Adaptive changes of intestinal enzymes to nutritional intake in the aging rat

We previously have shown that aging alters the expression of several intestinal enzymes during cell migration from the crypt base to the villus tip. The activities of many mucosal enzymes are dramatically altered by starvation and refeeding. We compared the effects of starvation and refeeding on the activities of selected intestinal enzymes in young and aging Fischer 344 rats. Gut mass fell during starvation and rose during refeeding to a similar extent in both groups. Sucrase and maltase specific activities in control aging rats were lower than in young controls and, during starvation, enzyme activities declined at approximately similar rates in both groups. Total duodenal enzyme activities fell by about two-thirds in young animals and by greater than 80% in aged animals. Alkaline phosphatase and adenosine deaminase activities also were lower in aging than young animals. During refeeding, enzyme activities rose more in aging rats than in the young. In fact, the specific activities of sucrase and maltase in aging rats refed for 1 day exceeded the values found in fed aging controls. The adaptive responses of duodenal enzymes exceeded those in the jejunum. In conclusion, the aging intestine responds appropriately to starvation and refeeding. However, the fluctuations in brush-border enzyme activities are much greater in aging than in young rats. Such alterations may be an important influence of aging on gut differentiation and might have an adverse impact upon nutritional maintenance in aging animals.     

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.     

Age-related changes in polyamine biosynthesis after fasting and refeeding

The effect of aging on ornithine decarboxylase (ODC) activity and polyamine biosynthesis in the proximal small intestine was studied in two groups of male Fisher 344 rats (young [4-month old] and aged [26- to 27-month old]) using a fasting and refeeding model. In control (nonfasted) rats, levels of polyamines (putrescine, spermidine and spermine) and ODC activity were significantly higher in aged compared with young rats. In aged rats, fasting significantly reduced the levels of putrescine by 41%, spermidine by 23%, and spermine by 11%; however, fasting had no effect on polyamine levels in young rats. ODC activity was decreased 75% in young and 50% in aged rats after fasting compared with the respective age-matched controls. Conversely, 2 h after reinstituting a chow diet increased ODC activity by 17-fold in young rats but only 8-fold in aged rats. Putrescine levels were also increased in both age groups after refeeding; however, similar to ODC activity, these increases were much less in aged rats. In addition, spermidine and spermine levels remained significantly depressed in the aged groups even after 24 h of refeeding. These findings suggest that the normal rigid control of gut polyamine biosynthesis and proliferation noted in young rats is markedly altered with aging.     

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.     

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.     

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.     

Effects of feeding, fasting, and caerulein treatment on ornithine decarboxylase in rat pancreas

Ornithine decarboxylase (ODC) is the rate-limiting enzyme in polyamine biosynthesis. We examined circadian variations in pancreatic ODC activity and time-course effects of caerulein in fed and fasted rats. Significant circadian variations in amount of ODC activity were observed. The highest values were obtained during the dark period (1855 +/- 406 pmoles CO2/h), and the lowest during the light period (359 +/- 84 pmoles CO2/h). Caerulein treatment induced hypertrophy and hyperplasia of the pancreas in fed rats; increases in pancreatic ODC activity preceded the rise in protein and DNA contents (447 +/- 44 pmoles CO2/h and 5573 +/- 893 pmoles CO2/h, 6 and 12 h after the first injection of caerulein, respectively). In fasted rats, pancreatic ODC activity was very low (149 +/- 37 pmoles CO2/h) and caerulein treatment induced a transient increase in this activity 12 h after the first injection; hypertrophy but not hyperplasia of the pancreas was observed. In caerulein-treated fasted rats, refeeding during the night following a 48 h fasting period was not enough to increase either ODC activity or DNA content. These findings demonstrate that nutritional status is an important factor in the regulation of ODC activity and, thereby, in caerulein-induced pancreatic growth.     

Testosterone suppression of ornithine decarboxylase activity in rat Sertoli cells

