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8. Decreased FXR Agonism in the Bile Acid Pool Is Associated with Impaired FXR Signaling in a Pig Model of Pediatric NAFLD.

Author

Maj, Magdalena A., Burrin, Douglas G., and Manjarín, Rodrigo

Subjects
BILE acids, FARNESOID X receptor, NON-alcoholic fatty liver disease, CHOLIC acid, FIBROBLAST growth factors
Abstract

The objective of this study was to investigate whether the impairment of farnesoid X receptor (FXR)-fibroblast growth factor 19 (FGF19) signaling in juvenile pigs with non-alcoholic fatty liver disease (NAFLD) is associated with changes in the composition of the enterohepatic bile acid pool. Eighteen 15-day-old Iberian pigs, pair-housed in pens, were allocated to receive either a control (CON) or high-fructose, high-fat (HFF) diet. Animals were euthanized in week 10, and liver, blood, and distal ileum (DI) samples were collected. HFF-fed pigs developed NAFLD and had decreased FGF19 expression in the DI and lower FGF19 levels in the blood. Compared with the CON, the HFF diet increased the total cholic acid (CA) and the CA to chenodeoxycholic acid (CDCA) ratio in the liver, DI, and blood. CA and CDCA levels in the DI were negatively and positively correlated with ileal FGF19 expression, respectively, and blood levels of FGF19 decreased with an increasing ileal CA to CDCA ratio. Compared with the CON, the HFF diet increased the gene expression of hepatic 12-alpha-hydrolase, which catalyzes the synthesis of CA in the liver. Since CA species are weaker FXR ligands than CDCA, our results suggest that impairment of FXR-FGF19 signaling in NAFLD pigs is associated with a decrease in FXR agonism in the bile acid pool. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Insulin-like growth factor 1 supplementation supports motor coordination and affects myelination in preterm pigs.

Author

Christiansen, Line I., Ventura, Gemma C., Holmqvist, Bo, Aasmul-Olsen, Karoline, Lindholm, Sandy E. H., Lycas, Matthew D., Mori, Yuki, Secher, Jan Bojsen-Møller, Burrin, Douglas G., Thymann, Thomas, Sangild, Per T., and Pankratova, Stanislava

Subjects
SOMATOMEDIN C, MOTOR ability, CAUDATE nucleus, MYELINATION, PREMATURE infants
Abstract

Introduction: Preterm infants have increased risk of impaired neurodevelopment to which reduced systemic levels of insulin-like growth factor 1 (IGF-1) in the weeks after birth may play a role. Hence, we hypothesized that postnatal IGF-1 supplementation would improve brain development in preterm pigs, used as a model for preterm infants. Methods: Preterm pigs delivered by cesarean section received recombinant human IGF-1/IGF binding protein-3 complex (rhIGF-1/rhIGFBP-3, 2.25 mg/kg/day) or vehicle from birth to postnatal day 19. Motor function and cognition were assessed by monitoring of in-cage and open field activities, balance beam test, gait parameters, novel object recognition and operant conditioning tests. Collected brains were subject to magnetic resonance imaging (MRI), immunohistochemistry, gene expression analyses and protein synthesis measurements. Results: The IGF-1 treatment increased cerebellar protein synthesis rates (both in vivo and ex vivo). Performance in the balance beam test was improved by IGF-1 but not in other neurofunctional tests. The treatment decreased total and relative caudate nucleus weights, without any effects to total brain weight or grey/white matter volumes. Supplementation with IGF-1 reduced myelination in caudate nucleus, cerebellum, and white matter regions and decreased hilar synapse formation, without effects to oligodendrocyte maturation or neuron differentiation. Gene expression analyses indicated enhanced maturation of the GABAergic system in the caudate nucleus (decreased NKCC1:KCC2 ratio) with limited effects in cerebellum or hippocampus. Conclusion: Supplemental IGF-1 during the first three weeks after preterm birth may support motor function by enhancing GABAergic maturation in the caudate nucleus, despite reduced myelination. Supplemental IGF-1 may support postnatal brain development in preterm infants, but more studies are required to identify optimal treatment regimens for subgroups of very or extremely preterm infants. [ABSTRACT FROM AUTHOR]

Published
2023
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14. Probiotics and Human Milk Differentially Influence the Gut Microbiome and NEC Incidence in Preterm Pigs.

Author

Melendez Hebib, Valeria, Taft, Diana H., Stoll, Barbara, Liu, Jinxin, Call, Lee, Guthrie, Gregory, Jensen, Nick, Hair, Amy B., Mills, David A., and Burrin, Douglas G.

Abstract

Necrotizing enterocolitis (NEC) is the leading cause of death caused by gastrointestinal disease in preterm infants. Major risk factors include prematurity, formula feeding, and gut microbial colonization. Microbes have been linked to NEC, yet there is no evidence of causal species, and select probiotics have been shown to reduce NEC incidence in infants. In this study, we evaluated the effect of the probiotic Bifidobacterium longum subsp. infantis (BL. infantis), alone and in combination with a human milk oligosaccharide (HMO)—sialylactose (3′SL)—on the microbiome, and the incidence of NEC in preterm piglets fed an infant formula diet. We studied 50 preterm piglets randomized between 5 treatments: (1) Preterm infant formula, (2) Donor human milk (DHM), (3) Infant formula + 3′SL, (4) Infant formula + BL. infantis, and (5) Infant formula and BL. infantis + 3′SL. NEC incidence and severity were assessed through the evaluation of tissue from all the segments of the GI tract. The gut microbiota composition was assessed both daily and terminally through 16S and whole-genome sequencing (WGS) of rectal stool samples and intestinal contents. Dietary BL. infantis and 3′SL supplementation had no effect, yet DHM significantly reduced the incidence of NEC. The abundance of BL. infantis in the gut contents negatively correlated with disease severity. Clostridium sensu stricto 1 and Clostridium perfringens were significantly more abundant in NEC and positively correlated with disease severity. Our results suggest that pre- and probiotics are not sufficient for protection from NEC in an exclusively formula-based diet. The results highlight the differences in microbial species positively associated with both diet and NEC incidence. [ABSTRACT FROM AUTHOR]

Published
2023
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17. Fibroblast growth factor 19 secretion and function in perinatal development.

Author

Vonderohe, Caitlin, Guthrie, Gregory, and Burrin, Douglas G.

Subjects
FIBROBLAST growth factors, SHORT bowel syndrome, PREMATURE infants, BILIARY atresia, SECRETION
Abstract

Limited work has focused on fibroblast growth factor-19 (FGF19) secretion and function in the perinatal period. FGF19 is a potent growth factor that coordinates development of the brain, eye, inner ear, and skeletal system in the embryo, but after birth, FGF19 transitions to be an endocrine regulator of the classic pathway of hepatic bile acid synthesis. FGF19 has emerged as a mediator of metabolism and bile acid synthesis in aged animals and adults in the context of liver disease and metabolic dysfunction. FGF19 has also been shown to have systemic insulin-sensitizing and skeletal muscle hypertrophic effects when induced or supplemented at supraphysiological levels in adult rodent models. These effects could be beneficial to improve growth and nutritional outcomes in preterm infants, which are metabolically resistant to the anabolic effects of enteral nutrition. Existing clinical data on FGF19 secretion and function in the perinatal period in term and preterm infants has been equivocal. Studies in pigs show that FGF19 expression and secretion are upregulated with gestational age and point to molecular and endocrine factors that may be involved. Work focused on FGF19 in pediatric diseases suggests that augmentation of FGF19 secretion by activation of gut FXR signaling is associated with benefits in diseases such as short bowel syndrome, parenteral nutrition-associated liver disease, and biliary atresia. Future work should focus on characterization of FGF19 secretion and the mechanism underpinning the transition of FGF19 function as an embryological growth factor to metabolic and bile acid regulator. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Regulation of skeletal muscle protein synthesis in the preterm pig by intermittent leucine pulses during continuous parenteral feeding.

Author

Rudar, Marko, Suryawan, Agus, Nguyen, Hanh V., Chacko, Shaji K., Vonderohe, Caitlin, Stoll, Barbara, Burrin, Douglas G., Fiorotto, Marta L., and Davis, Teresa A.

