Browsing by Author "Gilbert, Elizabeth R."

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    Baicalein Protects against Type 2 Diabetes via Promoting Islet β-Cell Function in Obese Diabetic Mice
    Fu, Y.; Luo, J.; Jia, Z.; Zhen, W.; Zhou, K.; Gilbert, Elizabeth R.; Liu, D.; Lee, H. (Hindawi, 2014)
    In both type 1 (T1D) and type 2 diabetes (T2D), the deterioration of glycemic control over time is primarily caused by an inadequate mass and progressive dysfunction of β-cell, leading to the impaired insulin secretion. Here, we show that dietary supplementation of baicalein, a flavone isolated from the roots of Chinese herb Scutellaria baicalensis, improved glucose tolerance and enhanced glucose-stimulated insulin secretion (GSIS) in high-fat diet (HFD-) induced middle-aged obese mice. Baicalein had no effect on food intake, body weight gain, circulating lipid profile, and insulin sensitivity in obese mice. Using another mouse model of type 2 diabetes generated by high-fat diet (HFD) feeding and low doses of streptozotocin injection, we found that baicalein treatment significantly improved hyperglycemia, glucose tolerance, and blood insulin levels in these middle-aged obese diabetic mice, which are associated with the improved islet β-cell survival and mass. In the in vitro studies, baicalein significantly augmented GSIS and promoted viability of insulin-secreting cells and human islets cultured either in the basal medium or under chronic hyperlipidemic condition. These results demonstrate that baicalein may be a naturally occurring antidiabetic agent by directly modulating pancreatic β-cell function.
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    Central mechanisms of prolactin-releasing peptides orexigenic effect in chickens
    Wang, Guoqing (Virginia Tech, 2015-06-29)
    Prolactin-releasing peptide (PrRP) is an endogenous hypothalamic neuropeptide that when exogenously injected increases food intake in chickens, but decreases it in rodents and goldfish. We designed three sets of experiments to elucidate the mechanisms of PrRP's orexigenic effect in chicks. In experiment one, food and water intake were evaluated in chicks after receiving intracerebroventricular (ICV) injection of the vehicle, 0.75, 3, 12, 47 or 188 pmol PrRP. The administration of 12 and 47 pmol PrRP increased food intake for up to 120 min after injection, and 188 pmol increased it for up to 180 min. The lowest effective dose was 3 pmol, which increased food intake for up to 60 min after injection. Water intake was not affected. To investigate the molecular mechanisms, c-Fos immunohistochemistry was performed and mRNA expression of some appetite-associated neurotransmitters was measured in chicks that received either vehicle or 188 pmol of PrRP. The rostral paraventricular nucleus (PVN) was activated which coincided with increased neuropeptide Y (NPY) mRNA expression in the whole hypothalamus. In experiment two, food and water intake were evaluated in chicks fed a high carbohydrate (HC), high fat (HF) or high protein (HP) diet after ICV injection of vehicle, 3 or 188 pmol PrRP. Chicks fed the HP diet increased food intake at a lower dose than chicks fed HF and HP diets after ICV PrRP injection. In addition, ICV injection of vehicle, 3 and 188 pmol PrRP were performed in chicks fed all three diets, and ICV PrRP injection induced preferential intake of the HP diet over HC and HF diets. The expression of some appetite-associated neuropeptides in the hypothalamus was also measured in chicks fed the HC, HF or HP diet after ICV injection of vehicle or 188 pmol PrRP. There was a diet effect on mRNA abundance of all appetite-associated genes measured (P < 0.05), with greater expression in chicks fed the HF or HP than HC diet. While neuropeptide Y (NPY) mRNA abundance was similar between vehicle and PrRP-injected chicks that consumed HP or HF diets, expression was greater (P < 0.05) in PrRP- than vehicle-injected chicks that consumed the HC. In experiment three, the orexigenic effect of PrRP was tested in chicks selected for low (LWS) and high (HWS) body weight after central administration of vehicle, 24, 94 and 375 pmol PrRP. The LWS chicks had a lower threshold and higher magnitude of food intake increase in response to PrRP injection. Results demonstrate that PrRP is a potent orexigenic factor in chickens and that effects are likely mediated through the hypothalamus. The orexigenic effect of PrRP was influenced by dietary macronutrient composition, and diet in turn influenced the food intake response to PrRP. These results may contribute to a novel understanding of appetite regulation.
