Effect of weaning terms and protein deficit in rat pup nutrition on activities of digestive enzymes

Restriction of protein in nutrition of rat pups weaned at different terms has been found to produce changes in activities of digestive enzymes (maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in the small and large intestine both at once after cessation of nutrition with low-protein diet for 10 days and 4 months later. In adult animals after the earlier or later weaning there are observed not only a decrease or increase of the enzyme activities, but also a different type of distribution of the alkaline phosphatase activity along the small intestine, which is more pronounced in the lately weaned rats. Thus, disturbance of metabolic programming of enzyme systems of the small and large intestine due to a change of quality of nutrition in early ontogenesis depends on terms of weaning of animals.     

Activities of digestive enzymes in rats kept on standard or excessive breast feeding and on low-protein diet at once after weaning

Activities of digestive enzymes (maltase, alkaline phosphatase, aminopeptidase M, and glycyl-L-leucine dipeptidase) in small and large intestine, liver, and kidney were studied in rats of different ages kept at the period of lactation under conditions of the standard (8 individuals per litter) and low (3 individuals) number of pups per litter. The low-protein diet for 10 days at once after weaning was found to change the mass of organs and their digestive enzyme activities in all studied rat groups. The revealed changes were more prominent in rats kept under conditions of excessive breast feeding. In adult animals of this group, distribution of the alkaline phosphatase activity along the small intestine differed from that in control rats. The obtained results seem to confirm that any disturbance of the nutrition quality in early ontogenesis leads to disturbance of the «metabolic programming of enzyme systems» of digestive organs.     

Activities before and after stress of digestive enzymes in rats separated at different time from lactating females

The effect of separation of rat pups from lactating females at different time after birth (at the 18th, 21st, 30th, 36th or 43rd day) and stress exposed at the day of the experiment (at the 75th day of life) or twice (at the day of weaning and at the day of the experiment) on activities of membrane-bound (invertase, alkaline phosphatase, aminopeptidase M) and predominantly intracellular (glycyl-L-leucine dipeptidase) enzymes was studied in different parts of intestine of rats (males and females). A change of the enzyme activities has been shown for the first time in the animals separated from lactating females not only at early time, which has already been known, but also at later time, in comparison with their activities in the animals weaned at usual time, at the 30th day of life. The preliminary stress of rat pups at the day of separation from lactating females promotes in many cases a reduction of the response to the stress, to which the animal is exposed in the adult period of life. Deceased.     

Transient changes of enzyme activities and expression of stress proteins in the small intestine of piglets after weaning

To determine the transient effects of weaning on the small intestine, 16 piglets were slaughtered at days 0, 1, 4 and 7 after weaning. Jejunal samples were collected to examine different enzyme activities and mRNA expressions of two stress protein families, namely, heat-shock proteins (HSP) and trefoil factors (TFF). Results showed that the activities of ceruloplasmin, alkaline phosphatase and lactate dehydrogenase, were significantly changed at Day 1 and/or Day 4. The mRNA expressions of HSP10, HSP60 and HSP90 showed a pattern of increased expression with time after weaning. Expression significantly differed between Day 0 and Day 7 after weaning. The mRNA expression of HSP70 was significantly increased on Day 1 only. Similarly, the mRNA expressions of TFF1 and TFF2 were significantly increased on Day 7 compared with those on Day 0. Expression of TFF3 was not affected by time after weaning. In conclusion, the present study indicated that weaning induced transient injury to small intestinal morphology and function. Particularly it changed enzyme activities and gene expression of stress proteins in the small intestine of piglets. At first time, a change in the gene expression of HSP10 and a gene overexpression of TFF1 in the small intestine of piglets after weaning was found.     

Activity of Digestive Enzymes in Small Intestine in Rat Pups Whose Mothers Were Kept on Low-Protein Diet during Pregnancy and Lactation

Nutrition of mother and offspring plays an important role in formation of enzyme spectrum in small intestine of developing organism. We have obtained different results with respect to effects of protein deficit in maternal nutrition during pregnancy and lactation on formation of different enzyme systems in offspring, which provide membrane and intracellular digestion. In some cases, the maximal changes of enzyme activities were found in the rat pups kept on a low-protein diet during the embryonic development (saccharase, dipeptidase), in other cases, in the rat pups on such nutrition at the period of early postnatal development (alkaline phosphatase). In the third case, the changes were practically the same for the both groups of animals (maltase).     