Subjects
SKELETAL muscle, MUSCLE proteins, PARENTERAL feeding, PREMATURE labor, MTOR protein, PROTEIN synthesis
Abstract

Background: Extrauterine growth restriction is a common complication of preterm birth. Leucine (Leu) is an agonist for the mechanistic target of rapamycin (mTOR) complex 1 (mTORC1) signaling pathway that regulates translation initiation and protein synthesis in skeletal muscle. Previously, we showed that intermittent intravenous pulses of Leu to neonatal pigs born at term receiving continuous enteral nutrition increases muscle protein synthesis and lean mass accretion. Our objective was to determine the impact of intermittent intravenous pulses of Leu on muscle protein anabolism in preterm neonatal pigs administered continuous parenteral nutrition. Methods: Following preterm delivery (on day 105 of 115 gestation), pigs were fitted with umbilical artery and jugular vein catheters and provided continuous parenteral nutrition. Four days after birth, pigs were assigned to receive intermittent Leu (1600 µmol kg−1 h−1; n = 8) or alanine (1600 µmol kg−1 h−1; n = 8) parenteral pulses every 4 h for 28 h. Anabolic signaling and fractional protein synthesis were determined in skeletal muscle. Results: Leu concentration in the longissimus dorsi and gastrocnemius muscles increased in the leucine (LEU) group compared with the alanine (ALA) group (P < 0.0001). Despite the Leu‐induced disruption of the Sestrin2·GATOR2 complex, which inhibits mTORC1 activation, in these muscles (P < 0.01), the abundance of mTOR·RagA and mTOR·RagC was not different. Accordingly, mTORC1‐dependent activation of 4EBP1, S6K1, eIF4E·eIF4G, and protein synthesis were not different in any muscle between the LEU and ALA groups. Conclusion: Intermittent pulses of Leu do not enhance muscle protein anabolism in preterm pigs supplied continuous parenteral nutrition. [ABSTRACT FROM AUTHOR]

Published
2023
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20. Arginine-induced stimulation of protein synthesis and survival in IPEC-J2 cells is mediated by mTOR but not nitric oxide

Author

Bauchart-Thevret, Caroline, Cui, Liwei, Wu, Guoyao, and Burrin, Douglas G.

Subjects
Protein biosynthesis -- Research, Nitric oxide -- Health aspects, Arginine -- Physiological aspects, Arginine -- Health aspects, Cells -- Health aspects, Cells -- Physiological aspects, Biological sciences
Abstract

Arginine is an indispensable amino acid in neonates and is required for growth. Neonatal intestinal epithelial cells (IEC) are capable of arginine transport, catabolism, and synthesis and express nitric oxide (NO) synthase to produce NO from arginine. Our aim was to determine whether arginine directly stimulates IEC growth and protein synthesis and whether this effect is mediated via mammalian target of rapamycin (mTOR) and is NO-dependent. We studied neonatal porcine IEC (IPEC-J2) cultured in serum- and arginine-free medium with increasing arginine concentrations for 4 or 48 h. Our results show that arginine enhances IPEC-J2 cell survival and protein synthesis, with a maximal response at a physiological concentration (0.1-0.5 mM). Addition of arginine increased the activation of mTOR, p70 ribosomal protein S6 (p70 S6) kinase, and eukaryotic initiation factor 4E-binding protein 1 (4E-BP1) in a time- and dose-dependent manner. The arginine-induced protein synthesis response was not inhibited by the NO inhibitors nitro-Larginine methyl ester (L-NAME) and aminoguanidine, despite inducible NO synthase expression in IPEC-J2 cells. Moreover, protein synthesis was not increased or decreased in some cases by addition of an NO donor (S-nitroso-N-acetylpenicillamine), arginine precursors (proline and citrulline) in the absence of arginine, or insulin; S-nitroso-N-acetylpenicillamine suppressed phosphorylation of mTOR, p70 S6 kinase, and 4E-BP1. We found a markedly higher arginase activity in IPEC-J2 cells than in primary pig IEC. Furthermore, mTOR inhibition by rapamycin partially (42%) reduced the arginine-induced protein synthesis response and phosphorylation of mTOR and 4E-BP1. We conclude that arginine-dependent cell survival and protein synthesis signaling in IPEC-J2 cells are mediated by mTOR, but not by NO. cell growth; p70 ribosomal protein S6 kinase; eukaryotic initiation factor 4E-binding protein 1; rapamycin; S-nitroso-N-acetylpenicillamine doi: 10.1152/ajpendo.00068.2010.

Published
2010

21. Chronic parenteral nutrition induces hepatic inflammation, steatosis, and insulin resistance in neonatal pigs

Author

Stoll, Barbara, Horst, David A., Cui, Liwei, Chang, Xiaoyan, Ellis, Kenneth J., Hadsell, Darryl L., Suryawan, Agus, Kurundkar, Ashish, Maheshwari, Akhil, Davis, Teresa A., and Burrin, Douglas G.

Subjects
Parenteral feeding -- Health aspects, Parenteral therapy -- Health aspects, Enteral feeding -- Health aspects, Tube feeding -- Health aspects, Insulin resistance -- Risk factors, Fatty liver -- Risk factors, Adipose tissues -- Risk factors, Food/cooking/nutrition
Abstract

Prematurity and overfeeding in infants are associated with insulin resistance in childhood and may increase the risk of adult disease. Total parenteral nutrition (TPN) is a major source of infant nutritional support and may influence neonatal metabolic function. Our aim was to test the hypothesis that TPN induces increased adiposity and insulin resistance compared with enteral nutrition (EN) in neonatal pigs. Neonatal pigs were either fed enteral formula orally or i.v. administered a TPN mixture for 17 d; macronutrient intake was similar in both groups. During the 17-d period, we measured body composition by dual-energy X- ray absorptiometry scanning; fasting i.v. glucose tolerance tests (IVGTT) and hyperinsulinemic-euglycemic clamps (CLAMP) were performed to quantify insulin resistance. On d 17, tissue was collected after 1-h, low-dose CLAMP for tissue insulin signaling assays. TPN pigs gained less lean and more body fat and developed hepatic steatosis compared with EN pigs. After 7 and 13 d, IVGTT showed evidence of insulin resistance in the TPN compared with the EN group. Fasting plasma glucose and insulin also were higher in TPN pigs. CLAMP showed that insulin sensitivity was markedly lower in TPN pigs than in EN pigs. TPN also reduced the abundance of the insulin receptor, insulin receptor substrate 1, and phosphatidylinositol 3 kinase in skeletal muscle and liver and the proliferation of total pancreatic cells and [beta]-cells. Hepatic proinflammatory genes as well as c- Jun-N-terminal kinase 1 phosphorylation, plasma interleukin 6, and tumor necrosis factor-[alpha] were all higher in TPN pigs than in EN pigs. The results demonstrate that chronic TPN induces a hepatic inflammatory response that is associated with significant insulin resistance, hepatic steatosis, and fat deposition compared with EN in neonatal pigs. Further studies are warranted to establish the mechanism of TPN-induced insulin resistance and hepatic metabolic dysfunction and whether there are persistent metabolic consequences of this lifesaving form of infant nutritional support. J. Nutr. 140: 2193-2200, 2010. doi: 10.3945/jn.110.125799.

Published
2010

23. Carbohydrate maldigestion induces necrotizing enterocolitis in preterm pigs

Author

Thymann, Thomas, Moller, Hanne K., Stoll, Barbara, Stay, Ann Cathrine F., Buddington, Randal K., Bering, Stine B., Jensen, Bent B., Olutoye, Oluyinka O., Siggers, Richard H., Molbak, Lars, Sangild, Per T., and Burrin, Douglas G.

Subjects
Carbohydrate metabolism -- Physiological aspects, Enterocolitis, Neonatal necrotizing -- Risk factors, Enterocolitis, Pseudomembranous -- Risk factors, Premature birth -- Complications and side effects, Biological sciences
Abstract

Thymann T, Moller HK, Stoll B, Stoy AC, Buddington RK, Bering SB, Jensen BB, Olutoye OO, Siggers RH, Molbak L, Sangild PT, Burrin DG. Carbohydrate maldigestion induces necrotizing enterocolitis in preterm pigs. Am J Physiol Gastrointest Liver Physiol 297: G1115-G1125, 2009. First published October 1, 2009; doi: 10.1152/ajpgi.00261.2009.--Necrotizing enterocolitis (NEC) remains the most severe gastrointestinal disorder in preterm infants. It is associated with the initiation of enteral nutrition and may be related to immature carbohydrate digestive capacity. We tested the hypothesis that a formula containing maltodextrin vs. a formula containing lactose as the principal source of carbohydrate would predispose preterm pigs to a higher NEC incidence. Cesarean-derived preterm pigs were given total parenteral nutrition for 48 h followed by total enteral nutrition with a lactose-based (n = 11) or maltodextrin-based (n = 11) formula for 36 h. A higher incidence (91% vs. 27%) and severity (score of 3.3 vs. 1.8) of NEC were observed in the maltodextrin than in the lactose group. This higher incidence of NEC in the maltodextrin group was associated with significantly lower activities of lactase, maltase, and aminopeptidase; reduced villus height; transiently reduced in vivo aldohexose uptake; and reduced ex vivo aldohexose uptake capacity in the middle region of the small intestine. Bacterial diversity was low for both diets, but alterations in bacterial composition and luminal concentrations of short-chain fatty acids were observed in the maltodextrin group. In a second study, we quantified net portal absorption of aldohexoses (glucose and galactose) during acute jejunal infusion of a maltodextrin- or a lactose-based formula (n = 8) into preterm pigs. We found lower net portal aldohexose absorption (4% vs. 42%) and greater intestinal recovery of undigested carbohydrate (68% vs. 27%) in pigs acutely perfused with the maltodextrin-based formula than those perfused with the lactose-based formula. The higher digestibility of the lactose than the maltodextrin in the formulas can be attributed to a 5- to 20-fold higher hydrolytic activity of tissue-specific lactase than maltases. We conclude that carbohydrate maldigestion is sufficient to increase the incidence and severity of NEC in preterm pigs. lactose; maltodextrin; premature; enteral nutrition doi: 10.1152/ajpgi.00261.2009

Published
2009

24. Sulfur amino acid deficiency upregulates intestinal methionine cycle activity and suppresses epithelial growth in neonatal pigs

Author

Bauchart-Thevret, Caroline, Stoll, Barbara, Chacko, Shaji, and Burrin, Douglas G.

