to those from chow-fed dams. Dams fed E-dense diet had higher plasma total- (p <0.0001) and HDL-cholesterol (p <0.0001) and lower glucose (p <0.0001). EtOH increased total cholesterol (p <0.03) and glucose (p <0.05) only in dams fed the E-dense diet. Maternal exposure to E-dense diet attenuated prenatal EtOH-induced weight loss and produced different metabolic outcomes in both dams and pups. While the long-lasting effects of these outcomes are unknown, this study highlights the importance of maternal diet quality for maternal health and infant growth, and suggests that maternal nutrition intervention may be a potential target for alleviating FASD.

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71 Effects of timing of supplementation during late gestation in Bos indicus-influenced beef cows on post-weaning growth, immunity, and carcass characteristics of steer progeny

Journal of Animal Science ◽

10.1093/jas/skz397.135 ◽

2020 ◽

Vol 98 (Supplement_2) ◽

pp. 59-59

Author(s):

Elizabeth Palmer ◽

Marcelo Vedovatto ◽

Juliana Ranches ◽

Vinicius Gouvea ◽

Rhaiza Oliveira ◽

...

Keyword(s):

Bos Indicus ◽

Carcass Characteristics ◽

Beef Cows ◽

Late Gestation ◽

Experimental Unit ◽

Carcass Quality ◽

Diarrhea Virus ◽

Randomized Design ◽

Distillers Grain ◽

Dried Distillers Grain

Abstract This study evaluated the growth, immunity, and carcass characteristics of beef steers born to cows offered dried distillers grains (DDG) at different timing during late gestation. Approximately 84 d before calving (d 0), 84 mature Brangus cows were stratified by BW and BCS (422 ± 42 kg; 5.0 ± 0.14) and allocated into 1 of 6 bahiagrass pastures (14 cows/pasture). Treatments were randomly assigned to pastures: 1) no prepartum supplementation (CON); 2) 1 kg/d DDG from d 0 to 84 (LATE84); or 3) 2 kg/d from d 0 to 42 (LATE42). Calves were weaned at 261 ± 23 d of age. At weaning, 38 steers were vaccinated against bovine viral diarrhea virus (BVDV-1) and parainfluenza-3 (PI-3) and transported to a feedlot facility. Steers were penned according to cow prepartum pasture distribution and fed a similar diet until slaughter (d 587). Data were analyzed as complete randomized design using MIXED procedure of SAS, pasture as the experimental unit, treatment as fixed effect, and pasture(treatment) and steer(pasture) as random effects. Steer feedlot BW, ADG, DMI, and G:F did not differ (P ≥ 0.12) among treatments. Plasma haptoglobin concentrations were greater (P ≤ 0.03) for LATE42 and LATE84 vs. CON steers 2 d after feedlot entry. Plasma cortisol and seroconversion for BVDV-1 and PI-3 did not differ (P ≥ 0.15) among treatments. The percentage of carcasses grading Choice did not differ (P = 0.13), but carcasses grading low Choice were greater (P = 0.03) for CON vs. LATE42, with LATE84 being intermediate (91, 40, and 58%, respectively). Thus, prepartum dried distillers grain supplementation to B. indicus-influenced cows did not enhance feedlot growth but had subtle positive impacts on carcass quality and innate immunity in steer progeny. In addition, timing of dried distillers grain supplementation (last 84 d vs. first 42 d of late gestation) did not impact steer post-weaning feedlot performance and carcass quality.

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Differences in copper and selenium metabolism between Angus (Bos taurus) and Brahman (Bos indicus) cattle

Journal of Animal Science ◽

10.1093/jas/skab048 ◽

2021 ◽

Author(s):

J Ranches ◽

R Alves ◽

M Vedovatto ◽

E Anne Palmer ◽

P Moriel ◽

...

Keyword(s):

Bos Taurus ◽

Bos Indicus ◽

First Trimester ◽

Beef Cows ◽

Experimental Unit ◽

University Of Florida ◽

Brahman Cattle ◽

Research And Education ◽

The University ◽

Se Status

Abstract A two-year study was conducted at the University of Florida – IFAS, Range Cattle Research and Education Center (Ona, FL) to evaluate differences in the metabolism of Cu and Se of Angus (Bos taurus) and Brahman (Bos indicus) cattle. Thirty-two pregnant beef cows (n = 8 Brahman and 8 Angus/year) were enrolled in the study in the first trimester of gestation. The study consisted of 3 phases: (1) restriction (d 0 to d 90); (2) supplementation (d 91 to 150), and (3) calving. During all 3 phases, cows were individually fed and housed in partially covered drylot pens. During the restriction and supplementation phases cows were provided a 1.5 kg/d of a grain-based concentrate supplement, which was fortified with flowers of S (50 g of supplemental S/cow daily; restriction phase) or Cu and Se (100 and 3 mg/d of Cu and Se, respectively; supplementation phase). Blood and liver samples were collected from all cows on 30 d intervals and from both cows and calves within 24 h of calving. Colostrum and milk samples were collected at calving and 7 d after birth. All data were analyzed using the MIXED procedure of SAS, where cow and calf were the experimental unit. During the restriction phase, a breed × day effect (P = 0.03) was observed where Brahman had greater liver Cu concentration than Angus cows in all sampling days. For liver Se concentration, a tendency (P = 0.07) for a breed effect was observed where Angus cows tended to have greater liver Se concentration than Brahman. During the supplementation phase, breed (P < 0.001) and day (P < 0.01) effects were observed, where Brahman cows had greater liver Cu concentration than Angus. For liver Se concentration, a day effect (P < 0.001) was observed, where liver Se concentration increased (P < 0.001) from d 90 to 120 and remained unchanged (P = 0.86) until d 150. At calving no effects of breed (P = 0.34) were observed for liver Cu concentration of cows, however, Brahman calves tended (P = 0.09) to have greater liver Cu concentration than Angus calves. For Se liver concentration at calving, Angus cows tended (P = 0.07) to have greater liver Se concentration than Brahman cows, however no breed differences (P = 0.70) were observed for liver Se concentration of calves at birth. In summary substantial differences in multiple indicators of Cu and Se status were observed between Angus and Brahman cattle, implying that Angus and Brahman cattle possibly have different mechanisms to maintain adequate Cu and Se status.

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