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    Central Taurine Attenuates Hyperthermia and Isolation Stress Behaviors Augmented by Corticotropin-Releasing Factor with Modifying Brain Amino Acid Metabolism in Neonatal Chicks
    Elhussiny, Mohamed Z.; Tran, Phuong V.; Tsuru, Yuriko; Haraguchi, Shogo; Gilbert, Elizabeth R.; Cline, Mark A.; Bungo, Takashi; Furuse, Mitsuhiro; Chowdhury, Vishwajit S. (MDPI, 2022-01-16)
    The objective of this study was to determine the effects of centrally administered taurine on rectal temperature, behavioral responses and brain amino acid metabolism under isolation stress and the presence of co-injected corticotropin-releasing factor (CRF). Neonatal chicks were centrally injected with saline, 2.1 pmol of CRF, 2.5 μmol of taurine or both taurine and CRF. The results showed that CRF-induced hyperthermia was attenuated by co-injection with taurine. Taurine, alone or with CRF, significantly decreased the number of distress vocalizations and the time spent in active wakefulness, as well as increased the time spent in the sleeping posture, compared with the saline- and CRF-injected chicks. An amino acid chromatographic analysis revealed that diencephalic leucine, isoleucine, tyrosine, glutamate, asparagine, alanine, β-alanine, cystathionine and 3-methylhistidine were decreased in response to taurine alone or in combination with CRF. Central taurine, alone and when co-administered with CRF, decreased isoleucine, phenylalanine, tyrosine and cysteine, but increased glycine concentrations in the brainstem, compared with saline and CRF groups. The results collectively indicate that central taurine attenuated CRF-induced hyperthermia and stress behaviors in neonatal chicks, and the mechanism likely involves the repartitioning of amino acids to different metabolic pathways. In particular, brain leucine, isoleucine, cysteine, glutamate and glycine may be mobilized to cope with acute stressors.
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    Chickens from lines artificially selected for juvenile low and high body weight differ in glucose homeostasis and pancreas physiology
    Sumners, Lindsay Hart (Virginia Tech, 2015-01-30)
    Early pancreatectomy experiments performed in ducks and pigeons at the end of the 19th century revealed that avians, unlike mammals, do not display signs of diabetes. Relative to mammals, birds are considered hyperglycemic, displaying fasting blood glucose concentrations twice that of a normal human. While circulating levels of insulin are similar in avians and mammals, and structure and function of the insulin receptor are also conserved among vertebrate species, birds do not experience deleterious effects of chronic hyperglycemia as observed in mammals. Understanding avian glucose homeostasis, particularly in chickens, has both agricultural and biomedical implications. Improvement of feed efficiency and accelerated growth in poultry may come from a greater understanding of the physiological processes associated with glucose utilization in muscle and fat. The chicken has also recently been recognized as an attractive model for human diabetes, where there is a great need for preventative and therapeutic strategies. The link between type 2 diabetes and obesity, coupled with the inherent hyperglycemic nature of chickens, make chickens artificially selected for juvenile low (LWS) and high (HWS) body weight a favorable model for investigating glucose regulation and pancreas physiology. Oral glucose tolerance and insulin sensitivity tests revealed differences in threshold sensitivity to insulin and glucose clearance rate between the lines. Results from real-time PCR showed greater pancreatic mRNA expression of four glucose regulatory genes (preproinsulin, PPI; preproglucagon, PPG; glucose transporter 2, GLUT2; and pancreatic duodenal homeobox 1, Pdx1) in LWS, than HWS chickens. Histological analysis of pancreas revealed that HWS chickens have larger pancreatic islets, less pancreatic islet mass, and more pancreatic inflammation than LWS chickens, all of which presumably contribute to impaired glucose metabolism. In summary, results suggest that at selection age, there are differences in pancreas physiology that may explain the differences in glucose regulation between LWS and HWS. These data pave the way for future studies aimed at understanding the developmental regulation of endocrine pancreas function in chickens, as well as how aging affects homeostatic control of blood glucose in chickens.
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    Chickens Selected for High Body Weight Show Relative Impairment in Fatty Acid Oxidation Efficiency and Metabolic Flexibility in Skeletal Muscle and White Adipose Tissue
    Zhang, Shuai (Virginia Tech, 2013-12-12)
    The ability to adapt fuel usage to nutrient availability is termed metabolic flexibility, and is influenced by activity of the pyruvate dehydrogenase complex (PDC). The Virginia lines of chickens are a unique model of anorexia and obesity that have resulted from 56 generations of artificial selection for high (HWS) or low (LWS) juvenile body weight. We hypothesized that hyperphagia and obesity in juvenile HWS chickens are associated with altered fatty acid oxidation efficiency and metabolic flexibility in tissues associated with energy sensing and storage, and relative cellular hypertrophy in white adipose tissue. Hypothalamus, liver, Pectoralis major, gastrocnemius, abdominal fat, clavicular fat and subcutaneous fat were collected from juvenile (56-65 day-old) HWS and LWS chickens for metabolic, gene expression and histological assays. The HWS chickens had reduced fatty acid oxidation efficiency in abdominal fat (P < 0.0001) and reduced rates of oxidation in abdominal fat and gastrocnemius (P < 0.0001) as compared to LWS. There was reduced citrate synthase activity in white adipose tissue (P < 0.0001) and greater metabolic inflexibility in skeletal muscle (P = 0.006) of HWS compared to LWS. Greater pyruvate dehydrogenase kinase 4 (PDK4) and forkhead box O1 (FoxO1) mRNA were found in skeletal muscle and white adipose tissue of 56-day-old HWS than LWS. Expression of peroxisome proliferator-activated receptor γ (PPARγ) in all adipose tissue depots was greater (P < 0.05) in LWS than in HWS chickens. The HWS chickens had larger (P < 0.0001) and fewer (P < 0.0001) adipocytes per unit area than LWS. These results suggest that the HWS chickens have impaired metabolic flexibility and fatty acid oxidation efficiency due to an up-regulation of pyruvate dehydrogenase activity to accommodate the influx of acetyl CoA from fatty acid oxidation in skeletal muscle and white adipose tissue. These metabolic adaptations can be linked to differences in gene expression regulation and body composition between the lines. Adipocyte cellularity data are consistent with greater oxidative efficiency in the adipose tissue of LWS, because of the greater number of unfilled cells in all depots that were sampled. Results can be extrapolated to agricultural production in the understanding of factors regulating the amount of lipid deposition in chicken carcass fat. Results may also provide insight into eating disorders and the development of obesity.
