Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/wiley/polyamines-in-the-gastro-intestinal-tract-of-goat-kids-and-in-the-00cz2ihj0C
References (42)
-
G. Wild, A. Daly, N. Sauriol, G. Bennett (1993)
Effect of exogenously administered polyamine on the structural maturation and enzyme ontogeny of the postnatal rat intestine.Biology of the neonate, 63 4
-
J. Herbst, R. Fortin-Magana, P. Sunshine (1970)
Relationship of pyrimidine biosynthetic enzymes to cellular proliferation in rat intestine during development.Gastroenterology, 59 2
-
J. Jänne, H. Pösö, A. Raina (1978)
Polyamines in rapid growth and cancer.Biochimica et biophysica acta, 473 3-4
-
E. Seidel, J. Scemama (1997)
Gastrointestinal polyamines and regulation of mucosal growth and functionJournal of Nutritional Biochemistry, 8
-
Y. Kobayashi, J. Kupelian, D. Maudsley (1971)
Ornithine Decarboxylase Stimulation in Rat Ovary by Luteinizing HormoneScience, 172
-
T. Płoszaj, Z. Ryniewicz, T. Motyl (1997)
Polyamines in goat's colostrum and milk.Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology, 118 1
-
J. Y. Wang, S. A. McCormarck, M. J. Viar, L. R. Johnson (1991)
Stimulation of proximal growth by luminal polyamines, 261
-
El-Sooud Ka (1982)
Formation of polyamines in the rumen of goats during growth.Acta Veterinaria Scandinavica, 23
-
S. Bardócz, D. Brown, G. Grant, A. Pusztai (1990)
Luminal and basolateral polyamine uptake by rat small intestine stimulated to grow by Phaseolus vulgaris lectin phytohaemagglutinin in vivo.Biochimica et biophysica acta, 1034 1
-
S. Bardócz, T. Duguid, D. Brown, G. Grant, A. Pusztai, A. White, A. Ralph (1995)
The importance of dietary polyamines in cell regeneration and growthBritish Journal of Nutrition, 73
-
S. Bardócz (1993)
The role of dietary polyamines.European journal of clinical nutrition, 47 10
-
P. Yang, S. B. Baylin, G. D. Luk (1984)
Polyamines and intestinal growth: absolute requirement for ODC activity in adaptation during lactation, 247
-
J. P. Buts, N. Keyser, J. Kolanowski, E. Sokal, F. Hoof (1993)
Maturation of villus and crypt cell functions in rat small intestine. Role of dietary polyamines, 38
-
E. R. Seidel, M. K. Haddox, L. R. Johnson (1985)
Ileal mucosal growth during intraluminal infusion of ethylamine or putrescine, 249
-
C. Dufour, G. Dandrifosse, P. Forget, F. Vermesse, N. Romain, P. Lepoint (1988)
Spermine and spermidine induce intestinal maturation in the rat.Gastroenterology, 95 1
-
N. Romain, G. Dandrifosse, F. Jeusette, P. Forget (1992)
Polyamine Concentration in Rat Milk and Food, Human Milk, and Infant Formulas1Pediatric Research, 32
-
A. Majumdar, L. Johnson (1987)
Effect of putrescine on oxyntic gland and colonic mucosal growth in rats.Life sciences, 41 8
-
N. Seiler, B. Knödgen, F. Eisenbeiss (1978)
Determination of di-and polyamines by high-performance liquid chromatographic separation of their 5-dimethylaminonaphthalene-1-sulfonyl derivatives.Journal of chromatography, 145 1
-
J. Sanguansermsri, P. György, F. Zilliken (1974)
Polyamines in human and cow's milk.The American journal of clinical nutrition, 27 8
-
H. Blaschko (1962)
The amine oxidases of mammalian blood plasma, 1
-
P. Pollack, O. Koldovský, K. Nishioka (1992)
Polyamines in human and rat milk and in infant formulas.The American journal of clinical nutrition, 56 2
-
G. E. Wild, A. S. Daly, N. Sauriol, G. Bennett (1993)
Effect of exogenously administered administrated polyamine on the structural maturation and enzyme ontogeny of the postnatal rat intestine, 63
-
T. A. Smith, G. R. Best (1977)
Polyamines in barley seeds, 16
-
K. Eliassen (1988)
Polyamine metabolism in the digestive tract of goats.Zentralblatt fur Veterinarmedizin. Reihe A, 35 5
-
T. Smith, G. Best (1977)
Polyamines in barley seedlingsPhytochemistry, 16
-
E. Ueyama, C. Davis, M. Wolin (1965)
LACK OF INFLUENCE OF SPERMINE OR DIET ON CALF SPERMINE OXIDASE FORMATION.Journal of dairy science, 48
-
S. Bardócz, D. Brown, George Grant, A. Pusztai, James Stewart, Robert Palmer (1992)
Effect of the β‐adrenoceptor agonist clenbuterol and phytohaemagglutinin on growth, protein synthesis and polyamine metabolism of tissues of the ratBritish Journal of Pharmacology, 106