Membranous and Soluble Forms of Intestinal Enzymes in Rat Pups, Whose Mothers Were Kept on a Low-Protein Diet during Pregnancy or Lactation

Activities of membranous and soluble forms of disaccharidases, alkaline phosphatase, and aminopeptidase M in jejunum and ileum was studied in the 10-, 20-, and 30-day old rat pups, whose mothers were kept at the period of pregnancy or lactation on a low-protein diet. The protein deficiency in mother's nutrition is shown to be accompanied by significant changes in the ratio of two forms of these membrane-bound enzymes. The greatest changes of this parameter are found for maltase, alkaline phosphatase, and aminopeptidase M in the 10-day old rat pups, while for lactase, in rat pups of all age groups. In some cases the maximal changes of the enzyme activity are revealed in rat pups, whose mothers were on the low-protein nutrition at the period of pregnancy (for example, saccharase), in other cases, in rat pups, whose mothers obtained such feeding during lactation (alkaline phosphatase), in the third ones, the changes were practically identical in the both groups of animals (maltase, while in some age groups, aminopeptidase M). The absence of changes in action of some modificators on activities of both forms of the studied enzymes allows suggesting that structure and properties of the studied enzyme proteins in the offspring's small intestine seem to remain unchanged under conditions of protein deficiency in mother's nutrition.     

Activities of some metabolic enzymes in the small intestinal mucosa during pregnancy and lactation in the rat

The food intake, gut weight, gut length, mucosal protein and mucosal activities of alkaline phosphate (EC 3.1.3.1), acid phosphate (EC 3.1.3.2), isocitric dehydrogenase (EC 1.1.1.42) and glucose-6-phosphate (EC 3.1.3.9) were measured in rats during pregnancy, lactation and after the young were weaned. In general, the quantities measured increased slightly during pregnancy and considerably during lactation, reaching maximum values during the 3rd weeks of lacation and falling more or less rapidly after the young were weaned to the same levels as those in unmated animals. However, the gut length and mucosal protein remained higher even 3 weeks after weaning, so that weight per unit length and specific enzyme activities (per mg protein) tended to be lower in mated than in unmated rats. Changes in the specific activities of enzymes indicate alterations of the metabolic function of the enterocytes during breeding similar to changes reported for digestive enzymes. It is suggested that the intestine may reflect changes that take place in the liver.     

Short-term effects of spermine ingestion on the small intestine: a comparison of suckling and weaned rats

We have previously shown that spermine, shortly after its ingestion, can induce the alteration of the morphology of the small intestine of suckling rats. It was proposed that this alteration is due to polyamine accumulation inside the epithelial cells. This could also be related to the fact that the intestine of the suckling rat is in an immature state. To shed light on this issue, disaccharidase and alkaline phosphatase activity assays, protein, DNA and RNA content measurements and polyamine concentration analysis were performed on the small intestine of suckling and weaned Wistar rats treated with spermine. Spermine did not induce the same intestinal alterations in weaned rats compared to suckling animals. Indeed, in sucklings, spermine administration induced a decrease of the protein, DNA, putrescine and spermidine intestinal content, suggesting a cell loss. The cell loss impaired the activity of intestinal enzymes: lactase, maltase and alkaline phosphatase. In weaned rats, the same treatment did not alter these parameters. Exogenous spermine by itself is not sufficient to induce the alterations described here and previously. The maturity degree of the small intestine could be the basis of this process.     

Development of the small intestine in the hypophysectomized rat. I. Growth histology, and activity of alkaline phosphatase, maltase, and sucrase.

Rats hypophysectomized at 6 days of age continue to grow but at a subnormal rate. At 24 days, when maturation of the intestinal epithelium normally culminates, the intestine is disproportionately small. The crypts are shallow and the mitotic rate low. The villi are short, and they fail to achieve the broad, leaflike form found in controls. The absorptive cells acquire a deep subnuclear zone, and their surfaces apparently cease to carry on pinocytosis. Rough endoplasmic reticulum is however sparse, and the Golgi complexes are small and atypical in structure. Duodenal alkaline phosphatase remains at the low level characteristic of the neonatal intestine. Sucrase activity appears in the jejunum, and maltase activity increases slightly, but both activities are less than a third of those in intact animals at 24 days. If the pituitary is removed later than 6 days, enzyme activities are higher than after early ablation, but they remain deficient even when the operation is performed at 16 days.     

