Relationship between the changes in gastrin levels and intestinal properties in the starved rat

Caloric restriction causes secretagogue specific changes of gastric acid secretion in rats

The purpose of this study was to examine the effects of short-term caloric restriction (CR) for 4, 8 and 16 weeks on gastric acid secretion in rats. CR rats fed 60% of normal food intake for 4, 8 or 16 weeks and then prepared with gastric fistulas. Histamine- and carbachol-stimulated gastric acid secretion were significantly (P < 0.05) decreased after more than 4 weeks and 8 weeks of caloric restriction, respectively. In contrast, gastrin-stimulated acid secretion was unaffected by CR. The 1-h-integrated acid output to a submaximal dose of gastrin (40 micrograms.kg-1) was significantly higher than that of histamine (5 mg.kg-1) after 8 weeks of CR (63 +/- 13 and 27 +/- 4 microEq.h-1, respectively). Gastrin treatment (5 micrograms.kg-1.h-1) of CR rats restored the gastric acid responses to both histamine and carbachol. These results suggest that CR can selectively decrease the gastric acid responses to both histamine and carbachol by depletion of the endogenous tissue stores of gastrin. More importantly, these results indicate that under an in vivo gastrin-diminished condition, histamine is not the final secretagogue for gastric acid secretion.

The effect of different dietary fats on gastrin levels in the pyloric antrum and plasma of weaner and adult Wistar rats

The effect of dietary fats on gastrin in the pyloric antrum and plasma of Wistar rats was examined. Two different age-groups of rats were fed on three different diets in which fat was in the form of menhaden oil (MO), hydrogenated coconut oil (CO) and safflower oil (SO) respectively. Control groups were fed on normal laboratory diet. Each diet was isoenergetic and no group showed significant differences in either food intake or weight gain during the experiment. Weaner rats fed on the MO diet exhibited significant reductions in both antral (P = 0.047) and plasma (P = 0.002) gastrin concentrations when compared with age-matched controls. Likewise, adult rats fed on the MO diet exhibited significant reductions in both antral (P = 0.008) and plasma (P = 0.002) gastrin concentrations. In addition, adult rats fed on the CO diet exhibited significant reductions in both antral (P = 0.047) and plasma gastrin (P = 0.002) concentrations. Rats from both age-groups fed on the SO diet exhibited no significant differences in gastrin concentrations when compared with their respective control groups. These findings indicate that the composition of dietary fat can have profound effects on both tissue and plasma concentrations of gastrin in rats.

Effects of starvation and refeeding on jejunal disaccharidase activity

In the rat, starvation lowers jejunal sucrase activity and increases or has no effect upon jejunal lactase activity. The mechanism by which starvation influences these intrinsic microvillus proteins remains unclear. Jejunal sucrase and lactase activities were studied during starvation or refeeding after a three-day fast. Using polyclonal monospecific antibodies, sucrase-isomaltase (SI) and lactase-phlorizin hydrolase (LPH) protein contents were measured in parallel to determine changes in enzyme activation. Sucrase activity and SI protein fell after two and three days of fasting and rose during refeeding. In contrast, lactase activity and jejunal LPH content increased after starvation and decreased after refeeding for 48 hr. For both enzymes, changes in catalytic activity and protein content occurred in parallel. [3H]Leucine incorporation studies in vivo showed more labeling of immunoprecipitable LPH than SI during starvation, but refeeding induced relatively more labeling of SI than of LPH. Therefore, starvation and refeeding produce opposing effects upon jejunal lactase and sucrase activities by modulating LPH and SI protein production and not by modifying enzyme activation.

Response of the antral mucosa of the rat stomach to 2,3,7,8-tetrachlorodibenzo-p-dioxin

