Aging and intestinal polyamine metabolism in the rat

Hyperproliferation and delayed expression of enzyme activity occur in small intestinal enterocytes of aging rats, and starvation and refeeding result in impaired control of these processes. Since altered polyamine metabolism may accompany changes in enterocyte proliferation, we studied the effects of nutrient manipulation upon cell numbers, ornithine decarboxylase (ODC) activity and polyamine content in jejunum and ileum of 4- to 5- and 26- to 27-month Fischer rats. In both groups, cell numbers fell during starvation and and increased during refeeding. Crypt cell hyperplasia was found in aging animals. Jejunal putrescine, spermine and spermidine content were greater in older rats, fell during starvation, and rose during refeeding. Ileal ODC activity was 66% greater in the aging rats, but jejunal ODC activity was modestly increased in young animals. Intestinal polyamine content correlates with proliferative changes and polyamine metabolism responds appropriately to nutrient manipulation during aging. Dissociation of ODC activity and polyamine content in aging jejunum probably occurred because enterocyte differentiation was delayed. Investigation of intestinal polyamine metabolism may be useful in elucidating deranged proliferative activities found in the intestine of aging rodents.     

Aging and gastrin production: changes in serum and antral gastrin concentrations in the rat

Serum gastrin concentration and antral gastrin content were measured in 4-5- and 26-28-mo rats under fed conditions, after 3 days of starvation, and after 1 day of refeeding after starvation, to determine whether gastrin homeostasis is altered during aging. Gastric weight was 29% greater, but antral weight and DNA were less in the older rats. Serum gastrin fell during starvation and rose during refeeding in both groups, but it was lower in aging rats only during refeeding. Antral gastrin content in older animals was 60% of that in young rats. Starvation reduced antral gastrin only in the young, whereas refeeding lowered antral gastrin in the older animals. We conclude that, in aging rats, the relationship of serum and antral gastrin is altered during changes in food intake.     

Delayed enzyme expression: a defect of aging rat gut

To evaluate the effect of aging upon the small intestine, the distribution, content, and concentration of epithelial cell enzymes at different levels along the crypt-villus column were measured in aging and young adult, male, Fisher 344 rats. Specific activities of sucrase, maltase, lactase, and adenosine deaminase in mucosal homogenates were lower in the upper intestines of aging than in young animals, whereas the specific activity and content of thymidine kinase was higher. Enzyme activities were measured in cells obtained by cryostat sectioning from villus tip to crypt base. Sucrase and maltase activities were fully expressed nearest the crypt, alkaline phosphatase in cells higher on the villus, and adenosine deaminase higher still, whereas thymidine kinase activity was limited to the crypts. The ordered pattern of enzyme expression was maintained in aging rats but the initiation and duration were delayed. Because peak specific enzyme activities were similar in young and aging animals, the reduced specific activities in mucosal homogenates from aging animals were due to an increase in the proportion of relatively undifferentiated villus epithelial cells. These findings are of importance in explaining altered intestinal function during aging without a concomitant change in intestinal structure.     

Small intestinal crypt cell proliferation rates are increased in senescent rats

Our previous studies implied that intestinal epithelial cell replication might be increased in senescent rats. Duodenal, jejunal, and ileal crypt cell production rates (CCPR) were measured in 3-4-mo and 26-28-mo female fed control, 3-day starved and 1-day refed, and in 4-5-mo and 26-28-mo male fed Fischer rats, using the vincristine-induced metaphase arrest technique. Fed aging rats had greater proximal intestinal crypt cell numbers which fell less during starvation than those of young controls. Metaphase accumulation also was higher in aging rat duodenum and jejunum, and CCPR were 30-100% more than in young rats. Starvation reduced CCPR by more than 40% in the duodenum of young, but only by 10% in older animals. Crypt proliferative patterns demonstrated a broadened proliferative zone in aging rats. These combined results directly demonstrate that small intestinal cell production is enhanced in senescent rats and that the nutritional controls of proliferation are blunted.     

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 studiesin 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.     