A possible mechanism for the changes in hepatic and intestinal alkaline phosphatase activities in bile-duct-ligated rats or guinea pigs

The effects of bile-duct ligation on hepatic and intestinal (jejunum) alkaline phosphatase activities were studied using rats and guinea pigs. In ligated rats, the enzyme activity was increased 4.1-fold in the liver after 24 h and 2.8-fold in the intestine after 12 h. In guinea pigs, the hepatic and intestinal enzyme activities were increased 2.3-fold and 1.5-fold after 100 and 24 h, respectively. The intestinal activity was induced sooner after ligation than hepatic activity. The induction of alkaline phosphatase was inhibited by prior treatment of animals with amanitin, an inhibitor of RNA polymerase activity. This result indicates that the induction is associated with de novo enzyme synthesis. The content of cyclic AMP in liver and intestine increased immediately after ligation. The increase in alkaline phosphatase activities was also inhibited by pretreatment with chlorpromazine, an inhibitor of adenylate cyclase activity. Hence, cellular cyclic AMP may be implicated in playing a role in the induction of alkaline phosphatase by bile-duct ligation.     

Kinetic characteristics of soluble and brush border alkaline phosphatase and sucrase activities in developing rat intestine: effect of hormones

Suckling rat intestine contains 35 and 65% of the cytosolic and membrane-bound alkaline phosphatase (AP) activities. The corresponding values for sucrase were 20 and 80% respectively. The amount of the soluble enzymes was reduced to 7-11% in adult rat intestine. Administration of cortisone, thyroxine or insulin to suckling animals induced adult type distribution of the enzymes. There were apparent differences in kinetic characteristics of soluble and brush border enzymes, but the kinetic properties of the normally developed and hormone-induced AP and sucrase were essentially similar. This suggested identical nature of these enzymes under these conditions. A biphasic Arrhenius plot was obtained for AP in weaned and hormone injected pups with a break point around 18 degrees C, while the soluble enzyme yielded a monophasic curve (Ea = 8-11 kcal/mole). Arrhenius plot for sucrase was monophasic in the suckling, hormone-injected and adult rat intestine (Ea = 8.3-15.1 kcal/mole). Membrane-bound enzymes were generally labile, while soluble enzyme activities were stable to heat treatment (sucrase at 50 degrees C and AP at 60 degrees C) in various experimental groups.     

Effects of urogastrone-epidermal growth factor and age at administration on five enzymes in the small intestine of suckling rats.

Suckling rats were given urogastrone-epidermal growth factor (EGF: 1,000 micrograms/kg body weight) or vehicle by gavage at one of three stages of development: 8 to 10, 11 to 13 or 14 to 16 days of age. Intubation was carried out at 8-hourly intervals over these periods. Fourteen to 16 h after the last intubation the rats were killed; that is, at 11, 14 and 17 days respectively. Samples of proximal and distal small intestine (SI) were taken for enzyme analysis. Five enzymes were assayed; sucrase, lactase, gamma-glutamyl transferase, alkaline phosphatase and neutral amino-peptidase, and their activities expressed per g protein. Treatment with EGF had no effect on body weight or on the length of the small intestine at any age. The nature of the effects on enzyme activities depended on the specific enzyme concerned, the site within the small intestine and the timing of the treatment. Lactase was increased by EGF at both sites only on day 14, whereas gamma-glutamyl transferase was increased in proximal samples at 11 and 14 days, and in distal samples at 17 days. Nor was the outcome always to increase activity. On day 11 alkaline phosphatase was increased in proximal SI, but decreased in distal SI; and so too was aminopeptidase N decreased in distal SI at 11 days. Sucrase showed no response at all. The pattern is complex. Certainly it does not indicate accelerated functional maturation.     

Intestinal disaccharidase and alkaline phosphatase activities in experimental rabbit mucoid enteropathy

Mucoid enteropathy was induced experimentally by ligation of the cecum, and the activities of mucosal disaccharidases and alkaline phosphatase were measured at different locations along the small intestine of the sick and control rabbits. In the duodenum of rabbits with mucoid enteropathy, the activity of acid beta-galactosidase II was elevated and hetero beta-galactosidase declined. In the jejunum, the activities of lactase, acid beta-galactosidase I and II, hetero beta-galactosidase, trehalase, sucrase and alkaline phosphatase were significantly lower in animals with mucoid enteropathy. In the ileum, acid beta-galactosidase II, hetero beta-galactosidase, maltase, trehalase, sucrase and alkaline phosphatase showed decreased activity in rabbits with mucoid enteropathy.     