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    Chronic stress and adipose tissue in the anorexic state: endocrine and epigenetic mechanisms
    Xiao, Yang; Liu, Dongmin; Cline, Mark A.; Gilbert, Elizabeth R. (Taylor & Francis, 2020)
    Although adipose tissue metabolism in obesity has been widely studied, there is limited research on the anorexic state, where the endocrine system is disrupted by reduced adipose tissue mass and there are depot-specific changes in adipocyte type and function. Stress exposure at different stages of life can alter the balance between energy intake and expenditure and thereby contribute to the pathogenesis of anorexia nervosa. This review integrates information from human clinical trials to describe endocrine, genetic and epigenetic aspects of adipose tissue physiology in the anorexic condition. Changes in the hypothalamus-pituitary-thyroid, -adrenal, and -gonadal axes and their relationships to appetite regulation and adipocyte function are discussed. Because of the role of stress in triggering or magnifying anorexia, and the dynamic but also persistent nature of environmentally-induced epigenetic modifications, epigenetics is likely the link between stress and long-term changes in the endocrine system that disrupt homoeostatic food intake and adipose tissue metabolism. Herein, we focus on the adipocyte and changes in its function, including alterations reinforced by endocrine disturbance and dysfunctional adipokine regulation. This information is critical because of the poor understanding of anorexic pathophysiology, due to the lack of suitable research models, and the complexity of genetic and environmental interactions.
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    Chronic stress, epigenetics, and adipose tissue metabolism in the obese state
    Xiao, Yang; Liu, Dongmin; Cline, Mark A.; Gilbert, Elizabeth R. (2020-10-19)
    In obesity, endocrine and metabolic perturbations, including those induced by chronic activation of the hypothalamus–pituitary–adrenal axis, are associated with the accumulation of adipose tissue and inflammation. Such changes are attributable to a combination of genetic and epigenetic factors that are influenced by the environment and exacerbated by chronic activation of the hypothalamus–pituitary–adrenal axis. Stress exposure at different life stages can alter adipose tissue metabolism directly through epigenetic modification or indirectly through the manipulation of hypothalamic appetite regulation, and thereby contribute to endocrine changes that further disrupt whole-body energy balance. This review synthesizes current knowledge, with an emphasis on human clinical trials, to describe metabolic changes in adipose tissue and associated endocrine, genetic and epigenetic changes in the obese state. In particular, we discuss epigenetic changes induced by stress exposure and their contribution to appetite and adipocyte dysfunction, which collectively promote the pathogenesis of obesity. Such knowledge is critical for providing future directions of metabolism research and targets for treating metabolic disorders.
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    Cytokine mRNA Expression in the Small Intestine of Weanling Pigs Fed Diets Supplemented with Specialized Protein or Peptide Sources
    Zhao, J.; Harper, Allen F.; Webb, Kenneth E. Jr.; Kuehn, Larry Alexander; Gilbert, Elizabeth R.; Xiao, X.; Wong, Eric A. (2008-12)
    Cytokines play a central role in the mucosal immune response and are involved in regulation of nutrient absorption, metabolism and animal growth This study investigated the effect of diet manipulation with specialized protein or peptide sources on expression of cytokine (IL-1, IL-6, IL-10, and TNF-alpha) mRNA abundance in different intestinal regions and at different ages post-weaning in piglets. A total of 48 (17 days of age, 6.16 +/- 0.34 kg BW) weanling pigs were fed either a corn-soy/whey protein basal diet, the basal diet supplemented with spray-dried plasma protein (SDPP), or the basal diet supplemented with Peptiva (R), a hydrolyzed marine plant protein. A fourth treatment group was fed the SDPP diet, but the feed intake level was limited (SDPP-LF). Pigs were killed at 3 and 10 d, and intestinal cytokine mRNA was measured by real-time PCR using the relative quantification method. The SDPP-LF group exhibited an increased TNF-alpha mRNA abundance compared with the ad libitum SDPP group (p<0.05). The TNF-alpha and IL-10 mRNA abundance increased from the proximal to distal part of the intestine, and the mRNA abundance was greater (p<0.01) in the distal intestine as compared with the proximal and middle intestine. The cytokines IL-1-beta, IL-10 and TNF-alpha mRNA abundance also increased from d3 to d10 postweaning (p<0.01). In summary, restricted feeding increased the TNF-alpha mRNA abundance in the small intestine, however neither SDPP nor peptide supplementation affected cytokine mRNA expression. Abundance of mRNA for most cytokines examined in this study increased with age post-weaning, suggesting that during 10 d after weaning the mucosal immune system is still under development.