Subjects
Cysteine -- Physiological aspects, Cysteine -- Research, Epithelial cells -- Physiological aspects, Epithelial cells -- Research, Methionine -- Physiological aspects, Methionine -- Research, Biological sciences
Abstract

We recently showed that the developing gut is a significant site of methionine transmethylation to homocysteine and transsulfuration to cysteine. We hypothesized that sulfur amino acid (SAA) deficiency would preferentially reduce mucosal growth and antioxidant function in neonatal pigs. Neonatal pigs were enterally fed a control or an SAA-free diet for 7 days, and then whole body methionine and cysteine kinetics were measured using an intravenous infusion of [1-[sup.13]C;methyl-[sup.2][H.sub.3]]methionine and [[sup.15]N]cysteine. Body weight gain and plasma methionine, cysteine, homocysteine, and tanrine and total erythrocyte glutathione concentrations were markedly decreased (-46% to -85%) in SAA-free compared with control pigs. Whole body methionine and cysteine fluxes were reduced, yet methionine utilization for protein synthesis and methionine remethylation were relatively preserved at the expense of methionine transsulfuration, in response to SAA deficiency. Intestinal tissue concentrations of methionine and cysteine were markedly reduced and hepatic levels were maintained in SAA-free compared with control pigs. SAA deficiency increased the activity of methionine metabolic enzymes, i.e., methionine adenosyltransferase, methionine synthase, and cystathionine [beta]-synthase, and S-adenosylmethionine concentration in the jejunum, whereas methionine synthase activity increased and S-adenosylmethionine level decreased in the liver. Small intestine weight and protein and DNA mass were lower, whereas liver weight and DNA mass were unchanged, in SAA-free compared with control pigs. Dietary SAA deficiency induced small intestinal villus atrophy, lower goblet cell numbers, and Ki-67-positive proliferative crypt cells in association with lower tissue glutathione, especially in the jejunum. We conclude that SAA deficiency upregulates intestinal methionine cycle activity and suppresses epithelial growth in neonatal pigs. transmethylation; transsulfuration; remethylation; homocysteine

Published
2009

25. Dietary fat composition shapes bile acid metabolism and severity of liver injury in a pig model of pediatric NAFLD.

Author

Manjarín, Rodrigo, Dillard, Kayla, Coffin, Morgan, Hernandez, Gabriella V., Smith, Victoria A., Noland-Lidell, Trista, Gehani, Tanvi R., Smart, Hayden J., Wheeler, Kevin, Sprayberry, Kimberly A., Edwards, Mark S., Fanter, Rob K., Glanz, Hunter, Immoos, Chad, Santiago-Rodriguez, Tasha M., Blank, Jason M., Burrin, Douglas G., Piccolo, Brian D., Abo-Ismail, Mohammed, and La Frano, Michael R.

Subjects
DIETARY fats, BILE acids, NON-alcoholic fatty liver disease, LIVER injuries, METABOLIC regulation, FIBROBLAST growth factors, COCONUT oil
Abstract

The objective of this study was to investigate the effect of dietary fatty acid (FA) composition on bile acid (BA) metabolism in a pig model of NAFLD, by using a multiomics approach combined with histology and serum biochemistry. Thirty 20-day-old Iberian pigs pair-housed in pens were randomly assigned to receive 1 of 3 hypercaloric diets for 10 wk: 1) lard-enriched (LAR; n = 5 pens), 2) olive oil-enriched (OLI; n = 5), and 3) coconut oil-enriched (COC; n = 5). Animals were euthanized on week 10 after blood sampling, and liver, colon, and distal ileum (DI) were collected for histology, metabolomics, and transcriptomics. Data were analyzed by multivariate and univariate statistics. Compared with OLI and LAR, COC increased primary and secondary BAs in liver, plasma, and colon. In addition, both COC and OLI reduced circulating fibroblast growth factor 19, increased hepatic necrosis, composite lesion score, and liver enzymes in serum, and upregulated genes involved in hepatocyte proliferation and DNA repair. The severity of liver disease in COC and OLI pigs was associated with increased levels of phosphatidylcholines, medium-chain triacylglycerides, trimethylamine-N-oxide, and long-chain acylcarnitines in the liver, and the expression of profibrotic markers in DI, but not with changes in the composition or size of BA pool. In conclusion, our results indicate a role of dietary FAs in the regulation of BA metabolism and progression of NAFLD. Interventions that aim to modify the composition of dietary FAs, rather than to regulate BA metabolism or signaling, may be more effective in the treatment of NAFLD. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Cholestasis alters brain lipid and bile acid composition and compromises motor function in neonatal piglets.

Author

Henriksen, Nicole Lind, Hansen, Svend Høime, Lycas, Matthew Domenic, Pan, Xiaoyu, Eriksen, Thomas, Johansen, Lars Søndergaard, Sprenger, Richard R., Ejsing, Christer Stenby, Burrin, Douglas G., Skovgaard, Kerstin, Christensen, Vibeke Brix, Thymann, Thomas, and Pankratova, Stanislava

Subjects
BILE acids, ELEMENTAL diet, CHOLESTASIS, PIGLETS, LIPIDS, NEURODEVELOPMENTAL treatment for infants, BILIARY atresia
Abstract

Infants with neonatal cholestasis are prone to neurodevelopmental deficits, however, the underlying pathogenesis is unclear. Lipid malabsorption and accumulation of potentially neurotoxic molecules in the blood such as bile acids are important yet relatively unexplored pathways. Here, we developed a translational piglet model to understand how the molecular bile acid and lipid composition of the brain is affected by this disease and relates to motor function. Piglets (8‐days old) had bile duct ligation or sham surgery and were fed a formula diet for 3 weeks. Alongside sensory‐motor deficits observed in bile duct‐ligated animals, we found a shift toward a more hydrophilic and conjugated bile acid profile in the brain. Additionally, comprehensive lipidomics of the cerebellum revealed a decrease in total lipids including phosphatidylinositols and phosphatidylserines and increases in lysophospholipid species. This was paralleled by elevated cerebellar expression of genes related to inflammation and tissue damage albeit without significant impact on the brain transcriptome. This study offers new insights into the developing brain's molecular response to neonatal cholestasis indicating that bile acids and lipids may contribute in mediating motor deficits. [ABSTRACT FROM AUTHOR]

Published
2022
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27. Enteral feeding induces diet-dependent mucosal dysfunction, bacterial proliferation, and necrotizing enterocolitis in preterm pigs on parenteral nutrition

Author

Bjornvad, Charlotte R., Thymann, Thomas, Deutz, Nicolaas E., Burrin, Douglas G., Jensen, Soren K., Jensen, Bent B., Molbak, Lars, Boye, Mette, Larsson, Lars-Inge, Schmidt, Mette, Michaelsen, Kim F., and Sangild, Per T.

Subjects
Colostrum -- Health aspects, Enterocolitis, Neonatal necrotizing -- Causes of, Enterocolitis, Pseudomembranous -- Causes of, Swine -- Health aspects, Swine -- Food and nutrition, Enteral feeding -- Health aspects, Tube feeding -- Health aspects, Animals -- Infancy, Animals -- Health aspects, Animals -- Food and nutrition, Biological sciences
Abstract

Preterm neonates have an immature gut and metabolism and may benefit from total parenteral nutrition (TPN) before enteral food is introduced. Conversely, delayed enteral feeding may inhibit gut maturation and sensitize to necrotizing enterocolitis (NEC). Intestinal mass and NEC lesions were first recorded in preterm pigs fed enterally (porcine colostrum, bovine colostrum, or formula for 20-40 h), with or without a preceding 2- to 3-day TPN period (n = 435). Mucosal mass increased during TPN and further after enteral feeding to reach an intestinal mass similar to that in enterally fed pigs without TPN (+60-80% relative to birth). NEC developed only after enteral feeding but more often after a preceding TPN period for both sow's colostrum (26 vs. 5%) and formula (62 vs. 39%, both P < 0.001, n = 43-170). Further studies in 3-day-old TPN pigs fed enterally showed that formula feeding decreased villus height and nutrient digestive capacity and increased luminal lactic acid and NEC lesions, compared with colostrum (bovine or porcine, P < 0.05). Mucosal microbial diversity increased with enteral feeding, and CIostridium perfringens density was related to NEC severity. Formula feeding decreased plasma arginine, citrulline, ornithine, and tissue antioxidants, whereas tissue nitric oxide synthetase and gut permeability increased, relative to colostrum (all P < 0.05). In conclusion, enteral feeding is associated with gut dysfunction, microbial imbalance, and NEC in preterm pigs, especially in pigs fed formula after TPN. Conversely, colostrum milk diets improve gut maturation and NEC resistance in preterm pigs subjected to a few days of TPN after birth. neonate; colostrum; formula; intestine; bacterial colonization

Published
2008

28. Comparative aspects of tissue glutamine and proline metabolism

Author

Bertolo, Robert F. and Burrin, Douglas G.