-
H. Blaschko, R. Hawes (1959)
Observations on spermine oxidase of mammalian plasmaThe Journal of Physiology, 145
-
W. Ball, M. Baliś (1976)
Changes in ornithine decarboxylase activity in rat intestines during aging.Cancer research, 36 9 pt.1
-
V. Milović, J. Stein, A. Piiper, R. Gerhard, S. Zeuzem, W. Caspary (1995)
Characterization of putrescine transport across the intestinal epithelium: study using isolated brush border and basolateral membrane vesicles of the enterocyteEuropean Journal of Clinical Investigation, 25
-
G. Dandrifosse, P. P. Forget, N. Romain, P. Deloyer, I. Wéry (1991)
Aspects Chimiques, Rôles Biologiques et Applications Medicales -
A. Pusztai, G. Grant, L. M. Williams, D. S. Brown, S. W. B. Ewen, S. Bardocz (1989)
Phaseolus vulgaris lectin induces growth and the uptake of polyamines by the rat small intestine in vivo, 17
-
I. D. Wardrop, J. B. Coombe (1960)
The post‐natal growth of the visceral organs of the lamb, 54
-
O. Heby, I. Holm, L. Frostesjö, H. Collin, B. Grahn, A. Rehnholm, L. Stjernborg, A. Ask, L. Persson (1992)
Polyamines in the Gastrointestinal Tract -
K. Tabata, L. R. Johnson (1986a)
Mechanism of induction of mucosal ornithine decarboxylase by food, 251
-
GD Lux, Laurence Marton, SB Baylin (1980)
Ornithine decarboxylase is important in intestinal mucosal maturation and recovery from injury in rats.Science, 210 4466
-
K. Tabata, L. R. Johnson (1986b)
Ornithine decarboxylase and mucosal growth in response to feeding, 251
-
A. Pegg, P. McCann (1982)
Polyamine metabolism and function.The American journal of physiology, 243 5
-
D. Maudsley, J. Leif, Y. Kobayashi (1976)
Ornithine decarboxylase in rat small intestine: stimulation with food or insulin.The American journal of physiology, 231 5 Pt. 1
-
O‐. V. Sjaastad (1967)
Fate of ingested histamine in sheep, 8
-
S. Bardócz, George Grant, D. Brown, A. Pusztai (1998)
Putrescine as a source of instant energy in the small intestine of the ratGut, 42
-
J. Herbst, P. Sunshine (1969)
Postnatal Development of the Small Intestine of the Rat: Changes in Mucosal Morphology at WeaningPediatric Research, 3
- Publisher
- Wiley
- Copyright
- Copyright © 2000 Wiley Subscription Services, Inc., A Wiley Company
- ISSN
- 1865-1674
- eISSN
- 1865-1682
- DOI
- 10.1046/j.1439-0442.2000.00288.x
- Publisher site
- See Article on Publisher Site
Abstract
The aim of the present study was to investigate whether temporal changes in polyamine concentration and synthesis could be found in the luminal content and wall tissue of the rumen and abomasum, two organs which have entirely different growth patterns during the first month of life. In the abomasal mucosa there was a marked gradual decrease in the ornithine decarboxylase (ODC) activity during the first month of life, while the ODC activity in the ruminal mucosa was low during the whole experimental period. However, injury of the rumen wall was followed by increased ODC activity. The ODC activity in duodenal mucosa was about 10 times higher than in the ileal mucosa and the ruminal epithelium. In ruminal liquid a clear peak in ODC activity was observed during the period 51–70 days after birth. The polyamine concentration did not parallel the ODC activity, in either the ruminal epithelium or the ruminal liquid. Of the polyamines, the spermine concentration was always highest, and with the exception of duodenal mucosa, the putrescine concentration was lowest. In liver a clear decrease in spermidine concentration from day 1 to about day 60 after birth was observed. Otherwise no marked temporal changes in tissue polyamine concentrations were observed. Two and a half hours after oral administration of 14C‐labelled spermine, nearly all of the radioactivity was found in the lumen of the gastrointestinal tract. On the other hand, 1 h after intravenous injection of polyamines the walls of the gastrointestinal tract were strongly labelled. In conclusion, the polyamines needed for ruminal epithelial development seem to come from sources other than the ruminal epithelium itself or the ruminal lumen.
Journal
Transboundary and Emerging Diseases – Wiley
Published: Jun 1, 2000