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    Delayed access to feed affects broiler small intestinal morphology and intestinal cell ontogeny
    Liu, Kuan-Ling (Virginia Tech, 2019-08-01)
    In the broiler industry, chicks are often deprived of feed and water up to 48 h posthatch. This delayed access to feed (DAF) has been found to inhibit small intestinal development, compromising growth of the chick. To further understand the impact of DAF on small intestines at the molecular level, many developmental genes that regulate intestinal development were investigated. The objective of this study was to determine the effect of DAF on early posthatch broiler small intestinal morphology, which includes villus height (VH) and crypt depth (CD), and to quantify changes in regulatory genes, such as Olfactomedin 4 (Olfm4), Marker of Ki-67 (Ki-67), Peptide Transporter 1 (PepT1), and Mucin 2 (Muc2), in response to DAF. The Olfm4 mRNA can clearly identify stem cells in the intestinal crypt, which allows VH and CD to be measured, while Ki-67 marks the proliferating cells. The peptide transporter PepT1 is located on intestinal epithelial cells and plays a critical role in transporting di- and tripeptides. Muc2, which is secreted from goblet cells, forms mucus that lines the intestinal epithelial cells acting as a layer of protective coating. Cobb 500 chicks, hatching within a 12 h window, were randomly allocated into three experimental groups: control with no feed delay (ND), 24 h feed delay (D24), and 36 h feed delay (D36). Quantification of Olfm4, Ki-67, PepT1, and Muc2 mRNA abundance were investigated by quantitative PCR, in duodenum, jejunum, and ileum at 0 h, 24 h, 36 h, 72 h, 120 h, and 168 h posthatch. Additionally, localization of cells expressing each gene was visualized using in-situ hybridization at all listed times except 168 h posthatch. Statistical analysis was performed using JMP Pro 14, and significant differences between treatments within a collection day were determined by t-test and one-way ANOVA (P < 0.05). In the ND group, duodenal CD at 0 h was greatest compared to all other time points. With DAF, the duodenal VH of D36 chicks was lower at 36 h (P < 0.001) and 72 h (P = 0.002) compared to ND chicks. In the jejunum and ileum, the VH of D36 chicks was lower at 120 h (P = 0.005) and 72 h (P = 0.03), respectively, compared to ND chicks. In contrast, the VH of D24 chicks at 24 h was greater than ND (P = 0.004) in the jejunum. There was no difference between treatments by 168 h in all intestinal segments. The CD was also lower in DAF groups compared to ND but only in the jejunum and ileum. In contrast, duodenal CD was greater in D24 chicks at 24 h (P = 0.039) and in D36 chicks at 36 h (P < 0.0001) compared to ND chicks, but the difference was no longer significant by 72 h. The VH/CD ratio was lower in all three segments, except the ileum displayed a greater VH/CD ratio in D24 and D36 chicks at 24 h and 36 h, respectively, compared to ND chicks. The mRNA abundance of Olfm4 and Ki-67 was greater in DAF groups upon refeeding, but not until 120 h. The PepT1 mRNA abundance was greater in DAF groups while the abundance of Muc2 mRNA was lower. This difference in mRNA abundance level was more prominent in the duodenum and jejunum. From the analysis of number and distribution of goblet cells found in the upper half and lower half of the villi, expressed as a ratio (VU/VL), a greater ratio was observed in delayed groups compared to ND. In summary, while DAF resulted in altered small intestinal morphology with an effect more pronounced in D36 than D24 chicks, upon refeeding, some genes important to intestinal development were upregulated as a response to the treatment.
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    Deletion of GPR30 Drives the Activation of Mitochondrial Uncoupling Respiration to Induce Adipose Thermogenesis in Female Mice
    Luo, Jing; Wang, Yao; Gilbert, Elizabeth R.; Liu, Dongmin (Frontiers, 2022-05-03)
    Thermogenic adipocytes possess a promising approach to combat obesity with its capability promoting energy metabolism. We previously discovered that deletion of GPR30 (GPRKO), a presumably membrane-associated estrogen receptor, protected female mice from developing obesity, glucose intolerance, and insulin resistance when challenged with a high-fat diet (HFD). In vivo, the metabolic phenotype of wild type (WT) and GPRKO female mice were measured weekly. Acute cold tolerance test was performed. Ex vivo, mitochondrial respiration of brown adipose tissue (BAT) was analyzed from diet-induced obese female mice of both genotypes. In vitro, stromal vascular fractions (SVF) were isolated for beige adipocyte differentiation to investigate the role of GPR30 in thermogenic adipocyte. Deletion of GPR30 protects female mice from hypothermia and the mitochondria in BAT are highly energetic in GPRKO animals while the WT mitochondria remain in a relatively quiescent stage. Consistently, GPR30 deficiency enhances beige adipocyte differentiation in white adipose tissue (WAT) and activates the thermogenic browning of subcutaneous WAT due to up-regulation of UCP-1, which thereby protects female mice from HFD-induced obesity. GPR30 is a negative regulator of thermogenesis, which at least partially contributes to the reduced adiposity in the GPRKO female mice. Our findings provide insight into the mechanism by which GPR30 regulates fat metabolism and adiposity in female mice exposed to excess calories, which may be instrumental in the development of new therapeutic strategies for obesity.