Age-dependent hepatic lipogenic enzyme activities in starved-refed rats

Food intake, plasma glucose, insulin (I) and triiodothyronine (T3) and liver glucose 6-phosphate dehydrogenase (G6P-DH), malic enzyme (ME). ATP-citrate lyase, acetyl-CoA carboxylase (AcCoACx) and fatty acid synthase (FAS) activities were measured in 2 and 22 months old rats before, after 3 d starvation and 2,4,6. 24 and 48 h refeeding a high carbohydrate (74% w/w) diet. Expressed per 100 g of body weight, the carbohydrate intake of old rats was 55% lower than that of young rats. Plasma insulin was higher in old than in young rats and decreased (-40%) after starvation and returned to control values 4 h after refeeding. In young rats plasma insulin fell after starvation (-85%) and returned to normal values 2 h after refeeding. No significant differences were observed in plasma [T3] between the two groups. During the first 6 h of refeeding, plasma glucose increased 2-fold and returned to control values after 24 h in young rats. In old rats, plasma glucose returned to its control value after 2 h. Compared to the starved level, 48 h after refeeding, G6P-DH, ME, ATP-citrate lyase, AcCoACx and FAS activities increased 5- to 6-fold in young rats, while in old rats the increase was much smaller and represented 35% of that observed in young rats. These results suggest, that the age-related reduction in inducibility of hepatic lipogenic enzymes of rats refed a high carbohydrate diet after starvation may be due to a spontaneous decrease in the carbohydrate intake and to a decrease effectiveness of insulin (insulin resistance).     

Colonic proliferation is increased in senescent rats

Our previous studies suggested that crypt size enlarged and that proliferation rate might be greater in the small intestine of rats during senescence. Crypt cell numbers and crypt cell proliferation rates, using the vincristine-induced metaphase arrest technique, now have been measured in the colon of aging and young Fischer 344 rats. The proximal colon of 26-28-mo-old unfasted rats had 10% more crypt cells and a higher proliferative rate than 3-4-mo-old young controls. In the distal colon, the crypt cell proliferation rate in aging rats was 56% greater than in the young. A 3-day fast reduced crypt cell proliferation about fourfold in young rats but only by 20% in aging rats. One-day refeeding abruptly increased the crypt cell population and proliferation rate in rats of both age groups. The crypt zone of proliferating cells from aging rats was broader than that seen in young rats. In addition, starvation lowered colonic crypt cell cycling rate much less in aging than in young animals. We conclude that the colons of aging rats demonstrate a hyperproliferative state and a failure to adapt appropriately to changes in food intake. These observations may be relevant to states of altered proliferation that occur in the premalignant colon.     

Age-dependent glycolysis and gluconeogenesis enzyme activities in starved-refed rats

Food intake, plasma glucose, insulin (I) and glucagon (G), hepatic glycogen and fructose 2,6-bisphosphate (F-2, 6-P2) and liver glucokinase, glucose 6-phosphatase (G6-Pase), 6-phosphofructo-2-kinase/fructose-2,6-bisphosphatase (6-PF-2 kinase/F-2, 6-P2ase), pyruvate kinase (PK-L) and phosphoenolpyruvate carboxykinase (PEPCK) activities were measured in 2 and 22-month-old rats before 3 d starvation and after 2, 4, 6, 24 and 48 h refeeding a high carbohydrate (HC, 74% w/w) diet. Expressed per 100 g of body weight, the food intake of old rats was 55% lower than that of young rats and the amount of carbohydrate absorbed hourly during the first 6 h of refeeding was 2.4-fold higher in young than in old rats. During the first 6 h of refeeding plasma glucose increased 2-fold and returned to normal values after 24 h in young rats, while plasma glucose did not change during refeeding in old rats. In young rats [I] fell by 85% after starvation and returned to normal values 2 h after refeeding. [I] was higher in old than in young rats; it decreased by 40% after starvation and returned to the basal value 4 h after refeeding. No marked changes were observed in plasma [G] in both groups. No difference was observed in hepatic glycogen in the two groups, while F-2, 6-P2 was higher in old than in young rats. In young rats, the opposite changes in liver glucokinase and G6-Pase activities occurring after starvation and during refeeding were     