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) produces a striking hypergastrinemia in rats that is thought to mediate the antiatrophy effect of TCDD on the oxyntic gland mucosa of the stomach. However, effects of TCDD on the antral mucosa, which is the origin of most physiologically released gastrin and is not a target for the trophic action of gastrin, has yet to be thoroughly investigated. Also gastrin release from gastrin-containing cells (i.e., G-cells) in the antral mucosa is inhibited by the paracrine secretion of somatostatin from D-cells in the antrum. Our purpose was to determine if the antral mucosa is affected by the trophic influence of TCDD and if alterations in antral mucosa levels of gastrin or somatostatin cause the hypergastrinemia. TCDD (100 micrograms/kg, Day 14 post-treatment) had a trophic effect on the antral mucosa. This was demonstrated histologically and by significant increases in antral wet weight and antral mucosa height. In contrast, pair-fed control rats that lost the same amount of body weight developed antral mucosa atrophy. With respect to serum and antral levels of gastrointestinal hormones, TCDD produced a 7- to 10-fold increase in serum gastrin concentrations that was not detected until Day 14 post-treatment. In contrast, serum gastrin concentrations in pair-fed control rats were comparable to those of control rats. The number of G-cells in the antral mucosa was not affected by either TCDD treatment or paired-feed restriction. These findings demonstrate that hypergastrinemia in TCDD-treated rats is not caused by reduced feed intake or antral G-cell hyperplasia. A major finding was that antral mucosa levels of both gastrin and somatostatin were decreased significantly in TCDD-treated rats. However, the temporal development and dose-dependence of these TCDD effects on antral hormone levels were quite different than those for hypergastrinemia. TCDD-induced decreases in antral levels of gastrin and somatostatin were detected 1 week earlier than hypergastrinemia. Also, the ED50 of TCDD on Day 14 post-treatment for the decrease in antral mucosa content and concentration of gastrin (29 and 22 micrograms/kg, respectively) and somatostatin (24 and 19 micrograms/kg, respectively) was less than that for hypergastrinemia (46 micrograms/kg). These time- and dose-dependent differences demonstrate that hypergastrinemia in TCDD-treated rats is not a consequence of reduced antral levels of gastrin or somatostatin. We conclude that the antral mucosa, an epithelial tissue not responsive to the proliferative effect of gastrin, is nevertheless a target for the trophic influence and gastrointestinal hormone-altering effects of TCDD.

Amines protect in vitro the celiac small intestine from the damaging activity of gliadin peptides

Proteins and peptides responsible for the celiac small intestinal lesion inhibit both the enterocyte recovery of in vitro cultured flat celiac mucosa and the in vitro development of fetal rat intestine. They also agglutinate K 562 (S) cells. Using these three in vitro systems (cultured human celiac and rat fetal intestine and cell agglutination), it is shown that several small-molecular-weight amines, mostly the polyamines spermidine and spermine, prevent and reverse K 562 (S) cell agglutination induced by gliadin peptides, whereas they do not prevent cell agglutination induced by concanavalin A and wheat germ agglutinin. Some of these amines also protected in vitro developing fetal rat intestine and flat celiac mucosa from the damaging effect of gliadin peptides. This protective effect may be related to the trophic activity exerted by amines on the intestine and/or the effect of amines on the functions of intestinal brush border or intracellular membranes involved in the intestinal handling of gliadins.

Hypergastrinemia is associated with decreased gastric acid secretion in 2,3,7,8-tetrachlorodibenzo-p-dioxin-treated rats

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) produces a delayed onset hypergastrinemia in rats. The purpose of the present study was to determine if the increased serum gastrin concentrations were caused by decreased gastric acid secretion, decreased plasma clearance of gastrin, and/or decreased gastric emptying. It was found that TCDD treatment decreased gastric acid secretion as determined by decreases in gastric secretory volume, acidity, and total acid output in pylorus-ligated rats. Also, both dose-response and time-course curves for decreased gastric acid secretion in TCDD-treated rats were similar to those for hypergastrinemia. These findings, as well as a significant inverse correlation between serum gastrin concentrations and total gastric acid output in rats treated with graded doses of TCDD (5-100 micrograms/kg), suggest that TCDD-induced decreases in gastric acid production cause elevated serum gastrin concentrations. Neither hypergastrinemia nor decreased gastric acid secretion were observed in pair-fed control rats, demonstrating that neither effect was secondary to undernutrition. The TCDD-induced decrease in gastric acid secretion was not caused by a decrease in the number of acid-secreting parietal cells in the stomach, but rather was associated with a decrease in parietal cell responsiveness to gastrin-elicited acid secretion. This was evidenced by both elevated serum gastrin concentrations and a pharmacological dose of pentagastrin failing to stimulate gastric acid secretion in TCDD-treated rats. The disappearance of iv-administered gastrin-17 from the serum was not affected by TCDD treatment, suggesting that reduced serum gastrin clearance is not responsible for the TCDD-induced hypergastrinemia. Although a marked decrease in gastric emptying of a 51Cr-labeled liquid test meal was also observed in TCDD-treated rats, the lowest dose of TCDD required to produce this effect was greater than that needed to cause hypergastrinemia. This suggests that the hypergastrinemic effect of TCDD is not secondary to a decrease in gastric emptying. We conclude that the most probable cause of hypergastrinemia in TCDD-treated rats is decreased gastric acid secretion.