The effect of testosterone on the induction of Sertoli cell ornithine decarboxylase (ODC) activity was investigated in highly purified cultures derived from testes of 20-day-old rats. Sertoli cell cultures were maintained in serum-free Ham's F-10 medium, with refeeding on days 2 and 4. Before refeeding on day 4, ODC activity was 7.4 U (1 U = 1 pmol 14CO2 released/mg protein.60 min at 37 C). After a medium change, ODC activity increased (41.6 U at 10 h; 180.0 U at 24 h) and then returned to near-basal activity (26.3 U) after 48 h. Simultaneous addition of testosterone (150 ng/ml; 5.2 X 10(-7) M) with the day 4 medium change suppressed the increase in ODC induction (7.53 U at 10 h, 91.6 U at 24 h). Addition of testosterone 24 h before refeeding resulted in greater inhibition of ODC induction (6.9 U at 10 h; 45.4 U at 24 h) than when added simultaneously. Other androgens, 5 alpha-dihydrotestosterone, androsterone, and 5 alpha-androstane-3 alpha,17 beta-diol, also suppressed induction of ODC, whereas 17 beta-estradiol was ineffective, illustrating the steroid specificity of the effect. Coadministration of the antiandrogens hydroxyflutamide or cyproterone acetate partially blocked the testosterone effect. Induction of ODC activity by ovine FSH (10 ng/ml) was also suppressed when Sertoli cells were cultured in the presence of testosterone (150 ng/ml) from the time of isolation. However, induction of ODC activity by (BU)2cAMP was uncompromised by testosterone. These results suggest that testosterone may repress ODC activity and, hence, polyamine biosynthesis in the Sertoli cell, but that cAMP, acting through the trophic hormone FSH, can overcome this suppression of putrescine biosynthesis. Intratesticular and hypophyseal modulation of polyamine biosynthesis may influence not only cellular processes in the Sertoli cell itself but also its role in spermatogenesis.     

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.     

Inhibitory effects of a calcium antagonist on ornithine decarboxylase induction in pancreatic cancer cell lines.

The calcium channel blocker verapamil has been previously shown to augment the chemosensitivity of pancreatic adenocarcinoma cell lines to doxorubicin by mechanisms other than changes in the intracellular accumulation, retention, or metabolism of doxorubicin. Because of our interest in polyamine biosynthesis and metabolism and the known involvement of calcium in the induction of ornithine decarboxylase (ODC) by serum refeeding of cultured cells, the effects of verapamil on the serum-stimulated ODC activity in two hamster pancreatic adenocarcinoma cell lines were examined. In plateau phase well-differentiated (WD) PaCa and poorly differentiated (PD) PaCa cells, a dose-dependent inhibition of the 4-h serum induction of ODC was seen at concentrations of 1, 5, and 10 microM verapamil. At the higher concentrations of verapamil, the inhibition of ODC induction was comparable to that achieved with 5 mM alpha-difluoromethylornithine (DFMO, a specific enzyme inhibitor of ODC) and greater than that seen with 2 mM EGTA plus calcium-depleted serum. Log phase PD PaCa cells, included for comparison, showed less ODC induction with serum and lesser degrees of inhibition of the response to serum refeeding with verapamil, DFMO, and calcium depletion. No direct inhibition of the ODC enzyme was found when verapamil was added at the time the activity was measured. Based on our present data, a possible influence of intracellular calcium pools in the verapamil effect on ODC activity is unclear. Nevertheless, the present findings suggest that verapamil's effects on cytotoxicity may be mediated (at least in part) by inhibition of the serum-mediated induction of ODC.     

Polyamine metabolism of enterocyte-like Caco-2 cells after exposure to Phaseolus vulgaris lectin.

The effect of Phaseolus vulgaris isolectin E4 on polyamine concentrations and ornithine decarboxylase activity of proliferating and differentiating Caco-2 cells was investigated. Values of putrescine, spermidine, and spermine in control cells were highest during the early phase of proliferative cell growth and lowest in the stationary phase. Phytohaemagglutinin E4 significantly increased cellular polyamine values during the late proliferative phase of cell growth. Ornithine decarboxylase activity was high during intensive proliferation and growth, but was lower when proliferation slowed down or ceased. Exposure of Caco-2 cells in the early proliferative phase of cell growth to increasing concentrations of the potent intestinal growth factor phytohaemagglutinin E4 greatly stimulated enzyme activity. In contrast, the activity of ornithine decarboxylase was not stimulated in Caco-2 cells of the late proliferative phase nor was there any increase in the enzyme activity in differentiating and fully differentiated cells of the stationary phase. Accordingly, when proliferating Caco-2 cells possessed the highest ornithine decarboxylase activity, the polyamine values were also at their highest. During differentiation, as the ornithine decarboxylase activity fell close to zero, polyamine values also decreased. In the early proliferative phase of cell growth ornithine decarboxylase activity coincided with DNA synthesis in cells exposed to Phaseolus vulgaris isolectin E4. These findings with Caco-2 cells were similar to those found in brush border cells of the rat small intestine.     