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

Intestinal DNA, RNA, and protein content were decreased to a greater extent than was body weight when rats were starved for 3 days. Specific lactase and maltase activity increased with progressively longer periods of starvation. Antral and serum gastrin concentration significantly decreased during the 3 days of starvation. Pentagastrin (250 μg/kg 3 times daily) was injected into a group of rats for the duration of a 3-day starvation period and caused a small but significant increase in the relative intestinal RNA and protein content and decreased lactase and maltase specific activities in comparison with the levels of 3-day starved controls. Pentagastrin thus partially reversed some of the starvation-induced changes toward fed levels. Thus, a deficiency in the trophic hormone gastrin may be partially responsible for the disproportionate changes in intestinal tissue during starvation.     

Food restriction retards age-related biochemical changes in rat small intestine

Previous studies have demonstrated that the specific activities of several proximal small intestinal mucosal enzymes fall in the aging rat. This reduction was due to a delay in the full expression of activity of these enzymes during epithelial cell transit from the crypt onto the intestinal villus. We now show in the ad libitum fed Fischer 344 rat that jejunal sucrase, maltase, and alkaline phosphatase specific activities do not fall gradually throughout the life span, but are reduced during senescence. Caloric restriction to 60% of ad libitum intake (DR) abolishes or delays this fall in enzyme activity. Jejunal mucosal immunoprecipitable sucrase-isomaltase (S-I) content also falls with age, but sucrase specific activity per molecule of S-I is less in the older ad libitum fed (approximately 45) than in the DR rats (approximately 60). Jejunal lactase activity falls gradually throughout the life span of ad libitum and DR rats, but lactase activity consistently was higher in DR animals. These observations indicate that DR alters the age-related changes in the activity of several enzymes in the rapidly replicating gut mucosa.     

Ligation or external fistulation of the common bile duct in the rat. II. Intestinal disaccharidase activities.

72 h after ligation or external fistulation of the common duct the activities of maltase, sucrase and lactase in the homogenate of the small intestinal mucosa of the rat were determined. The experiments were performed in connexion with intestinal perfusion studies, and the disaccharidase activities were measured in unperfused intestinal segments as well as in intestinal loops which had previously been perfused with a sucrose-containing solution. After bile duct ligation, the sucrase and maltase activities in a previously perfused intestinal loop were not different from those in sham-operated animals, the lactase activity was diminished. In a nonperfused segment, the sucrase activity was greater, the maltase activity was unchanged, and the lactase activity was lower than in control animals. After bile duct fistulation, the sucrase, maltase and lactase activities in a perfused segment were lower than in sham-operated rats. In a nonperfused loop, the sucrase activity was greater, the maltase activity was unchanged, and the lactase activity was lower then in the corresponding control group. These data suggest that bile is a factor which influences the total mucosal disaccharidase activities, and, probably, the intracellular enzyme distribution.     

Altered controls of proliferation in proximal small intestine of the senescent rat.

The proximal small intestine responds to starvation by rapidly reducing crypt cell proliferation rate and villus cellularity and to resumption of food intake (refeeding) by abruptly increasing proliferation and the number of villus epithelial cells. We show that villus cellularity responds to starvation and refeeding similarly in young and aging animals. However, as compared to young animals, senescent rats showed increased basal DNA synthetic activity, starvation resulted in a smaller decrease in DNA labeling of crypt cells, and refeeding produced an abrupt broadening of the proliferative zone in older animals without concomitant increased numbers of villus cells. Such altered crypt proliferative responses resemble precancerous changes seen in the colon and the aberrant proliferation found in both small and large intestine after administration of the carcinogen dimethylhydrazine.     

Age-related changes in the regulation of cholesterol metabolism in rats

Activities of the hepatic cholesterol synthetic system including initial steps of the pathway and cholesterol 7 alpha-hydroxylase were all lower in adult (8 to 9-month-old) rats than in young (5 week-old) rats. The extent of diurnal fluctuation of 3-hydroxy-3-methylglutaryl coenzyme A reductase was, however, apparently greater in adult animals. When the cholesterol-enriched diet was fed to rats for 1 day, the extent of the depression of the cholesterogenic enzymes was dependent on age of animals. The enzyme activities rapidly increased on refeeding a cholesterol-free diet after the cholesterol challenge. In young rats the activity of cholesterol 7 alpha-hydroxylase exhibited a pattern inverse to that of HMG-CoA reductase whereas in adult rats it increased continuously during the entire experimental period. Cholesterol and triglyceride accumulated in the liver of adult animals, and their response to dietary cholesterol also depended on the age of the animals. The results indicate a specific modification of the cholesterol homeostatic mechanism with age.     