Subjects
Amino acids -- Comparative analysis, Amino acids -- Physiological aspects, Glutamate -- Comparative analysis, Glutamate -- Physiological aspects, Cell metabolism -- Research, Food/cooking/nutrition
Abstract

The cellular metabolism of glutamine and proline are closely interrelated, because they can be interconverted with glutamate and ornithine via the mitochondrial pathway involving pyrroline-5-carboxylate (P5C). In adults, glutamine and proline are converted via P5C to citrulline in the gut, then citrulline is converted to arginine in the kidney. In neonates, arginine is a semiindispensable amino acid and is synthesized from proline completely in the gut; because of low P5C synthase activity, glutamine is not an important precursor for neonatal arginine synthesis. Thus, splanchnic metabolism of glutamine and proline is important, because both amino acids serve as key precursors for arginine synthesis with some developmental differences. Studies investigating splanchnic extraction demonstrate that about two-thirds of dietary glutamine and almost all dietary glutamate are extracted on first pass and the vast majority is oxidized in the gut. This capacity to extract glutamine and glutamate appears to be very large, so diets high in glutamine or glutamate probably have little impact on circulating concentrations and consequent potential toxicity. In contrast, it appears that very little proline is extracted by the gut and liver, at least in the neonate, which may result in hyperprolinemia and potential toxicity. Therefore, the upper limits of safe dietary intake for glutamine and proline, and other amino acids, appear to be substantially different depending on the extent of first-pass splanchnic extraction and irreversible catabolism.

Published
2008

29. Extensive gut metabolism limits the intestinal absorption of excessive supplemental dietary glutamate loads in infant pigs

Author

Janeczko, Michael J., Stoll, Barbara, Chang, Xiaoyan, Guan, Xinfu, and Burrin, Douglas G.

Subjects
Swine -- Food and nutrition, Swine -- Physiological aspects, Glutamate -- Chemical properties, Glutamate -- Nutritional aspects, Amino acid metabolism -- Research, Food/cooking/nutrition
Abstract

Glutamate (Glu) is a major intestinal oxidative fuel, key neurotransmitter, and may be a useful dietary supplement to augment health of the infant gut. We quantified the metabolic fate of various supplemental dietary Glu intakes in young pigs surgically implanted with vascular, intraduodenal (ID), or intragastric (IG) catheters and a portal blood flow probe. Piglets were acutely fed a range of dietary Glu intakes using a basal milk formula (100%) supplemented with varying amounts of monosodium Glu (up to 400%) via ID or IG routes. We quantified the gastrointestinal metabolic fate of dietary Glu using [U-[sup.13]C] Glu tracer. The Glu net absorption in the basal 100% group was low in both ID and IG groups, ranging from 13 to 17% of intake. Enteral Glu supplementation significantly increased the absolute absorption rate and arterial concentration of Glu. In both the ID and IG groups, enteral [[sup.13]C]Glu absorption was limited (

Published
2007

30. GLP-2 rapidly activates divergent intracellular signaling pathways involved in intestinal cell survival and proliferation in neonatal piglets

Author

Burrin, Douglas G., Stoll, Barbara, Guan, Xinfu, Cui, Liwei, Chang, Xiaoyan, and Hadsell, Darryl

Subjects
Epithelial cells -- Research, Glucagon -- Research, Neonatology -- Research, Peptides -- Research, Signals and signaling -- Research, Biological sciences
Abstract

We previously demonstrated the dose-dependent glucagon-like peptide (GLP)-2 activation of intracellular signals associated with increased epithelial cell survival and proliferation in the neonatal intestine. Our current aim was to quantify the acute, temporal GLP-2 activation of these key intracellular signals and relate this to changes in epithelial cell survival and proliferation in the neonatal intestine. We studied 29 total parenteral nutrition-fed neonatal piglets infused intravenously with either saline (control) or human GLP-2 (420 [micro]mol * [kg.sup.-1] * [h.sup.-1]) for 1, 4, or 48 h. GLP-2 infusion increased small intestinal weight, DNA and protein content, and villus height at 48 h, but not at 1 or 4 h. Intestinal crypt and villus apoptosis decreased and crypt cell proliferation and protein synthesis increased linearly with duration of GLP-2 infusion, but were statistically different from controls only after 48 h. Before the morphological and cellular kinetic changes, GLP-2 rapidly activated putative GLP-2 receptor downstream signals within 1-4 h, including phosphorylation of protein kinase A, protein kinase B, extracellular signal-regulated kinase 1/2, and the transcription factors cAMP response element-binding protein and c-Fos. GLP-2 rapidly suppressed caspase-3 activation and upregulated Bcl-2 abundance within 1 h, whereas there was an increase in apoptosis inhibitors X-linked inhibitor of apoptosis at 1 h and cellular inhibitor of apoptosis-2 at 4 and 48 h. We also show that the increased c-Fos and reduced active caspase-3 immunostaining after GLP-2 infusion was localized in epithelial cells. We conclude that GLP-2-induced activation of intracellular signals involved in both cell survival and proliferation occurs rapidly and precedes the trophic cellular kinetic effects that occur later in intestinal epithelial cells. glucagon-like peptide-2; total parenteral nutrition

Published
2007

31. First-pass metabolism limits the intestinal absorption of enteral [alpha]-ketoglutarate in young pigs

Author

Lambert, Barry D., Filip, Rafal, Stoll, Barbara, Junghans, Peter, Derno, Michael, Hennig, Ulf, Souffrant, Wolfgang B., Pierzynowski, Stefan, and Burrin, Douglas G.

Subjects
Swine -- Physiological aspects, Swine -- Research, Metabolism -- Research, Food/cooking/nutrition
Abstract

Our results in a previous study indicated that the portal absorption of intragastrically fed [alpha]-ketoglutarate (AKG) was limited in young pigs. Our aim was to quantify the net portal absorption, first-pass metabolism, and whole-body flux of enterally infused AKG. In study 1, we quantified the net portal nutrient absorption in young pigs (n = 9) given an intraduodenal infusion of milk replacer [10 mL/(kg * h)] and either saline (control) or 930 [micro]mol/(kg. h) AKG for 4 h. In study 2, we quantified the luminal disappearance of a duodenal AKG bolus in young pigs (n = 7). In study 3, we quantified the whole-body kinetics of [sup.13]C-AKG metabolism when infused either enterally (n = 9) or intravenously (n = 9) in young pigs. In study 1, when compared with the control group, enteral AKG infusion increased (P< 0.01) the arterial (13.8 [+ or -] 1.7 vs. 27.4 [+ or -] 3.6 [micro]mol/L) and portal (22.0 [+ or -] 1.4 vs. 64.6 [+ or -] 5.9 [micro]mol/L) AKG concentrations and the net portal absorption of AKG [19.7 [+ or -] 2.8 vs. 95.2 [+ or -] 12.0 [micro]mol/(kg * h)]. The mean fractional portal appearance of enterally infused AKG was 10.23 [+ or -] 1.3%. In study 2, the luminal disappearance of AKG was 663 [micro]mol/(kg * h), representing 63% of the intraduodenal dose. In study 3, the wholebody [sup.13]C-AKG flux [4685 [+ or -] 666 vs. 801 [+ or -] 67 [micro]mol/(kg * h)] was higher (P < 0.05) when given enterally than intravenously, but [sup.13]C[O.sub.2] recovery was not different (37.3 [+ or -] 1.0 vs. 36.2 [+ or -] 0.7%dose). The first-pass splanchnic [sup.13]C-AKG utilization was ~80%, of which 30% was oxidized to [sup.13]C[O.sub.2]. We conclude that the intestinal absorption of AKG is limited in young pigs largely due to substantial first-pass gastrointestinal metabolism.

Published
2006

32. Total parenteral nutrition induces liver steatosis and apoptosis in neonatal piglets

Author

Wang, Hui, Khaoustov, Vladimir I., Krishnan, Buvaneswari, Cai, Wei, Stoll, Barbara, Burrin, Douglas G., and Yoffe, Boris

Subjects
Apoptosis -- Control, Apoptosis -- Health aspects, Liver diseases -- Health aspects, Liver diseases -- Control, Parenteral feeding -- Analysis, Parenteral therapy -- Analysis, Food/cooking/nutrition
Abstract

Total parenteral nutrition (TPN) induces a high rate of liver disease in infants, yet the pathogenesis remains elusive. We used neonatal piglets as an animal model to assess early events leading to TPN-mediated liver injury. Newborn piglets (n = 7) were nourished for 7 d on TPN or enteral nutrition (EN) and the liver tissue and isolated hepatocytes were subjected to morphologic and molecular analysis. Histological analysis revealed prominent steatosis (grade > 2) in 6 of 7 TPN pigs, whereas minimal steatosis (grade [less than or equal to] 1) was observed in only 2 EN pigs. Abundant cytosolic cytochrome C and DNA fragmentation were observed in hepatocytes from TPN compared with EN piglets. Markers of mitochondrial and Fas-mediated apoptosis were altered in TPN liver tissue, as indicated by a lower ATP concentration (P < 0.05), accumulation of ubiquitin, 9.9-fold activation of caspase-3 activity (P < 0.01), and increased cleavage of poly-(ADP-ribose) polymerase, caspase-8, -9, and -7 when compared with EN livers. Bcl-2 and proliferating cell nuclear antigen expression was downregulated, whereas Fas and Bax were upregulated in TPN livers. However, levels of caspase-12 and Bip/GRP78, both markers of endoplasmic reticulum-mediated apoptosis, did not differ between the groups. Short-term TPN induces steatosis and oxidative stress, which results in apoptosis mediated by the mitochondrial and Fas pathways. Thus, TPN-induced steatosis in newborn piglets may serve as a novel animal model to assess the pathogenesis of fatty liver and apoptosis-mediated liver injury in infants.