Altered polyamine biosynthesis with aging after massive proximal small bowel resection in rat

We examined the effect of aging on polyamine biosynthesis in the small intestine. Two groups of male Wistar rats (young; 10-week-old,n=40; old; 24-month-old,n=40) underwent either a jejunal transection and reanastomosis or 90% proximal small bowel resection. The rats were sacrificed on the 1st, 2nd, 4th, and 7th postoperative day (POD). The mucosa was submitted for histological examination, weighed, and assayed for protein, DNA, RNA, and polyamine content. Ornithine decarboxylase (ODC) activity was measured and ODC mRNA in the mucosa was determined by Northern blot analysis. Compared with the values for wet weight and protein content in old rats, young rats showed significantly higher values for wet weight on the 1st and 2nd POD, and for protein content on the 1st POD, but there were no differences between young and old rats after the 4th POD. The values for ODC activity and ODC mRNA were significantly lower in old rats than in young rats on the 1st POD, but there were no differences between young and old rats after the 2nd POD. The value for putrescine in old rats was significantly lower on the 2nd POD, but was significantly higher on the 4th POD than that in young rats. The present study showed that, in old rats, the residual intestine after small bowel resection preserved sufficient adaptive capacity, but that the adaptive response was decreased. The findings in this study also suggest that a decrease in ODC mRNA expression is involved in the decreased adaptive response that occurs with aging.     

Ethanol's Effect on Tissue Polyamines and Ornithine Decarboxylase Activity: A Concise Review

An extraordinarily diverse literature describes the cellular/tissue systems in which the molecular effects of both acute and chronic alcohol exposure seem to be mediated by changes in polyamine levels and/or ornithine decarboxylase (ODC) activity. The single unifying factor that links most of these studies is that they all, in some way, involve tissues that are undergoing relatively rapid cell division. Non-dividing cells expressing the NMDA receptor are a notable exception in that ethanol and the polyamines seem to act via discrete regions of that receptor. Under most cellular conditions, ODC activity is a reflection of the relative tissue polyamine content, and an increase in ODC activity and polyamine content seems to be one of the early events in the progression of quiescent cells toward cell division. Thus, it is not surprising that ethanol, which has been widely reported to delay cell division, should be found to interact with the ODC/ polyamine pathway. Perhaps the most unique aspect of these studies is the fact that, with rare exception, both acute and chronic ethanol exposure have been found to slow growth and to lower tissue polyamine (putrescine) content. Furthermore, in most studies, the ethanol-induced suppression of cell division could be overcome by the administration of exogenous putrescine. These data suggest that the ethanol-induced suppression of cell division resulted from the loss of putrescine. In addition, because the cells were able to respond to the exogenous putrescine, the studies suggest that the signaling pathway remained intact beyond the polyamine synthesis step. Increased ODC activity (and polyamines?) has been reported during the perinatal and postnatal periods in fetal animals exposed to ethanol during early development. Although not examined in all models, the perinatal/postnatal increase in fetal ODC activity may be a compensatory response to an initial loss of ODC activity, as the organism attempted to overcome the alcohol-induced growth suppression.     

Chronic Lipid Hydroperoxide Stress Suppresses Mucosal Proliferation in Rat Intestine: Potentiation of Ornithine Decarboxylase Activity by Epidermal Growth Factor

We recently demonstrated that chronic exposure of rat intestine to sublethal levels of peroxidized lipids suppresses ornithine decarboxylase (ODC) activity, consistent with attenuated intestinal proliferation. The current study was designed to better understand the influence of exogenous epidermal growth factor (EGF) on intestinal proliferation in normal intestine and intestine that was challenged by oxidative stress induced by dietary consumption of peroxidized lipids. Male Sprague-Dawley rats (250-300 g) were fed standard chow (control) or peroxidized lipid chow for 4 weeks. EGF was injected intraperitoneally at a dose of 40 microg/kg. Intestinal proliferation was evaluated by ODC activity in fed or fasted states and at specified times during the circadian phase. Chronic peroxide consumption significantly attenuated ODC activities in association with increased tissue peroxide content. The suppressed ODC activities were restored to control values by EGF in the small intestine; in the colon, EGF increased ODC activity threefold over control rats given EGF. This elevated colonic ODC activity was correlated with decreased tissue GSSG and an increased GSH/GSSG ratio. These results show that EGF administration reverses the suppression of intestinal ODC activities induced by chronic peroxidized lipid intake. In contrast, EGF significantly elevates proliferative activity in the peroxide-stressed colon. This exaggerated proliferation may contribute to a better understanding of colonic susceptibility to oxidant-induced malignant transformation.     