Role of hypergastrinemia in the antiatrophy effect of 2,3,7,8-tetrachlorodibenzo-p-dioxin on oxyntic gland mucosa of the rat stomach

Atrophy of the gastrointestinal mucosa that occurs in pair-fed control rats is not observed in 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-treated rats (1). Our objective was to determine if the gastrointestinal trophic hormone, gastrin, is involved in the antiatrophy effect of TCDD on the gut mucosa. Adult male Sprague-Dawley rats treated with 100 micrograms/kg of TCDD were slightly hypergastrinemic 7 days after dosing and markedly hypergastrinemic 14 days after treatment whereas pair-fed control rats were normogastrinemic. After 14 days of feed restriction, atrophy of the oxyntic gland and ileum mucosa occurred in pair-fed control rats but only atrophy of the ileum mucosa developed in TCDD-treated animals. The oxyntic gland mucosa of TCDD-treated rats was protected from mucosa atrophy as well as from mucosa erosions. The protection against feed restriction-induced atrophy was demonstrated by measurements of oxyntic gland mucosal height and DNA and protein content. Since hypergastrinemia stimulates growth of oxyntic gland mucosa, but not ileum mucosa, the antiatrophy effect of TCDD on mucosa of the oxyntic gland might in part be due to hypergastrinemia. In support of this interpretation, TCDD treatment exerted an antiatrophy effect on the oxyntic gland mucosa only when TCDD-treated animals were hypergastrinemic. For example, hypergastrinemia does not develop within the first 48 hr after TCDD administration, and TCDD treatment affords no protection against fasting-induced atrophy of the oxyntic gland mucosa during this time. On the other hand, the ability of TCDD treatment to protect against feed restriction-induced erosions of the oxyntic gland mucosa might be mediated by hypergastrinemia since these events occur at a later time.(ABSTRACT TRUNCATED AT 250 WORDS)

Spontaneous nonneoplastic gastric lesions in female Han:NMRI mice, and influence of food restriction throughout life

A life span study of 900 female virgin Han:NMRI mice (300 outbred controls, 300 of a fat subline, and 300 of a lean subline) was done to determine the occurrence of spontaneous disease with ad libitum or restricted feeding. Major nonneoplastic lesions in the glandular stomach were erosions, ulcers and adenomatous hyperplasia of the fundus. Ulcers, ranging in incidence with ad libitum feeding from 5 to 9% and with food restriction from 13 to 34%, either occurred secondary to other diseases or were due to stress associated with food restriction, causing death mainly in the lean subline. Adenomatous hyperplasia was most common in the control group (41%); the frequency increased with age and was significantly reduced by food restriction. The etiology of adenomatous gastric hyperplasia is yet unknown. However, a lack of antiparietal cell antibodies, as determined by an immunofluorescent technique, indicates that an autoimmune disorder is not involved and an increase in antral gastrin cells, as determined by avidin-biotin peroxidase immunocytochemistry, suggests a hormonal involvement in pathogenesis.

Trophic effects of pentagastrin on gastrointestinal tract in fed and fasted rats

In rats injected with pentagastrin (2-500 micrograms/kg subcutaneously) in saline, peak gastric acid responses occurred after 31 (30-min output) or 63 micrograms/kg (60-min output). Rats were fed or fasted for 48 h and injected every 8 h with 63, 250, or 1000 micrograms/kg pentagastrin. Fasting decreased body weight (30% versus fed), serum gastrin (90%), and weight and protein content of oxyntic and pyloric gland areas, pancreas, small intestine, and colon. Deoxyribonucleic acid content or [3H]thymidine incorporation was decreased in all organs except colon. The lowest dose of pentagastrin significantly increased [3H]thymidine incorporation in the oxyntic gland area of fed rats and the small intestine of fasted rats, although organ weight, protein, or deoxyribonucleic acid content did not increase. These data indicate that short-term fasting has dramatic effects on gastrointestinal organ growth in rats and that pentagastrin reverses some of these changes.