Influence of fasting and refeeding on the elongation step of protein synthesis in rat liver of young (3M) and aging (18M) animals

The in vitro binding capacity for AA-tRNA of ribosomes, catalysed by EF1 enzyme, was studied in livers of rats, which had been starved for 5 days and re-fed for 3, 9, and 24 hours. The experiments were carried out with 3 and 18-month-old rats. The results were compared to those obtained with normally fed rats of the same ages. For both age groups, there was a similar change in the binding capacity, including a return to normal values after 24 hours of refeeding. When ribosomes of old control animals were treated with different enzymes, we obtained lower binding activities for all the experimental groups than in homologous cell-free systems (ribosomes and EF1 isolated from the same group). The ribosomes of young animals, tested in the presence of different enzymes, display an increased binding capacity, when the enzymes used were those of old (control and re-fed) animals. The recovery of the catalytic activity of EF1 on the binding process was observed after 9 hours in old animals, whereas it was not seen for young re-fed animals at that time of refeeding. EF1 seems to play an important role in the adaptation of older animals to fasting and refeeding.     

Effect of Stasis on Intestinal Enzyme Activities

Summary: Activities of the small intestinal mucosal enzymes lactase, sucrase, maltase, alkaline phosphatase and N-acetyl-β-glucosaminidase were studied in rats with surgically-induced upper intestinal stasis and in control animals. The first four are brush border enzymes, the latter a lysosomal enzyme. There was reduction in the activities of all enzymes in the operated animals. This change was significant and most marked in mucosa lining the blind loop and gut distal to it; areas in which there is gross bacterial overgrowth and excessive levels of intraluminal deconjugated bile salts. The significance of these findings in relation to malabsorption consequent on bacterial contamination of the upper gut is uncertain and requires further study.     

The gastro-entero-pancreatic hormone response to fasting in obesity

Summary A comparison of the metabolic and gastroentero-pancreatic hormonal responses of ten obese and eight lean subjects to 12 h and 36 h fasts has been made. Each subject was given a 50 g oral glucose tolerance test at the end of both 12 h and 36 h starvation. After the 12 h fast blood glucose and 3-hydroxybutyrate were similar in each group but blood glycerol was 30% higher in the obese subjects. Plasma insulin and vaso-active intestinal polypeptide were also higher in the obese subjects after 12 h starvation. After 36 h starvation in the lean subjects blood glucose was unchanged but on refeeding with 50 g oral glucose, glucose tolerance was impaired. In the same group blood glycerol and 3-hydroxybutyrate rose after 36 h starvation. Plasma glucagon, secretin and vaso-active intestinal polypeptide rose after 36 h starvation in the lean subjects but plasma insulin was unchanged. Refeeding with oral glucose suppressed the increased plasma glucagon, secretin and vaso-active intestinal polypeptide. After the 36 h fast in the obese subjects, blood glucose was unchanged, blood glycerol fell, but blood 3-hydroxybutyrate rose although to a reduced level in comparison with the lean subjects. In the obese group there was no change in plasma glucagon, secretin or vaso-active intestinal polypeptide after 36 h starvation, although plasma insulin fell. The results show different metabolic and gastro-entero-pancreatic hormonal responses to fasting in lean and obese human subjects and suggest an important metabolic role of glucagon, secretin and vaso-active intestinal polypeptide during starvation.Now Endocrinology Fellow, University of Texas at Dallas     

Effect of starvation and subsequent refeeding on thyroid function and release of hypothalamic thyrotropin-releasing hormone.