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    Development of a Nongenetic Mouse Model of Type 2 Diabetes
    Gilbert, Elizabeth R.; Fu, Z.; Liu, D. (Hindawi, 2011-01-01)
    Insulin resistance and loss of beta-cell mass cause Type 2 diabetes (T2D). The objective of this study was to generate a nongenetic mouse model of T2D. Ninety-six 6-month-old C57BL/6N males were assigned to 1 of 12 groups including (1) low-fat diet (LFD; low-fat control; LFC), (2) LFD with 1 i.p. 40 mg/kg BW streptozotocin (STZ) injection, (3), (4), (5), (6) LFD with 2, 3, 4, or 5 STZ injections on consecutive days, respectively, (7) high-fat diet (HFD), (8) HFD with 1 STZ injection, (9), (10), (11), (12) HFD with 2, 3, 4, or 5 STZ injections on consecutive days, respectively. After 4 weeks, serum insulin levels were reduced in HFD mice administered at least 2 STZ injections as compared with HFC. Glucose tolerance was impaired in mice that consumed HFD and received 2, 3, or 4 injections of STZ. Insulin sensitivity in HFD mice was lower than that of LFD mice, regardless of STZ treatment. Islet mass was not affected by diet but was reduced by 50% in mice that received 3 STZ injections. The combination of HFD and three 40 mg/kg STZ injections induced a model with metabolic characteristics of T2D, including peripheral insulin resistance and reduced beta-cell mass.
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    Development of an Interferon Bioassay and Primitive Endoderm Cell Lines to Study Lineage Specification During Early Bovine Embryogenesis
    Mccoski, Sarah R. (Virginia Tech, 2015-01-09)
    Embryonic wastage is rampant in cattle during early stages of pregnancy, particularly the first few weeks of gestation, a time recognized for significant remodeling of the embryo. Of particular interest to this laboratory are the first two lineage specification events, trophectoderm (TE) and primitive endoderm (PrE) specification, occurring between days 6 and 8 of gestation. The TE is responsible for uterine attachment and production of interferon-tau (IFNT), the factor of maternal recognition of pregnancy in ruminants. The PrE forms the yolk sac, which provides nutrients to the developing embryo. It is probable that developmental miscues during these differentiation events are responsible for the high rate of pregnancy loss, however, information on these early lineage processes is lacking in ruminants. The objective of the first study was to improve the current methods for detecting IFNT in biological samples. A novel interferon stimulatory response element (ISRE)-reporter assay was created, and provides adequate quantification to measure IFNT. Additionally, it has a shorter completion time than previous bioassays, and does not require the use of a live virus. The second study describes the development of a PrE cell line derived from bovine embryos. The PrE outgrowths can be produced at high rate, and can be maintained in a continuous culture system for about 6 weeks. As a true bovine PrE cell line does not currently exist, these lines hold great potential for the study of early development. Collectively, these studies improve knowledge of bovine embryogenesis, and provide insights that may be used to limit the pregnancy failures occurring in this species.
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    Dietary and Developmental Regulation of Nutrient Transporter Gene Expression in the Small Intestine of Two Lines of Broilers
    Gilbert, Elizabeth R. (Virginia Tech, 2008-08-12)
    To better understand the digestive and absorptive capacities of the chick intestine so that we may feed diets that better meet the nutritional needs of the chick, it is important to understand how expression of nutrient transporter genes changes in response to various factors. A series of feeding trials were conducted to evaluate the dietary and developmental regulation of nutrient transporter mRNA abundance in the small intestine of two lines of broilers selected on corn-based (Line A) or wheat-based (Line B) diets. Abundance of mRNA was quantified in all experiments using real time PCR and the absolute quantification method. The objective of the first study was to investigate intestinal nutrient transporter and enzyme mRNA in Line A and B broilers at embryo day 18 and 20, day of hatch, and d 1, 3, 7, and 14 posthatch. Genes evaluated included the peptide transporter, PepT1, 10 AA transporters (rBAT, bo,+AT, ATBo,+, CAT1, CAT2, LAT1, y+LAT1, y+LAT2, BoAT and EAAT3), four sugar transporters (SGLT1, SGLT5, GLUT5, and GLUT2), and a digestive enzyme, APN. For PepT1, Line B had greater quantities of mRNA compared with Line A (P = 0.001), suggesting a greater capacity for absorption of AA as peptides. Levels of PepT1 mRNA were greatest in the duodenum (P < 0.05), whereas the abundances of SGLT1, GLUT5 and GLUT2 mRNA were greatest in the jejunum (P < 0.05). Abundances of EAAT3, bo,+AT, rBAT, BoAT, LAT1, CAT2, SGLT5 and APN mRNA were greatest in the ileum (P < 0.05). Quantities of PepT1, EAAT3, BoAT, SGLT1, GLUT5, and GLUT2 mRNA increased linearly (P < 0.01), while CAT1, CAT2, y+LAT1, and LAT1 mRNA decreased linearly (P < 0.05) with age. The objective of the second study was to evaluate the effect of dietary protein quality on intestinal peptide, AA, and glucose transporter, and digestive enzyme mRNA abundance in Line A and B broilers. At day of hatch (doh), chicks from both lines were randomly assigned to corn-based diets containing 24% crude protein (CP) with either soybean meal (SBM) or corn gluten meal (CGM) as the supplemental protein source, ad libitum. Groups of chicks from both lines were also assigned