Published
2006

33. Glucagon-like peptide-2 acutely increases proximal small intestinal blood flow in TPN-fed neonatal piglets

Author

Stephens, John, Stoll, Barbara, Cottrell, Jeremy, Chang, Xiaoyan, Helmrath, Michael, and Burrin, Douglas G.

Subjects
Intestinal ischemia -- Care and treatment, Intestinal ischemia -- Health aspects, Glucagon -- Health aspects, Swine -- Food and nutrition, Swine -- Health aspects, Biological sciences
Abstract

Glucagon-like peptide-2 (GLP-2) is a gut hormone that is secreted in response to enteral feeding and stimulates small intestinal mucosal growth. We have previously shown that GLP-2 infusion acutely increases portal venous blood flow in TPN-fed piglets. The aim of this study was to localize the vasoactive effect of GLP-2 within the gastrointestinal tissues and other visceral organs in TPN-fed piglets. Tissue blood flow rates were quantified using fluorescent microsphere deposition in anesthetized TPN-fed piglets given intravenous infusion of GLP-2 at either 500 pmol*[kg.sup.-1]*[h.sup.-1] (low GLP-2, n = 7 pigs) or 2,000 pmol*[kg.sup.-1*[h.sup.-1] (high GLP-2, n = 8 pigs) for 2 h. Compared with baseline, the low and the high GLP-2 treatment significantly increased the blood flow rate in the duodenum (+77%) and jejunum (+40% and 80%), respectively, but blood flow to the distal small intestine and colon (-15%) was unchanged or slightly decreased. Baseline mucosal blood flow was five-fold higher than serosal blood flow; however, high GLP-2 treatment increased serosal (+ 140%) to a larger degree than mucosal blood flow (+73%). The high GLP-2 dose increased pancreatic flow (+34%) but decreased blood flow in the kidneys (-14%) and stomach (-12%), whereas the spleen and brain were unaffected. These findings suggest that the acute GLP-2-mediated stimulation of portal blood flow in TPN-fed piglets occurs principally via increased blood flow through the superior mesenteric artery to the proximal small intestine, a tissue region where the GLP-2R mRNA abundance and trophic GLP-2 effects are greatest. glucagon-like peptide-2 receptor; mucosal growth; premature infants; enteral feeding; intestinal ischemia

Published
2006

34. Nutritional and functional importance of intestinal sulfur amino acid metabolism

Author

Shoveller, Anna K., Stoll, Barbara, Ball, Ronald O., and Burrin, Douglas G.

Subjects
Amino acids -- Research, Amino acids -- Nutritional aspects, Food/cooking/nutrition
Abstract

The metabolism of sulfur amino acids, methionine and cysteine, has been linked to several key aspects of human health and cellular function. In addition, the metabolism of dietary amino acids by the gastrointestinal tract is nutritionally important for normal function. In the case of sulfur amino acids (SAAs), in vivo, stable isotope studies in adults suggest that the splanchnic tissues utilize as much as 30-44% of the dietary methionine and cysteine. Similarly, the dietary methionine requirement is 30% lower in total parenteral nutrition (TPN)-fed piglets, a condition in which dietary nutrients largely bypass intestinal metabolism. These data suggest that intestinal metabolism of methionine is substantial, yet the intestinal metabolic fate of dietary methionine is largely unknown. Dietary cysteine likely plays a key role in intestinal epithelial antioxidant function as a precursor for glutathione. Moreover, cysteine and glutathione may also regulate epithelial cell proliferation via modulation of redox status. Recent evidence indicates that transformed colonic epithelial cells are capable of methionine transmethylation and transsulfuration. This review discusses the evidence of intestinal SAA metabolism and how this affects nutrient requirements and epithelial function. J. Nutr. 135: 1609-1612, 2005. KEY WORDS: * methionine * cysteine * homocysteine * transmethylation * transsulfuration * neonate

Published
2005

35. Whole-body and hindlimb protein breakdown are differentially altered by feeding in neonatal piglets

Author

Thivierge, M. Carole, Bush, Jill A., Suryawan, Agus, Nguyen, Hanh V., Orellana, Renan A., Burrin, Douglas G., Jahoor, Farook, and Davis, Teresa A.

Subjects
Swine -- Research, Protein biosynthesis -- Research, Phenylalanine -- Research, Food/cooking/nutrition
Abstract

The high rate of muscle protein accretion in neonates is sustained by the marked increase in muscle protein synthesis in response to feeding. Little is known about the role of proteolysis in the regulation of protein accretion in response to feeding during the neonatal period. To determine the feeding-induced response of protein breakdown at the whole-body level and in the hindlimb of neonates, 10- and 28-d-old piglets that had been food deprived overnight were infused (7 h) with [1-[sup.13]C]phenylalanine and [ring-[sup.2][H.sub.4]]tyrosine during an initial food deprivation period (3 h), followed by a feeding period (4 h). During feeding, endogenous flux of phenylalanine decreased (P < 0.01) in both the whole body and the hindlimb. Feeding reduced (P < 0.01) whole-body proteolysis but increased hindlimb proteolysis (P = 0.04), suggesting that tissues other than the hindlimb are involved in the reduction in whole-body proteolysis during feeding. Overnight food deprivation resulted in a net mobilization of phenylalanine from whole-body proteins (P < 0.01) but not hindlimb proteins. These responses were unaffected by age. The results suggest that the hindlimb requires a continuous supply of free amino acids to sustain the high rate of muscle protein turnover in neonates and that adaptive mechanisms provide free amino acids to sustain skeletal muscle protein accretion in early postnatal life when the amino acid supply is limited. KEY WORDS: * phenylalanine hydroxylation * phenylalanine kinetics * neonate * skeletal muscle * stable isotopes

Published
2005

36. Threonine utilization is high in the intestine of piglets

Author

Schaart, Maaike W., Schierbeek, Henk, van der Schoor, Sophie R.D., Stoll, Barbara, Burrin, Douglas G., Reeds, Peter J., and van Goudoever, Johannes B.

Subjects
Swine -- Health aspects, Swine -- Research, Threonine -- Research, Amino acids -- Research, Food/cooking/nutrition
Abstract

The whole-body threonine requirement in parenterally fed piglets is substantially lower than that in enterally fed piglets, indicating that enteral nutrition induces intestinal processes in demand of threonine. We hypothesized that the percentage of threonine utilization for oxidation and intestinal protein synthesis by the portal-drained viscera (PDV) increases when dietary protein intake is reduced. Piglets (n = 18) received isocaloric normal or protein-restricted diets. After 7 h of enteral feeding, total threonine utilization, incorporation into intestinal tissue, and oxidation by the PDV, were determined with stable isotope methodology [[U.sup.-13]C threonine infusion]. Although the absolute amount of systemic and dietary threonine utilized by the PDV was reduced in proteinrestricted piglets, the percentage of dietary threonine intake utilized by the PDV did not differ between groups (normal protein 91% vs. low protein 85%). The incorporation of dietary threonine into the proximal jejunum was significantly different compared with the other intestinal segments. Dietary, rather than systemic threonine was preferentially utilized for protein synthesis in the small intestinal mucosa in piglets that consumed the normal protein diet (P < 0.05). Threonine oxidation by the PDV was limited during normal protein feeding, in protein-restricted pigs, half of the total whole-body oxidation occurred in the PDV. We conclude that, in vivo, the PDV have a high obligatory visceral requirement for threonine. The high rate of intestinal threonine utilization is due mainly to incorporation into mucosal proteins. KEY WORDS: * amino acid * intestine * nutrition * piglets * threonine

Published
2005

37. Postprandial intestinal and whole body nitrogen kinetics and distribution in piglets fed a single meal

Author

Bos, Cecile, Stoll, Barbara, Fouillet, Helene, Gaudichon, Claire, Guan, Xinfu, Grusak, Michael A., Reeds, Peter J., Burrin, Douglas G., and Tome, Daniel

Subjects
Viscera -- Research, Protein nitrogen -- Research, Proteins in human nutrition -- Research, Biological sciences
Abstract

