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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The total cellular mass of the small intestine is well controlled and can adapt, with hypo- or hyperplasia, to a wide variety of stimuli.
Luminal
nutrients, hormonal factors and pancreatic and biliary secretions have all been implicated in the regulation of intestinal mucosal growth. The polyamines (putrescine, spermidine and spermine) and the key enzyme controlling their synthesis (ornithine decarboxylase. ODC) are critical for many cell growth processes and appear to play important roles in intestinal growth. During intestinal adaptation in response to jejunectomy, lactation. pancreatic-biliary diversion,
starvation
-refeeding and feeding with kidney bean lectin, intestinal contents of ODC and polyamines are increased, paralleling increases in mucosal proliferative indices and DNA synthesis. With administration of the specific inhibitor of ODC (difluoromethylornithine, DFMO) the increase in ODC and polyamines is inhibited and intestinal growth is suppressed. In addition, the oral administration of exogenous polyamines results in precocious maturation of the neonatal rat intestine. These results suggest that the polyamines are important for intestinal growth.
...
PMID:Polyamines in intestinal growth. 208 16
The effect of
starvation
on the mucosal secretory immunoglobulin A (sIgA) response to bacterial antigens was studied in bile-free rat self-filling blind loops constructed at the end of a Roux-en-Y branch of jejunum. Rats were fed a 50% restricted diet for 1 to 4 weeks after surgery. sIgA was measured in the mucosa and lumen by an enzyme-linked immunosorbent assay. Dietary restriction caused a final rise of luminal sIgA which was less than 50% of that of normally fed controls
Luminal
bacteria counts were not different in the two groups. The percentage of total sIgA precipitated with intestinal bacteria was not significantly affected by dietary restriction, and there was no change in the specific binding of sIgA to several bacterial species. Nonprecipitated sIgA exhibited a low but significant specific binding to bacteria in both diet-restricted and fed rats. Diet restriction therefore reduced the total sIgA response to luminal bacteria, but the specific bacterial binding capacity per microgram of sIgA was not altered. In these short-term experiments diet-restricted animals appeared to be capable of secreting sIgA in excess of requirement, since the nonprecipitable luminal fraction contained free sIgA with binding capacity for bacteria. The ability of sIgA to react with specific antigens may therefore be of more significance as an indicator of bacterial susceptibility than the measurement of total sIgA.
...
PMID:Effect of dietary restriction on total and bacterium-specific mucosal secretory immunoglobulin A in bile-diverted intestinal self-filling blind loops. 333 46
1. Fasting causes atrophy of small bowel mucosa which rapidly resolves with luminal feeding. This effect of enteral nutrient may be mediated by stimulation of growth factor secretion. We therefore evaluated whether luminal administration of epidermal growth factor, a peptide hormone found in gastro-intestinal contents and trophic for small bowel mucosa, would prevent the mucosal atrophy associated with
starvation
. 2. Adult rats were: (i) fasted for 3 days, (ii) fasted and then refed for 1 day or (iii) fasted and then refed for 2 days. During the 2 days before study, animals in each group received infusions of epidermal growth factor (2.5 micrograms/day) or diluent alone into distal jejunum. 3. Epidermal growth factor treatment of fasted animals resulted in a tripling of mucosal ornithine decarboxylase activity (P < 0.001) and a doubling of mucosal DNA content (P < 0.001) in the jejunum, values similar to those of refed animals. Epidermal growth factor infusion in refed rats resulted in a further doubling of mucosal ornithine decarboxylase activity (P < 0.001), but no additional increase in DNA content. Effects of epidermal growth factor infusion were generally greater in jejunum than ileum. 4. In conclusion, luminal exposure to epidermal growth factor prevents
starvation
-induced mucosal atrophy in the small bowel, but does not enhance the mucosal growth associated with refeeding. Effects are greatest at the site of administration.
Luminal
epidermal growth factor is a potential mediator of the indirect effects of nutrient on mucosal growth in the small bowel. Enteral administration of epidermal growth factor holds promise for preventing atrophy and maintaining mucosal integrity in starved and post-operative patients.
...
PMID:Luminal epidermal growth factor preserves mucosal mass of small bowel in fasting rats. 866 81
In neonatal rats, precocious introduction of dietary fructose significantly enhances brush-border fructose transport rates and GLUT-5 mRNA levels during early weaning. In this study, these rates and levels were more than two times higher in the anastomosed intestine compared with those in the bypassed loop of weaning pups that underwent Thiry-Vella surgery and consumed high-fructose (HF) diets. In Thiry-Vella pups fed fructose-free (NF) diets, uptake rates and mRNA levels in the anastomosed intestine were very low and similar to those in the bypassed loop. In sham-operated littermates, transport rates and mRNA levels were similar between intestinal regions that corresponded to anastomosed and bypassed loops in Thiry-Vella pups and were two to three times greater in pups fed HF than in those fed NF diet. In contrast, rates of brush-border glucose transport and levels of SGLT-1 and of GLUT-2 mRNA were independent of diet and were similar between bypassed and anastomosed regions. Changes in GLUT-5 expression did not follow a distinct diurnal rhythm. When pups were fed HF diet after 12 h of
starvation
to empty the intestinal lumen, fructose transport rates increased with feeding duration and reached a plateau 12-24 h after feeding; in contrast, GLUT-5 mRNA levels were highest within 4 h after arrival of chyme in the jejunum and then decreased gradually and returned to baseline levels 24 h later. In littermates fed NF diet, mRNA levels and uptake rates were each independent of feeding duration.
Luminal
, and not endocrine, signals regulate GLUT-5 expression in weaning pups.
...
PMID:Luminal fructose modulates fructose transport and GLUT-5 expression in small intestine of weaning rats. 948 74
Luminal
nutrients are essential for maintaining the structural and functional integrity of the gut.
Starvation
induces pronounced structural and biomechanical remodelling in the rat small intestine. The present work was done to study the recovery process after resumption of food intake. Twenty-five Wistar rats were allocated to five groups. Four groups fasted for 7 days but had free access to water. One of these groups served as fasted controls and was killed at the end of the fast. The other three groups were re-fed for 2, 4 and 7 days before they were euthanised. The fifth group had free access to food during the whole study (fed controls). The intestinal no-load state, zero-stress state and the stress-strain relationship during distension were studied. The intestinal segments were cut transversely into a series of short ring-shaped segments to obtain the no-load state. Each ring was cut in the radial direction to obtain the zero-stress state. The rats regained the lost body weight (22%) by the 7th day of re-feeding. The lost duodenal mass (40%) and jejunal mass (25%) were regained by the 2nd day whereas the lost mass from ileum (18%) was regained by the 4th day. The fasting-induced morphometric changes were normalised by re-feeding on the 2nd day in the duodenum and jejunum, and on the 4th day in the ileum. The longitudinal stress-strain curves shifted to the right after fasting and shifted back within two days following re-feeding (P<0.05). The circumferential stress-strain curves in the fasted or re-fed rats changed in a similar though less pronounced way. Normal values were reached within 4-7 days for the circumferential direction. In conclusion, fasting-induced biomechanical and structural remodelling were normalised by re-feeding in a time- and location-dependent way.
...
PMID:Effect of re-feeding after starvation on biomechanical properties in rat small intestine. 1171 78