Effects of starvation on thyroid function were studied in 5- to 6-week-old (R x U) F1 rats. Starvation lowered plasma TSH in female, but not in male rats. Plasma T4 and T3 levels decreased, whereas the dialysable T4 fraction increased during starvation. Free T4 (FT4) levels decreased rapidly in females, but only after prolonged fasting in male rats. Glucose decreased, and free fatty acid levels increased during starvation. Peripheral TRH levels did not change during food deprivation. Since effects of starvation were most apparent in young female rats, such rats were used to study hypothalamic TRH release during starvation and subsequent refeeding. Basal in vitro hypothalamic TRH secretion was less in starved rats than in control or refed animals. In vitro hypothalamic TRH release in medium with 56 mM KCl increased 3-fold compared to basal release, and in these depolarization conditions TRH release was similar between hypothalami from control, starved and refed rats. In rats starved for 2 days, TRH level in hypophysial portal blood was lower than that of controls. Thus, diminished thyroid function during starvation may at least in part be caused by a reduced hypothalamic TRH release.     

Effect of hypertension on lysosomal enzyme activities in aortic endothelial cells

In order to obtain information about the changes in lysosomal enzyme activities in arterial endothelial cells under hypertensive conditions, a biochemical study was performed on 5 lysosomal enzymes, acid phosphatase, N-acetyl-beta-glucosaminidase (NAGase), cathepsin B, cathepsin D and beta-glucuronidase, in endothelial cells isolated by an enzymatic technique from the aorta of spontaneously and renal hypertensive rats, and normotensive control rats. The aortic endothelial cells in the old spontaneously and the renal hypertensive rats showed increased activities of enzymes examined in comparison with those in the age-matched control rats. Endothelial cells in young spontaneously hypertensive rats did not show any elevated enzyme activities compared with those in the controls, and the enzyme activities tended to increase with aging. From this, it is deduced that hypertension activates lysosomal enzyme activities in aortic endothelial cells. The differences in the activities of NAGase, cathepsin B and cathepsin D between hypertensive and control animals increased markedly with advancing age. These activated lysosomal enzymes seem to be involved in the developmental mechanism of arterial endothelial cell injury in hypertension and in further development of hypertensive vascular changes.     

Essential fatty acid deficiency and postresection mucosal adaptation in the rat

The effect of short-term (biochemical) and long-term (clinical) essential fatty acid (EFA) deficiency on mucosal adaptation was studied in a surgical model of short bowel syndrome. Rats fed an EFA-deficient diet for 4 wk had biochemical evidence of EFA deficiency (hepatic and red blood cell triene to tetraene ratios greater than 0.4). Resected animals (70% proximal jejunoileal resection) receiving an EFA-deficient diet had a significantly impaired intestinal mucosal hyperplasia response in all remaining small bowel segments compared with resected controls. The effect of refeeding a control diet to clinically EFA-deficient resected rats was also evaluated. Short-term refeeding (2 wk) of a control diet resulted in a significant return toward normal tissue triene to tetraene ratios. Concomitantly, refed animals had significantly greater mucosal adaptation in the remaining duodenal/jejunal segment compared with resected animals maintained on an EFA-deficient diet postoperatively. These experiments underscore the dynamic nature of tissue EFA status and the importance of fatty acids in the normal compensatory mechanisms of mucosal adaptation after resection.     

Decreased brush border hydrolase activities without gross morphologic changes in human intestinal mucosa after prolonged total parenteral nutrition of adults

Animal experimentation with total parenteral nutrition (TPN) has revealed the occurrence of atrophy of the intestinal mucosa and decreased enzyme activities of the brush border, notably the disaccharidases. These findings have heretofore not been confirmed in human investigation. We performed endoscopic biopsies in the third part of the duodenum in 7 adults before TPN, after 21 days of TPN, and after a progressive oral refeeding. We noted a clear-cut decrease of major enzyme activities during TPN (sucrase, maltase, lactase, glucoamylase, acid aminopeptidase, dipeptidyl peptidase) without any morphologic modifications as observed with standard histology. Electron microscopy showed a slight but significant decrease in the height of microvilli. The decreased enzyme activities were rapidly restored after oral refeeding. Thus, the functional consequences of the modifications observed during medium-term TPN in adults are probably limited.