Our aim was to characterize the postprandial total and dietary N fluxes in the portal drained viscera (PDV) and whole body after administration of a single meal in young pigs. Seven 4-wk-old piglets, implanted with a portal flow probe and portal, arterial and venous catheters, received a primed constant [[sup.18]O]urea intravenous infusion and were studied for 8 h after a bolus mixed meal ingestion (46 mmol N/kg body wt) intrinsically labeled with [sup.15]N to trace dietary N fluxes. The real cecal digestibility of the formula was 94.3% (SD 1.8). PDV output of dietary N was found principally in the pool of circulating protein (51% of the measured dietary N PDV output), in the free [alpha]-amino N pool (44%), and to a lesser extent in ammonia (5%). Dietary N release in [alpha]-amino N and ammonia mainly occurred during the first 3 h. Total and exogenous postprandial urea productions were 5.8 and 2.0 mmol N/kg body wt, respectively. At the end of the postprandial period, losses of dietary N amounted to 10.3% of the dose: 5.7% through ileal losses and 4.6% by deamination and transfer to urea. Net postprandial retention of dietary N was 90.4% (SD 1.3), of which 20% was found in splanchnic zone (small intestine 10%, liver 5%, and plasma protein 3%) and 42% in peripheral zone (muscle 31%, skin 6%). In conclusion, our results show a high efficiency of dietary N utilization for muscular uptake and anabolic utilization. However, the results obtained point out the necessity to further explore the form of dietary N released into the portal blood. dietary nitrogen; postprandial metabolism; portal drained viscera; nonsteady state; pigs

Published
2005

38. Expression of apical membrane L-glutamate transporters in neonatal porcine epithelial cells along the small intestinal crypt-villus axis

Author

Fan, Ming Z., Matthews, James C., Etienne, Nadege M.P., Stoll, Barbara, Lackeyram, Dale, and Burrin, Douglas G.

Subjects
Amino acids -- Research, Biological sciences
Abstract

Enteral L-glutamate is extensively utilized as an oxidative fuel by the gut mucosa in the neonate. To identify major uptake pathways and to understand uptake regulation, we examined transport kinetics and molecular identities of apical membrane L-glutamate transporters in epithelial cells sequentially isolated along the small intestinal crypt-villus axis from milk protein-fed, 16-day-old pigs. The distended intestinal sac method was used to isolate t2 sequential cell fractions from the tip villus to the bottom crypt. Initial rates and kinetics of L-glutamate uptake were measured with L-[G-[sup.3]H]glutamate by fast filtration in apical membrane vesicles prepared by [Mg.sup.2+] precipitation and differential centrifugation, with membrane potential clamped by SC[N.sup.-]. Initial L-glutamate uptake results suggested the presence of [B.sup.o] and [X.sup.-.sub.AG]. transport systems, but the [X.sup.-.sub.AG] system was predominant for uptake across the apical membrane. Kinetic data suggested that L-glutamate uptake through the [X.sup.-.sub.AG] system was associated with higher maximal transport activity but lower transporter affinity in crypt than in villus cells. Molecular identity of the [X.sup.-.sub.AG] glutamate transporter, based on immunoblot and RT-PCR analysis, was primarily the defined excitatory amino acid carrier (EAAC)-1. EAAC-1 expression was increased with cell differentiation and regulated at transcription and translation levels from crypt to upper villus cells. In conclusion, efficiency and capacity of luminal L-glutamate uptake across the apical membrane are regulated by changing expression of the [X.sup.-.sub.AG] system transporter gene EAAC-1 at transcription and translation levels as well as maximal uptake activity and transporter affinity along the intestinal crypt-villus axis in the neonate. excitatory amino acids; gut mucosa; transporter affinity; gene expression; neonates

Published
2004

39. Onset of small intestinal atrophy is associated with reduced intestinal blood flow in TPN-fed neonatal piglets

Author

Niinikoski, Harri, Stoll, Barbara, Guan, Xinfu, Kansagra, Ketan, Lambert, Barry D., Stephens, John, Hartmann, Bolette, Holst, Jens J., and Burrin, Douglas G.

Subjects
Protein biosynthesis -- Research, Intestinal absorption -- Research, Parenteral therapy -- Research, Parenteral feeding -- Research, Food/cooking/nutrition
Abstract

Our aim was to determine the speed of onset of total parenteral nutrition (TPN)-induced mucosal atrophy, and whether this is associated with changes in intestinal blood flow and tissue metabolism in neonatal piglets. Piglets were implanted with jugular venous and duodenal catheters and either a portal venous or superior mesenteric artery (SMA) blood flow probe. At 3 wk of age, piglets were randomly assigned to receive continuous enteral formula feeding (n = 8) or TPN (n = 17) for 24 or 48 h. Blood flow was recorded continuously and piglets were given an i.v. bolus of bromodeoxyuridine and [sup.13]C-phenylalanine to measure crypt cell proliferation and protein synthesis, respectively. After 8 h of TPN, portal and SMA blood flow decreased 30% compared with enteral feeding (P < 0.01), and remained near levels of food-deprived piglets for the remaining 48 h of TPN. After 24 h, TPN reduced jejunal inducible nitric oxide synthase (iNOS) activity and protein abundance (P < 0.05), small intestinal weight, and villous height (P < 0.01) compared with enterally fed piglets. Cell proliferation and DNA mass were decreased (P < 0.05) and apoptosis increased (P < 0.05) after 48 h of TPN. Protein synthesis was lower (P < 0.05) after 24 h of TPN, and protein mass was lower (P < 0.05) after 48 h of TPN, compared with enteral feeding. These data indicate that the transition from enteral to parenteral nutrition induced a rapid ( KEY WORDS: * enteral nutrition * intestinal adaptation * nitric oxide synthase * cell proliferation * protein synthesis

Published
2004

41. Intestinal lysine metabolism is driven by the enteral availability of dietary lysine in piglets fed a bolus meal

Author

Bos, Cecil, Stoll, Barbara, Fouillet, Helene, Gaudichon, Claire, Guan, Xinfu, Grusak, Michael A., Reeds, Peter J., Tome, Daniel, and Burrin, Douglas G.

Subjects
Lysine -- Research, Metabolism -- Research, Biological sciences
Abstract

Previous steady-state continuous-feeding studies have shown that the gut mucosa removes substantial amounts of both dietary and systemic amino acids. However, enteral nutrition is often given under non-steady-state conditions as a bolus meal, and this has been shown to influence systemic metabolism. Therefore, our aim was to quantify the relative metabolism of dietary and systemic lysine by the portal-drained viscera (PDV) under non-steady-state conditions after a single bolus meal. Five 28-day-old piglets implanted with arterial, venous, and portal catheters and with an ultrasonic portal flow probe were given an oral bolus feeding of a milk formula containing a trace quantity of intrinsically [sup.15]N-labeled soy protein and a continuous intravenous infusion of [[U-.sup.13]C]lysine for 8 h. Total lysine use by the PDV was maximal 1 h after the meal (891 [mu]mol * [kg.sup.-1] * [h.sup.-1]) and was predominantly of dietary origin (89%), paralleling the enteral delivery of dietary lysine. Intestinal lysine use returned to a low level after 4 h postprandially and was derived exclusively from the arterial supply until 8 h. Cumulative systemic appearance of dietary lysine reached 44 and 80% of the ingested amount 4 and 8 h after the meal, respectively, whereas the PDV first-pass use of dietary lysine was 55 and 32% of the intake for these two periods, respectively. We conclude that the first-pass utilization rate of dietary lysine by the PDV is directly increased by the enteral lysine availability and that it is higher with a bolus than with continuous oral feeding. amino acid metabolism; dietary amino acids; portal-drained viscera; nonsteady state

Published
2003

42. Somatotropin-induced protein anabolism in hindquarters and portal-drained viscera of growing pigs

Author

Bush, Jill A., Burrin, Douglas G., Suryawan, Agus, O'Connor, Pamela M.J., Nguyen, Hanh V., Reeds, Peter J., Steele, Norman C., Van Goudoever, Johannes B., and Davis, Teresa A.

Subjects
Somatotropin -- Usage, Somatotropin -- Physiological aspects, Amino acids -- Physiological aspects, Muscles -- Physiological aspects, Swine -- Measurement, Biological sciences
Abstract

To differentiate the effect of somatotropin (ST) treatment on protein metabolism in the hindquarter (HQ) and portal-drained viscera (PDV), growing swine (n = 20) treated with ST (0 or 150 [micro]g * [kg.sup.-1] * [day.sup.-1]) for 7 days were infused intravenously with Na[H.sup.13]C[O.sub.3] and [[sup.2][H.sub.5]]phenylalanine and enterally with [1-[sup.13]C]phenylalanine while in the fed state. Arterial, portal venous, and vena cava whole blood samples, breath samples, and blood flow measurements were obtained for determination of tissue and whole body phenylalanine kinetics under steady-state conditions. In the fed state, ST treatment decreased whole body phenylalanine flux, oxidation, and protein degradation without altering protein synthesis, resulting in an improvement in whole body net protein balance. Blood flow to the HQ (+80%), but not to the PDV, was increased with ST treatment. In the HQ and PDV, ST increased phenylalanine uptake (+44 and +23%, respectively) and protein synthesis (+43 and +41%, respectively), with no effect on protein degradation. In ST-treated and control pigs, phenylalanine was oxidized in the PDV (34-43% of enteral and arterial sources) but not the HQ. In both treatment groups, dietary (40%) rather than arterial (10%) extraction of phenylalanine predominated in gut amino acid metabolism, whereas localized blood flow influenced HQ amino acid metabolism. The results indicate that ST increases protein anabolism in young, growing swine by increasing protein synthesis in the HQ and PDV, with no effect on protein degradation. Differing results between the whole body and the HQ and PDV suggest that the effect of ST treatment on protein metabolism is tissue specific. growth hormone; protein synthesis; protein degradation; amino acid kinetics; muscle

Published
2003

43. Maternal and Fetal Bile Acid Homeostasis Regulated by Sulfated Progesterone Metabolites through FXR Signaling Pathway in a Pregnant Sow Model.