Long-term comparative effect of cholecystokinin and gastrin on mouse stomach, antrum, intestine, and exocrine pancreas

Mice were injected three times a day for 12 days with 300 micrograms/kg body weight of gastrin G17 or 37.5 Ivy dog U/kg body weight of CCK or saline. Other mice were also injected four times an hr for 1 hr with 7.5 micrograms/kg of gastrin, nine Ivy dog U/kg of CCK or saline; 1 hr before killing, they were injected with tritiated thymidine to evaluate the labelling indices in peptic, antral, duodenal, jejunal, and ileal mucosae. Four hours after the first injection of the two peptides, the peptic labelling indices increased while those of intestinal mucosa increased 8 hr after these injections. Long-term injections of CCK had a trophic effect on secretory cells of the digestive tract: the number of gastric zymogenic cells, Paneth cells, and the mucous cells of Brünner glands were hypertrophied. The pepsin, amylase, chymotrypsin, and lysozyme activities increased in stomach, exocrine pancreas, and intestine, respectively. Neither parietal cells nor intestinal enterocytes and hydrolase activities were affected. The trophic effect of long-term injections of gastrin is confirmed on parietal cells and exocrine pancreatic parenchyma and is demonstrated in Paneth cells. Confirming cytological results, pancreatic lipase and amylase activities and intestinal lysozyme activity were increased after gastrin. Although CCK and gastrin have a structural analogy, these two peptides did not affect the same cellular types. A specific action of CCK on the main secretory cells of the digestive mucosa is demonstrated.

Effect of sialoadenectomy and salivary gland extracts on gastrointestinal mucosal growth and gastrin levels in the rat

We have examined gastrointestinal mucosal growth 30 days after surgical removal of the submandibular-sublingual salivary glands and ligation of the parotid ducts of rats. The rate of [3H]thymidine uptake in vitro as an estimation of DNA synthesis and the content of DNA and RNA were examined in the oxyntic, duodenal and proximal colonic mucosa. DNA synthesis, DNA and RNA content of oxyntic mucosa were reduced in sialoadenectomized rats when compared to sham-sialoadenectomized control animals. There was no change in the degree of [3H]thymidine incorporation or DNA content of the duodenal or colonic mucosa. Intraperitoneal injection of an aqueous extract of the submandibular-sublingual salivary glands of rats (4.0 mg tissue protein in 0.1 M-sodium phosphate buffer administered twice a day for 15 days) increased the rate of DNA synthesis and the total mucosal DNA and RNA content in the oxyntic mucosa. Injections of extracts of spleen or muscle did not produce consistent results. Administration of epidermal growth factor (10 micrograms/kg) or pentagastrin (250 micrograms/kg) resulted in an increase of the level of DNA synthesis observed in the oxyntic mucosa of sialoadenectomized rats. Plasma and antral tissue levels of the trophic hormone, gastrin, were not significantly decreased in sialoadenectomized rats treated with 0.1 M-sodium phosphate-buffered saline. However, treatment with the salivary tissue extract did result in significant reductions in both plasma and tissue levels of gastrin. We conclude that elimination of the major salivary glands in the rat results in a decrease in [3H]thymidine uptake and DNA content of the gastric oxyntic mucosa. These effects are not mediated via a reduction in endogenous levels of the trophic hormone, gastrin. Administration of an aqueous extract of salivary tissue exerted a small but significant trophic influence on the oxyntic mucosa of the rat.

Lactase activity is under hormonal control in the intestine of adult rat

In the adult rat, starvation during 48 hours led to a three fold increase of lactase specific activity in the intestinal brush border membranes. Thyroxine injection during the three days before death (0.5 micrograms/g daily) inhibited the stimulation of lactase activity induced by starvation without modifying sucrase activity whereas hydrocortisone injections (25 micrograms/g daily) or thyroidectomy did not modify the stimulatory effect of starvation on lactase activity. These results suggests a specific hormonal control of intestinal lactase activity in the rat.

The effects of short periods of fasting on the absorption of heavy metals

1. Rats were deprived of food for periods of from 0 to 40 h and then given 203Pb, 203Hg, 59Fe, 64Cu, 65Zn or 45Ca by stomach tube. The absorption and retention of these metals in tissues was measured 1 h and 2 d after dosing. 2. After 16-24 h of food deprivation between two and ten times more metal was retained than after 0-12 h. 3. The effects of length of fast on metal uptake by the intestinal mucosa were greatest in the duodenum. 4. Lactate production by duodenal mucosa was halved after 12 h of food deprivation but galactose absorption was little changed after a 40 h fast.