to the SBM diet at a quantity restricted to that consumed by the CGM group (SBM-RT). Abundance of PepT1, EAAT3, and GLUT2 mRNA was greater in Line B (P < 0.03), while APN and SGLT1 were greater in Line A (P < 0.04). When feed intake was equal (CGM vs restricted SBM), a greater abundance of PepT1 and bo,+AT mRNA was associated with the higher quality SBM (P < 0.04), while a greater abundance of EAAT3 and GLUT2 mRNA was associated with the lower quality CGM (P < 0.01). When feed intake was restricted (SBM vs SBM-RT), a greater abundance of PepT1 mRNA was associated with the restricted intake (P < 0.04). The objective of the third study was to determine the effect of dietary protein composition on mRNA abundance of peptide and AA transporters, and a digestive enzyme. From day 8 to day 15 posthatch, Line A and B broilers were fed equal amounts of 1 of 3 diets (24% CP). Dietary protein sources included whey protein concentrate (whey), a partial whey hydrolysate (hydro), or a mixture of free amino acids (AA) similar to the composition of whey. Intestine was collected at days 8, 9, 11, 13, and 15. Expression of all genes except LAT1 was greater (P < 0.05) in Line B compared with A. Abundance of PepT1, EAAT3, y+LAT2, CAT1, bo,+AT, and APN mRNA varied little across diets in Line A but for CAT1 mRNA was greatest (P = 0.005) in Line A birds that consumed the AA diet. Expression of these genes was greatest (P < 0.006) in Line B birds consuming the hydro diet. A greater (P < 0.05) age response of bo,+AT, EAAT3, CAT1, and APN mRNA was observed in birds consuming the hydro or AA diets relative to the whey diet. Results from these studies collectively demonstrate that nutrient transporter gene expression is responsive to a variety of factors, including developmental stage, dietary manipulation, and genetic selection. Information from these studies can be used to improve dietary formulation so that nutrient utilization is enhanced, resulting in improved growth of the broiler.
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    Dietary Flavonoids as Modulators of Lipid Metabolism in Poultry
    Tan, Zhendong; Halter, Bailey; Liu, Dongmin; Gilbert, Elizabeth R.; Cline, Mark A. (Frontiers, 2022-04-25)
    Flavonoids, naturally-occurring compounds with multiple phenolic structures, are the most widely distributed phytochemicals in the plant kingdom, and are mainly found in vegetables, fruits, grains, roots, herbs, and tea and red wine products. Flavonoids have health-promoting effects and are indispensable compounds in nutritional and pharmaceutical (i.e., nutraceutical) applications. Among the demonstrated bioactive effects of flavonoids are anti-oxidant, anti-inflammatory, and anti-microbial in a range of research models. Through dietary formulation strategies, numerous flavonoids provide the ability to support bird health while improving the nutritional quality of poultry meat and eggs by changing the profile of fatty acids and reducing cholesterol content. A number of such compounds have been shown to inhibit adipogenesis, and promote lipolysis and apoptosis in adipose tissue cells, and thereby have the potential to affect fat accretion in poultry at various ages and stages of production. Antioxidant and anti-inflammatory properties contribute to animal health by preventing free radical damage in tissues and ameliorating inflammation in adipose tissue, which are concerns in broiler breeders and laying hens. In this review, we summarize the progress in understanding the effects of dietary flavonoids on lipid metabolism and fat deposition in poultry, and discuss the associated physiological mechanisms.
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    Dietary macronutrient composition and exogenous neuropeptide Y affect feed intake in brioler chicks
    Nelson, Laura Ashley (Virginia Tech, 2014-06-11)
    Understanding the central nervous systems role in appetite regulation is crucial to cure the obesity epidemic, which is more prevalent than any disease in the United States. Central appetite regulators, known as neuropeptides, are pivotal in understanding appetite regulation. Neuropeptide Y (NPY), a 36 amino acid peptide, plays a major role in regulating the hunger signals from the brain. In all vertebrates studied, it is a strong orexigenic neurotransmitter located throughout multiple nuclei of the hypothalamus. Peripheral hormones associated with hunger are able to activate NPY neurons in the arcuate nucleus, which leads to a cascade of events that activate orexigenic neurons throughout the hypothalamus. Although extensive research has gone into understanding the role of NPY in appetite regulation, the effects of macronutrient composition of diets on NPY function have not been elucidated in non-mammalian species. This research investigates how food intake is affected by dietary macronutrient composition in broiler type chickens that are fed three varying macronutrient diets: high carbohydrate (22% CP, 3000kcal/kg) a broiler starter diet, high fat (60% ME from lard), high protein 30%CP). All diets were formulated to be isocaloric. When chicks are fed the high fat diet central NPY administration has a greater effect on feed intake compared to both the basal and high protein diet. Regardless of what diet the chick is fed from hatch, if they are switched to one of the other two diets post central administration of NPY the high fat diet stimulated feed intake for the longest duration. Although, NPY had the strongest orexigenic effect on chicks fed the high fat diet, in a choice diet situation broiler chicks chose the high protein diet, independent of central NPY administration.