Author

Wang, Peng, Yuan, Peiqiang, Lin, Sen, Zhong, Heju, Zhang, Xiaoling, Zhuo, Yong, Li, Jian, Che, Lianqiang, Feng, Bin, Lin, Yan, Xu, Shengyu, Wu, De, Burrin, Douglas G, and Fang, Zhengfeng

Subjects
FARNESOID X receptor, FETUS, BILE acids, LIQUID chromatography-mass spectrometry, HOMEOSTASIS, PROGESTERONE, FIBROBLAST growth factors, ENTEROHEPATIC circulation
Abstract

Abnormally elevated circulating bile acids (BA) during pregnancy endanger fetal survival and offspring health; however, the pathology and underlying mechanisms are poorly understood. A total of nineteen pregnant sows were randomly assigned to day 60 of gestation, day 90 of gestation (G60, G90), and the farrowing day (L0), to investigate the intercorrelation of reproductive hormone, including estradiol, progesterone and sulfated progesterone metabolites (PMSs), and BA in the peripheral blood of mother and fetuses during pregnancy. All data were analyzed by Student's t-test or one-way ANOVA of GraphPad Prism and further compared by using the Student–Newman–Keuls test. Correlation analysis was also carried out using the CORR procedure of SAS to study the relationship between PMSs and BA levels in both maternal and fetal serum at G60, G90, and L0. Allopregnanolone sulphate (PM4S) and epiallopregnanolone sulphate (PM5S) were firstly identified in the maternal and fetal peripheral blood of pregnant sows by using newly developed ultraperformance liquid chromatography-tandem mass spectrometry (UPLC-MS/MS) methods. Correlation analysis showed that pregnancy-associated maternal BA homeostasis was correlated with maternal serum PM4S levels, whereas fetal BA homeostasis was correlated with fetal serum PM5S levels. The antagonist activity role of PM5S on farnesoid X receptor (FXR)-mediated BA homeostasis and fibroblast growth factor 19 (FGF19) were confirmed in the PM5S and FXR activator co-treated pig primary hepatocytes model, and the antagonist role of PM4S on FXR-mediated BA homeostasis and FGF19 were also identified in the PM4S-treated pig primary hepatocytes model. Together with the high relative expression of FGF19 in pig hepatocytes, the pregnant sow is a promising animal model to investigate the pathogenesis of cholestasis during pregnancy. [ABSTRACT FROM AUTHOR]

Published
2022
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44. Glucagon-like peptide 2: a nutrient-responsive gut growth factor

Author

Burrin, Douglas G., Petersen, Yvette, Stoll, Barbara, and Sangild, Per

Subjects
Cell proliferation, Glucagon -- Physiological aspects, Food/cooking/nutrition
Abstract

Glucagon-like peptide 2 (GLP-2) is a 33-amino acid peptide derived from the tissue-specific, post-translational processing of the proglucagon gene expressed in the intestinal enteroendocrine L-cell. The primary stimulus for GLP-2 secretion is nutrient intake, and involves direct luminal stimulation of the L-cell as well as indirect enteroendocrine and neural mechanisms. The biological activity of GLP-2 in circulation is regulated by the proteolytic cleavage of the N-terminus by dipeptidylpeptidase IV. Several studies have shown that GLP-2 has specific trophic effects on the small and large intestine, which are mediated by stimulation of cell proliferation and inhibition of apoptosis and proteolysis. GLP-2 also has been shown to suppress gastric motility and acid secretion, increase hexose transport activity and suppress food intake, specifically when infused centrally. The actions of GLP-2 are mediated by a G-protein-linked, membrane receptor (GLP-2R) that is localized largely to the gastrointestinal tract, but also is found in the brain. The secretion of GLP-2 and expression of the GLP-2R are present in the late gestation fetus. However, the developing intestine does not become responsive to the trophic effect of GLP-2 until after birth. Based on its efficacy in preventing atrophy and stimulating growth in the neonatal gut, GLP-2 may be a promising therapeutic adjuvant for treatment of infants with compromised gut function. J. Nutr. 131: 709-712, 2001. KEY WORDS: * cell proliferation * apoptosis * gut hormone * enteral nutrition * neonate

Published
2002

45. Net portal absorption of enterally fed [alpha]-ketoglutarate is limited in young pigs

Author

Lambert, Barry D., Stoll, Barbara, Niinikoski, Harri, Pierzynowski, Stefan, and Burrin, Douglas G.

Subjects
Intestinal absorption -- Measurement, Carboxylic acids -- Physiological aspects, Animal nutrition -- Physiological aspects, Animal nutrition -- Research, Biological transport, Active, Food/cooking/nutrition
Abstract

Our aim was to quantify the intestinal metabolic fate of dietary [alpha]-ketoglutarate (AKG). Female pigs (n = 6; 21 d old) were implanted with arterial, venous, portal and gastric catheters and an ultrasonic portal flow probe and fed a corn and soybean meal-based diet. On the day of the experiment, the pigs received a 4-h intragastric infusion of sodium AKG at a rate equivalent to 0, 2.5, 5 or 10% of dietary intake. The net portal AKG balance of the control and 2.5% treatments did not differ and were not different from zero. However, the net portal AKG balance of both the 5 [163/[micro]mol/(kg * h)] and 10% [159/[micro]mol/(kg * h)] treatments were greater (P < 0.05) than the control. Despite significant net AKG absorption at the 5 and 10% levels, the net portal appearance represented only 10.8 and 6.7%, respectively, of the enteral input. The net portal appearances of glutamate, glutamine, ammonia and the branched-chain amino acids were not affected by dietary AKG level. We conclude that the absorption of dietary AKG is limited in young pigs and does not change the net portal balance of amino acids or ammonia. KEY WORDS: * glutamate * ammonia * glutamate dehydrogenase * dicarboxylic acid transport * pigs

Published
2002

46. Acute IGF-I infusion stimulates protein synthesis in skeletal muscle and other tissues of neonatal pigs

Author

Davis, Teresa A., Fiorotto, Marta L., Burrin, Douglas G., Vann, Rhonda C., Reeds, Peter J., Nguyen, Hanh V., Beckett, Philip R., and Bush, Jill A.

Subjects
Swine, Protein biosynthesis -- Physiological aspects, Insulin-like growth factor 1 -- Physiological aspects, Muscles -- Physiological aspects, Biological sciences
Abstract

Studies have shown that protein synthesis in skeletal muscle of neonatal pigs is uniquely sensitive to a physiological rise in both insulin and amino acids. Protein synthesis in cardiac muscle, skin, and spleen is responsive to insulin but not amino acid stimulation, whereas in the liver, protein synthesis responds to amino acids but not insulin. To determine the response of protein synthesis to insulin-like growth factor I (IGF-I) in this model, overnight-fasted 7- and 26-day-old pigs were infused with IGF-I (0, 20, or 50 [micro]g*[kg.sup.-1]*[h.sup.-1]) to achieve levels within the physiological range, while amino acids and glucose were clamped at fasting levels. Because IGF-I infusion lowers circulating insulin levels, an additional group of high-dose IGF-I-infused pigs was also provided replacement insulin (10 Ng*[kg.sup.-0.66]*[min.sup.-1]). Tissue protein synthesis was measured using a flooding dose of L-[4-[sup.3]H]phenylalanine. In 7-day-old pigs, low-dose IGF-I increased protein synthesis by 25-60% in various skeletal muscles as well as in cardiac muscle (+38%), skin (+24%), and spleen (+32%). The higher dose of IGF-I elicited no further increase in protein synthesis above that found with the low IGF-I dose. Insulin replacement did not alter the response of protein synthesis to IGF-I in any tissue. The IGF-I-induced increases in tissue protein synthesis decreased with development. IGF-I infusion, with or without insulin replacement, had no effect on protein synthesis in liver, jejunum, pancreas, or kidney. Thus the magnitude, tissue specificity, and developmental change in the response of protein synthesis to acute physiological increases in plasma IGF-I are similar to those previously observed for insulin. This study provides in vivo data indicating that circulating IGF-I and insulin act on the same signaling components to stimulate protein synthesis and that this response is highly sensitive to stimulation in skeletal muscle of the neonate. neonate; insulin action; nutrition; translation initiation; growth