Oral Insulin Up-regulates Toll-like Receptor 4 Expression and Enhances Intestinal Recovery Following Lipopolysaccharide-induced Gut Injury in a Rat

In the present study, we evaluated the protective effect of oral insulin (OI) on intestinal mucosa following lipopolysaccharide-induced intestinal damage in a rat. Male Sprague-Dawley rats were divided into three experimental groups: Sham rats, LPS-rats that were treated with lipopolysaccharide (LPS), and LPS-INS rats that were treated with OI given in drinking water 72 h before and following injection of LPS. Intestinal structural changes, enterocyte proliferation, enterocyte apoptosis, and mucosal expression of Toll-like receptor 4 (TLR4) were determined 24 h after the last LPS injection. LPS-INS animals showed a significantly greater bowel and mucosal weight in jejunum and ileum, mucosal DNA and protein in jejunum and ileum, villus height in ileum, crypt depth in jejunum and ileum, cell proliferation rates in jejunum, and significantly lower apoptotic index in ileum compared to LPS- animals. LPS rats demonstrated 50% increase in TLR4 expression in jejunum compared to sham animals. Treatment with OI resulted in a three-fold increase in TLR4 expression in jejunum, compared to LPS animals. In conclusion, OI improves intestinal recovery after LPS endotoxemia in a rat.     

The trophic effect of epidermal growth factor on morphological changes and polyamine metabolism in the small intestine of rats

This study was undertaken to evaluate the effect of epidermal growth factor (EGF) on the morphological changes and polyamine metabolism in the atrophic small intestinal mucosa of rats caused by feeding elemental diet (ED; Elental^?, Ajinomoto, Tokyo) for several weeks. Four-week-old Wistar male rats were given ad libitum ED (1 kcal/ml) for 4 weeks. The body weight increased to the same extent as the control group fed a pellet diet. However, the small intestine became atrophic: the mucosal wet weight of the jejunum decreased to 70%, while that of the ileum decreased to 60%. EGF (10 Μg/kg) was subcutaneously injected into these rats every 8 hours. Ornithine decarboxylase (ODC) activities of the jejunal and ileal mucosa rose within 12 hours of the initial EGF administration. Mucosal DNA specific activities tended to increase. Next, EGF (30 Μg/kg/day) was intraperitoneally administered with a Mini-osmotic pump for one week. The wet weight, protein and DNA contents of the ileal mucosa increased significantly compared with those of the saline administered controls, while the crypt cell production rate (CCPR) also increased. Histologically, increases in both villus height and crypt depth were confirmed. These findings indicate that EGF causes mucosal proliferation through polyamine metabolism even in the atrophie small intestine of mature rats after ED administration for 4 weeks.     

Stimulation of hepatic and renal ornithine decarboxylase activity by selected amino acids

The activity of ornithine decarboxylase (ODC), the rate-limiting enzyme in polyamine synthesis, increases after a protein meal. The effect of amino acid mixtures on hepatic and renal ODC activity and polyamine content was studied in postabsorptive and 72-hour fasted rats. Fasting decreased ODC activity in liver and in kidney by approximately 50%. Hepatic ODC activity increased tenfold 4 hours after intraperitoneal injection of either 1 g/kg of a synthetic mixture of 17 amino acids or of casein hydrolysate to fed rats and about 20-fold in fasted rats. Renal ODC activity increased four- and tenfold respectively. A mixture of glutamate, aspartate, and alanine at concentrations given in the hydrolysate reproduced the full amino acid effect. No amino acid was effective when given alone, nor were mixtures of the other amino acid constituents of the hydrolysate. Glutamate + alanine was ineffective as were glucose or various combinations of arginine, ornithine, aspartate and NH₃. Ornithine + glutamate or aspartate + glutamate were active but stimulated less than aspartate + glutamate + alanine. Hepatic and renal putrescine content increased in parallel with ODC activity. The data suggest that specific amino acids possess the full ODC-stimulating capability of a high quality protein and that polyamine synthesis is linked to urea cycle activity.     

Chronic exposure to subtoxic levels of peroxidized lipids suppresses mucosal cell turnover in rat small intestine and reversal by glutathione

Oxidative challenge can compromise intestinal growth and death responses. This study examines the effect of chronic consumption of subtoxic levels of peroxidized lipids on intestinal redox balance and turnover and the effect of glutathione (GSH) supplementation. Male Sprague-Dawley rats were fed standard rat chow or 4% peroxidized menhaden oil chow (2–8 weeks). Intestinal GSH and glutathione disulfide (GSSG), GSH synthetic and redox enzymes as well as proliferative (ornithine decarboxylase, ODC) and apoptotic activities were evaluated. Chronic peroxide intake did not affect overall animal growth, but decreased intestinal GSH/GSSG ratio that directly correlated with decreased GSH and increased GSSG, and suppressed peak circadian ODC activities and postprandial mucosal apoptosis. Supplementation with GSH restored the mucosal GSH/GSSG ratio and abrogated the peroxide-induced suppression of intestinal cell turnover. Collectively, the results show that chronic lipid peroxide consumption induces intestinal GSH redox imbalance that interferes with regulation of enterocyte death and proliferation in vivo. These disruptive effects of lipid peroxides were reversed by GSH supplementation in accordance with the normalization of tissue GSH/GSSG redox balance.