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    Dietary Supplementation of Baicalein Affects Gene Expression in Broiler Adipose Tissue During the First Week Post-hatch
    Xiao, Yang; Halter, Bailey; Boyer, Casey; Cline, Mark A.; Liu, Dongmin; Gilbert, Elizabeth R. (Frontiers, 2021-06-25)
    Dietary supplementation of baicalein, a flavonoid, has anti-obesity effects in mammals and broiler chickens. The aim of this study was to determine the effect of dietary baicalein supplementation on broiler growth and adipose tissue and breast muscle deposition. Fifty Hubbard Cobb-500 day-of-hatch broiler chicks were assigned to a control starter diet or control diet supplemented with 125, 250, or 500 mg/kg baicalein and diets were fed for the first 6 days post-hatch. Body weight, average daily body weight gain, and average daily food intake were all reduced by 500 mg/kg baicalein. Breast muscle and subcutaneous and abdominal fat weights were also reduced in chicks that consumed the baicalein-supplemented diets. mRNAs for genes encoding factors involved in adipogenesis and fat storage, 1-acylglycerol-3-phosphate-O-acyltransferase 2, CCAAT/enhancer-binding protein b, perilipin-1, and sterol regulatory element-binding transcription factor 1, were more highly expressed in the adipose tissue of broilers supplemented with baicalein than the controls, independent of depot. Diacylglycerol acyltransferase and peroxisome proliferator-activated receptor gamma mRNAs, involved in triacylglycerol synthesis and adipogenesis, respectively, were greater in subcutaneous than abdominal fat, which may contribute to differences in expansion rates of these depots. Results demonstrate effects of dietary supplementation of baicalein on growth performance in broilers during the early post-hatch stage and molecular effects in major adipose tissue depots. The mild reduction in food intake coupled to slowed rate of breast muscle and adipose tissue accumulation may serve as a strategy to modulate broiler growth and body composition to prevent metabolic and skeletal disorders later in life.
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    Dietary Supplementation of Chinese Ginseng Prevents Obesity and Metabolic Syndrome in High-Fat Diet-Fed Mice
    Li, Xiaoxiao; Luo, Jing; Babu, Pon Velayutham Anandh; Zhang, Wei; Gilbert, Elizabeth R.; Cline, Mark A.; McMillan, Ryan P.; Hulver, Matthew W.; Alkhalidy, Hana; Zhen, Wei; Zhang, Haiyan; Liu, Dongmin (Mary Ann Liebert, 2014-12-01)
    Obesity and diabetes are growing health problems worldwide. In this study, dietary provision of Chinese ginseng (0.5 g/kg diet) prevented body weight gain in high-fat (HF) diet-fed mice. Dietary ginseng supplementation reduced body fat mass gain, improved glucose tolerance and whole body insulin sensitivity, and prevented hypertension in HF diet-induced obese mice. Ginseng consumption led to reduced concentrations of plasma insulin and leptin, but had no effect on plasma adiponectin levels in HF diet-fed mice. Body temperature was higher in mice fed the ginseng-supplemented diet but energy expenditure, respiration rate, and locomotive activity were not significantly altered. Dietary intake of ginseng increased fatty acid oxidation in the liver but not in skeletal muscle. Expression of several transcription factors associated with adipogenesis (C/EBP alpha and PPAR gamma) were decreased in the adipose tissue of HF diet-fed mice, effects that were mitigated in mice that consumed the HF diet supplemented with ginseng. Abundance of fatty acid synthase (FASN) mRNA was greater in the adipose tissue of mice that consumed the ginseng-supplemented HF diet as compared with control or un-supplemented HF diet-fed mice. Ginseng treatment had no effect on the expression of genes involved in the regulation of food intake in the hypothalamus. These data suggest that Chinese ginseng can potently prevent the development of obesity and insulin resistance in HF diet-fed mice.