Effects of hydrocortisone and pentagastrin on the activity of intestinal disaccharidases and alkaline phosphatase in weanling rats

Effect of bilateral adrenalectomy and subsequent injections of hydrocortisone and pentagastrin on the activity of different intestinal digestive enzymes were measured in 20-day-old rats. Eleven days after adrenalectomy the activity of lactase, sucrase, and alkaline phosphatase, but not maltase, was significantly decreased when compared with sham-operated rats. In adrenalectomized rats, repeated injections of hydrocortisone (50 mg/kg) significantly increased the activity of lactase, sucrase, maltase, and alkaline phosphatase by 15%, 49%, 32% and 121%, respectively, over the corresponding adrenalectomized control. Pentagastrin (500 microgram/kg) injections to adrenalectomized rats produced significant 41% and 58% increments in lactase and alkaline phosphatase activities, compared with the adrenalectomized control. Sucrase activity was unaffected by pentagastrin, but maltase showed a non-significant 34% higher activity than in the adrenalectomized control. Adrenalectomy by itself lowered the Km and Vmax of alkaline phosphatase by 33% and 66%, respectively, which were increased to 95% and 70% of the corresponding sham-operated level by either hydrocortisone or pentagastrin treatment. When intestinal homogenates from salinetreated adrenalectomized rats were mixed in equal proportion with homogenates from sham-operated or hydrocortisone- or pentagastrin-treated animals, Km values for alkaline phosphatase were found to be similar to those observed for sham-operated or hormone-treated groups alone. However, in the same mixed preparations Vmax values were found to be additive.

Effect of pentagastrin on rabbit stomach and small intestinal protein synthesis

In an vitro organ culture system, we studied the effects of pentagastrin on rabbit fundic mucosa and small intestinal protein synthesis. The incorporation of [14C]leucine into protein was measured after 24 hr of incubation at 37 degrees C in a 95% oxygen-5% CO2 atmosphere. Biopsies were taken from the stomach, duodenum, jejunum, and ileum of rabbits fasted for 64 hr. Pentagastrin (0.5 microgram/ml) significantly increased protein synthesis in stomach explants at the 24-hr period but did not significantly increase protein synthesis in the duodenum, jejunum, or ileum explants. The results of these in vitro experiments may indicate that pentagastrin is not trophic for rabbit small intestine or, in contrast to its direct effect on the fundic mucosa, pentagastrin acts indirectly in the previously noted in vivo stimulation of intestinal protein synthesis.

Changes in gastrin levels, food intake, and duodenal mucosal growth during lactation

Gastrointestinal epithelial cell proliferation is stimulated during lactation in the rat. Serum gastrin levels and food intake are also increased during lactation. We investigated the role of gastrin and food intake as possible mediators of duodenal mucosal growth during the first 15 days of lactation. As the lactation period progressed, significant increases in the following crypt properties were noted: 1) crypt length; 2) cells/crypt; 3) labeling index; and 4) dimensions of the proliferative zone. Maternal serum gastrin levels rose abruptly by the first day of birth and remained elevated throughout lactation. The increases in crypt cell proliferation significantly correlated with food intake but not with serum gastrin levels during lactation. Mucosal mass and villus-crypt dimensions were also significantly increased above virgin levels in lactating antrectomized rats. These results suggest that the increase in duodenal growth during lactation most probably is not mediated by postpartum hypergastrinemia and that the increase in cell proliferation may be a direct response to an enhancement in food intake.

A cyto-physiological study of the G-cell secretory cycle in the antrum mucosa of the hamster and of the rat

The secretory cycle of the antral G cell in the golden hamster and in the Wistar rat has been investigated, using classical techniques of optical and electron microscopy associated with special methods (such as goniometry, densitometry, immunohistology, morphometry) and with radioimmunoassay for gastrin. This paper confirms the secretory cycle of the G cell after refeeding. It clarifies the nature of granule polymorphism and suggests a particular mechanism of emiocytosis with sequential granule fusion. Furthermore, our investigations show some dissociations between the G cell, the parietal cycle, and the seric immunoreactive gastrin in the late phase of the secretory cycle (2 to 6 h after refeeding).

Small intestinal sugar and amino acid transport in semistarvation

The effect of semistarvation on small intestinal transport of D-glucose, L-valine, and NaCl was studied in an in vitro system of isolated rat brush border membrane vesicles. Whereas semistarvation enhanced the transport rate for L-valine by 19-29%, there was no change in D-glucose transport. When energy in the form of a NaSCN gradient was supplied to the membrane vesicles prepared from semistarved animals, L-valine was concentrated to a greater extent than those from well-fed animals. Strain differences were observed in the manner semistarvation affected NaCl transport across the brush border membrane. Semistarvation increased the NaCl transport rate by a factor of 3.5 in one rat strain and not at all in another. These results provide a partial explanation for the cellular basis of elevated neutral amino acid absorption by the small intestine in semistarvation.