Published
2002

47. Minimal enteral feeding induces maturation of intestinal motor function but not mucosal growth in neonatal dogs

Author

Owens, Lisa, Burrin, Douglas G., and Berseth, Carol Lynn

Subjects
Enteral feeding -- Physiological aspects, Gastrointestinal system -- Physiological aspects, Puppies -- Food and nutrition, Food/cooking/nutrition
Abstract

Providing small enteral feedings for parenterally fed preterm infants during the first few weeks of life improves feeding tolerance. However, it is not known whether these feedings achieve this result via stimulation of gut growth and/or maturation of function. The minimal level needed to attain these responses is also critical to identify, because neonatologists often limit feeding volumes to minimize the risk of necrotizing enterocolitis. Thus, we determined the dose-response relationships between enteral feeding volume and gastrointestinal growth and small intestine motor function. Newborn canine pups (n = 51) received 0, 2.5, 5.0, 7.5, 10, 30 or 100% of their daily fluid intake enterally with the remainder given parenterally for 4-5 d. Motor activity was recorded, blood drawn for determination of gastrin and motilin, and intestinal tissue harvested for determination of DNA and protein content and morphology. Feeding volumes that provided 30% or more of daily fluid intake significantly increased small intestinal mucosal growth above that of unfed pups, but feeding volumes that provided as little as 10% of daily fluid intake significantly induced maturation of motor patterns beyond that of unfed pups. Plasma concentrations of gastrin and motilin did not differ among groups. We conclude that small enteral feedings typically used for minimal enteral feeding strategies improve feeding tolerance by triggering maturation of motor function but not gut growth in neonatal dogs. Small feeding volumes trigger this maturation as well as large volumes. KEY WORDS: * enteral feeding * preterm infants * intestinal motility * intestinal growth

Published
2002

48. Preterm birth affects the intestinal response to parenteral and enteral nutrition in newborn pigs

Author

Sangild, Per T., Petersen, Yvette M., Schmidt, Mette, Elnif, Jan, Petersen, Thomas K., Buddington, Randal K., Greisen , Gorm, Michaelsen, Kim F., and Burrin, Douglas G.

Subjects
Premature birth -- Physiological aspects, Parenteral feeding -- Physiological aspects, Enteral feeding -- Physiological aspects, Swine -- Food and nutrition, Gastrointestinal system -- Research, Food/cooking/nutrition
Abstract

Maturation of gastrointestinal (GI) function in neonates is stimulated by enteral nutrition, whereas parenteral nutrition induces GI atrophy and malfunction. We investigated whether preterm birth alters the GI responses to parenteral and enteral nutrition. Pigs were delivered either preterm (107 d gestation) or at term (115 d gestation) and fed total parenteral nutrition (TPN) or enteral sow's milk (ENT) for 6 d after birth. Immaturity of the preterm pigs was documented by reduced blood pH, oxygen saturation and neutrophil granulocyte function, impaired intestinal immunoglobulin G uptake from colostrum, and altered relative weights of visceral organs (small intestine, liver, spleen, pancreas, and adrenals). For both ages at delivery, increases occurred in pancreatic weight (30-75%) and amylase activity (0.5- to 13-fold) after birth, but much more in ENT than in TPN pigs (P < 0.05). Six days of TPN feeding was associated with reduced intestinal weight for both delivery groups (60% of values in ENT, P < 0.001), but only in term TPN pigs was the weight lower than at birth (-20%, P < 0.05). Likewise, it was only in term TPN pigs that intestinal maltase activity increased, compared with ENT, and the absorption of glucose and proline decreased. Only in preterm pigs did TPN feeding increase lactase activity (+50% compared with ENT, P < 0.05). For both delivery ages, the mRNA of lactase-phloridzin hydrolase and sodium-coupled glucose transporter 1 were increased in TPN, compared with ENT. In conclusion, the trophic effect of enteral vs. parenteral nutrition on the GI tract is also present after preterm birth, but the postnatal maturation of many GI functions is modified, compared with term birth. The effects of nutritional regimen on the maturation of the gut epithelium in neonates depend on gestational age at birth. KEY WORDS: * ontogeny * birth * nutrient absorption * brush-border enzymes * development

Published
2002

49. Stimulation of protein synthesis by both insulin and amino acids is unique to skeletal muscle in neonatal pigs

Author

Davis, Teresa A., Fiorotto, Marta L., Burrin, Douglas G., Reeds, Peter J., Nguyen, Hanh V., Beckett, Philip R., Vann, Rhonda C., and O'Connor, Pamela M.J.

Subjects
Physiology -- Research, Swine -- Physiological aspects, Proteins -- Physiological aspects, Insulin -- Physiological aspects, Liver -- Physiological aspects, Genetic translation -- Physiological aspects, Biological sciences
Abstract

In neonatal pigs, the feeding-induced stimulation of protein synthesis in skeletal muscle, but not liver, can be reproduced by insulin infusion when essential amino acids and glucose are maintained at fasting levels. In the present study, 7- and 26-day-old pigs were studied during 1) fasting, 2) hyperinsulinemic-euglycemic-euaminoacidemic clamps, 3) euinsulinemic-euglycemic-hyperaminoacidemic clamps, and 4) hyperinsulinemic-euglycemic-hyperaminoacidemic clamps. Amino acids were clamped using a new amino acid mixture enriched in nonessential amino acids. Tissue protein synthesis was measured using a flooding dose of L-[[4-.sup.3]H]phenylalanine. In 7-day-old pigs, insulin infusion alone increased protein synthesis in various skeletal muscles (from +35 to +64%), with equivalent contribution of myofibrillar and sarcoplasmic proteins, as well as cardiac muscle (+50%), skin (+34%), and spleen (+26%). Amino acid infusion alone increased protein synthesis in skeletal muscles (from +28 to +50%), also with equivalent contribution of myofibrillar and sarcoplasmic proteins, as well as liver (+27%), pancreas (+28%), and kidney (+ 10%). An elevation of both insulin and amino acids did not have an additive effect. Similar qualitative results were obtained in 26-day-old pigs, but the magnitude of the stimulation of protein synthesis by insulin and/or amino acids was lower. The results suggest that, in the neonate, the stimulation of protein synthesis by feeding is mediated by either amino acids or insulin in most tissues; however, the feeding-induced stimulation of protein synthesis in skeletal muscle is uniquely regulated by both insulin and amino acids. insulin action; nutrition; growth; liver; translation initiation

Published
2002

50. Development of intestinal immunoglobulin absorption and enzyme activities in neonatal pigs is diet dependent. (Nutritional Immunology)

Author

Jensen, Annette R., Elnif, Jan, Burrin, Douglas G., and Sangild, Per T.

Subjects
Intestinal absorption -- Health aspects, Immunoglobulins -- Health aspects, Colostrum -- Physiological aspects, Swine -- Food and nutrition, Food/cooking/nutrition
Abstract

Uptake of colostrum just after birth is essential to stimulate intestinal growth and function, and in many species, including pigs, colostrum also provides immunological protection via the absorption of immunoglobulin G (IgG). In this study, intestinal growth, IgG absorptive capacity and enzyme activities were investigated in newborn pigs in response to different diets. Newborn piglets were bottle-fed porcine colostrum (PC), bovine colostrum (BC), porcine plasma (PP), porcine milk (PM), bovine colostrum containing porcine plasma (BCP) or a milk replacer (MR) every 3 h (15 mL/kg) for up to 2 d. Bovine serum albumin (BSA) was added to the diets as a macromolecule marker. The percentage of absorbed BSA just after birth was highest for piglets fed the PC diet (30-50%), lower for those fed the BC and BCP diets (23-30%) and lowest for the PP, PM and MR diet-fed piglets (7-20%, P < 0.05 relative to those fed colostrum). Porcine IgG was absorbed more efficiently than bovine IgG. Intestinal closure occurred earlier in MR and BCP piglets (within 12 h after birth) than in PC pigs. At 2 d of age, intestinal mucosal weight (+120% increase from birth) and villus morphology were similar in the PC, BCP and MR groups. All 3 groups also had increased aminopeptidase A activity compared with values at birth (+100% increase). Compared with PC pigs, the BCP group had higher sucrase and maltase activities (+50% and +200%, respectively) and lower aminopeptidase N activity (-50%, P < 0.05). Similarly, MR pigs showed elevated sucrase activity (+40%) and lowered maltase, lactase and aminopeptidase N activities (-20% to -50%, P < 0.05) compared with PC pigs. We conclude that porcine and bovine colostrum contain factors that stimulate the intestinal endocytotic and enzymatic capacity in newborn pigs. A milk replacer can produce normal gut growth, but may be inefficient in mediating normal macromolecule transport and disaccharidase activity. Bovine colostrum mixed with porcine plasma proteins may be a useful substitute for porcine colostrum in artificial rearing of newborn pigs. KEY WORDS: * colostrum * immunoglobulin * disaccharidase * peptidase * intestinal closure * piglets

Published
2001

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