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    Distribution and Relative Abundance of Nutrient Transporter mRNA in the Gastrointestinal Tract of Black Bears
    Gilbert, Elizabeth R. (Virginia Tech, 2005-08-08)
    Black bears are omnivorous, and tend to be opportunistic feeders, in that they will eat what is readily abundant or available. The end-products of intestinal digestion are absorbed by the body through the action of transporter proteins expressed on the brushborder membrane of small intestinal epithelial cells. The goal of this study was to increase the understanding of the physiological processes associated with nutrient assimilation by black bears. Distribution and relative abundance of mRNA of a peptide transporter (PepT1), a glucose transporter (SGLT1), two AA transporters (NBAT, bo,+AT), and a digestive enzyme, aminopeptidase N (APN), in the intestinal tract of black bears were investigated. Ten bears were used for this study. For tissue collection, the intestine was removed from the animal and divided into five sections. Each collected section was opened longitudinally, rinsed in ice-cold PBS, and the mucosal scrapings were stored at -80C. Total RNA was extracted and quantified by spectrophotometry. Abundance of PepT1, SGLT1, NBAT, bo,+AT, and APN mRNA was determined by performing Northern blots, using bear cDNA probes. Northern blot data were quantified by densitometric analysis, with the abundance of each gene expressed relative to GAPDH. Abundance of PepT1 (P < 0.05), APN (P < 0.05), and SGLT1 (P < 0.0001) changed quadratically from the proximal to the distal intestine with abundance being greatest in the midregion. Abundance of bo,+AT mRNA increased linearly (P < 0.05) from the proximal to distal intestine. Abundance of NBAT mRNA did not change among intestinal segments.The absolute number of molecules of mRNA/ng of total RNA for each gene was determined using Real-Time PCR. Similar to the Northern results, abundance of PepT1 (P < 0.0003), SGLT1 (P < 0.0003), and APN (P < 0.02) changed quadratically from the proximal to distal intestine with abundance being greatest in the mid-region, and bo,+AT mRNA increased linearly (P < 0.0001) from the proximal to distal intestine. NBAT mRNA abundance also increased linearly (P < 0.0001) from proximal to distal intestine. PepT1 mRNA was present at tenfold or greater levels than AA transporter mRNA in all segments of the intestine, suggesting that di- and tripeptides constitute the major form in which AAs are absorbed. NBAT and bo,+AT mRNA abundance was greater towards the distal portion of the intestine, suggesting their importance in salvaging remaining unabsorbed AAs.These results indicate that the mRNA of nutrient transporters examined and APN are differentially expressed throughout the gastrointestinal tract of black bears, suggesting their involvement in nutrient assimilation.
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    Early-Life Stress Induced Epigenetic Changes of Corticotropin-Releasing Factor Gene in Anorexic Low Body Weight–Selected Chicks
    Xiao, Yang; Wang, Jinxin; Siegel, Paul B.; Cline, Mark A.; Gilbert, Elizabeth R. (MDPI, 2020-04-27)
    The expression of neuropeptide Y (NPY) in the arcuate nucleus (ARC) and corticotropin-releasing factor (CRF) in the paraventricular nucleus (PVN) were increased when low body weight–selected (LWS) line chicks, which are predisposed to anorexia, were subjected to a combination of nutritional and thermal stressors at hatch. We hypothesized that such changes resulted from epigenetic modifications. We determined global DNA methylation, DNA methyltransferase (DNMT) activity, and methylation near the promoter regions of NPY and CRF, in the hypothalamus of LWS chicks on day 5 post-hatch. Stress exposure at hatch induced global hypermethylation and increased DNMT activity in the ARC but not PVN. In the PVN of stressed LWS chicks, there was decreased methylation of a CpG site located at the core binding domain of methyl cytosine binding domain protein 2 (MBD2), near the CRF gene promoter. We then demonstrated that this was associated with disrupted binding of MBD2. There was also reduced utilization of yolk reserves and lean and fat masses in chicks that were stress-exposed. These findings provide novel insights on molecular mechanisms through which stressful events induce or intensify anorexia in predisposed individuals and a novel molecular target for further studies.
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    Effect of Hybridization on Carcass Traits and Meat Quality of Erlang Mountainous Chickens
    Yin, H. D.; Gilbert, Elizabeth R.; Chen, S. Y.; Wang, Y.; Zhang, Z. C.; Zhao, X. L.; Zhang, Yao; Zhu, Q. (2013-10)
    Native chickens hold a significant share of the market in China. In response to the huge demand from the market, the productivity of Chinese native chickens needs to be improved. Cross breeding is an effective method to increase productivity, although it might affect meat quality. In this study, two pure lines (SD02 and SD03) of Erlang mountainous chickens were hybridized with a yellow feather and faster growing line (SD01). The effect of hybridization on carcass and meat quality (physiochemical and textural traits) was measured in the F-1 population at d 91 of age. The hybrids exhibited higher body weight and dressed weight, and amount of semieviscerated, eviscerated, breast muscle and abdominal fat (p<0.05). Abdominal fat yield also increased (p<0.05) compared to the offspring of the two pure-lines. Meanwhile, there was no significant difference in meat quality traits except for the myofiber diameter and density and the shear force of the breast muscle. Overall, the offspring of cross-lines were similar to pure lines in meat color, pH value, inosinic acid, crude protein, crude fat, dry matter, moisture content and amino acid composition in the breast muscle. These results suggest that productivity can be improved via cross-breeding while maintaining meat quality of the Erlang mountainous chicken.