Effect of bacterial monoassociation on brush-border enzyme activities in ex-germ-free piglets: comparison of commensal and pathogenic Escherichia coli strains

This study was designed to investigate the effect of monoassociation of germ-free piglets with Escherichia coli strains on the development of intestinal brush-border enzyme activities. Piglets were delivered by hysterectomy, reared for seven days under germ-free conditions and fed milk formula diet. One group was maintained germ-free, the other four groups were monoassociated on day eight with one of four E. coli strains: non-pathogenic O86 or O83 and G58-1, or pathogenic 933D. The development of brush-border digestive enzyme functions in the small intestine was evaluated after 15 days. Germ-free controls exhibited slower developmental declines of lactase, gamma-glutamyltranspeptidase and alkaline phosphatase, and delayed increases of sucrase and glucoamylase compared to conventionally grown animals. Association of germ-free piglets with the non-pathogenic E. coli strains O86 and O83 resulted in increased enterocyte differentiation along the length of the small intestine, accompanied by declining activities of lactase, gamma-glutamyltranspeptidase and alkaline phosphatase, and elevated activities of maturational markers such as sucrase and glucoamylase. Maturational changes also occurred along the villus-crypt axis, as revealed by histochemical localization of aminopeptidase N on the villi tips in piglets colonized with E. coli O83. Interestingly, colonization with the pathogenic E. coli strain 933D stimulated changes in the main differentiation enzyme markers lactase, sucrase and glucoamylase to an extent comparable with those produced by the non-pathogenic and probiotic E. coli strains. In conclusion, germ-free piglets represent a valuable tool to study the consequences of colonization of the immature sterile gut with defined strains of bacteria.     

Effect of fasting on Na-K-ATPase activity in rat small intestinal mucosa

The effect of fasting on mucosal Na-K-ATPase activity in various regions of rat small intestine was investigated. Fasting (17--48 h) was associated with a consistent decrease in specific and total activity of Na-K-ATPase in the jejunum, the levels tending to rise more distally. No effect on the specific activities of Mg-ATPase or alkaline phosphatase was found. Fasting was also associated with incresed adrenocortical activity and with decreases in mucosal mass, protein content, and histological dimensions of the jejunum, no similar changes being found in the distal small intestine. Glucose ingestion prevented the decrease in jejunal enzyme activity associated with fasting and elevated levels in the mid and terminal small intestine of fed animals. These effects suggest that Na-K-ATPase activity in small intestinal mucosa may be, in part, inducible.     

myo-inositol action on gerbil intestine: alterations in alkaline phosphatase activity upon phosphatidylinositol depletion and repletion in vivo

The influence of phosphatidylinositol (PI) on intestinal alkaline phosphatase activity was studied in myo-inositol deficient gerbils. A reduction of membrane PI in intestinal mucosa to 30-40% of the control was produced by feeding female gerbils a myo-inositol-deficient diet containing coconut oil for 2 weeks. As expected, the animals developed typical intestinal lipodystrophy with abnormal fat accumulation. In the PI-depleted animal, intestinal alkaline phosphatase activity was reduced to 20-30% of the control group. The levels of both membranous and soluble enzymes in intestinal mucosa were affected, but there were no changes in liver, kidney and plasma levels. When the lipodystrophic gerbils were given dietary myo-inositol, the complete repletion of intestinal membrane PI to the control level occurred 36 h later, whereas membrane-bound alkaline phosphatase activity in intestine was not restored to the control level until 72 h later. Administration of cycloheximide or actinomycin D did not block this enzyme induction. Lymphatic output of triacylglycerol into the bloodstream was stimulated 10-fold at 18 h of myo-inositol repletion, but there was no parallel increase in the activity of alkaline phosphatase in plasma during this early phase of intestinal recovery. Thus, these data suggest a possible regulatory role of PI in the processing and/or turnover of alkaline phosphatase in vivo, but a negative role of alkaline phosphatase in lipid transport across gerbil intestine.     

Activity of Peptide Hydrolases in Epithelial and Subepithelial Layers of Small Intestine of Rats of Different Age after Protein Deprivation

A significant decrease of protein content in epithelial, stromal, and muscular-serosal layers of jejunum and ileum, especially in aged animals, is revealed in rats of different age groups (young, mature, aged) after 10-day-long protein deprivation. The responses of peptide hydrolases (aminopeptidase M and glycylleucine dipeptidase) were different. There were, as a rule, no changes of these enzyme activities in small intestine of young rats, except for decreased activity of aminopeptidase M in stromal layer of jejunum and increased activity of both peptide hydrolases in epithelial layer of ileum. In mature animals, increased activities of these enzymes also was observed in the epithelial layer of jejunum and ileum and in the stromal layer of ileum in comparison with the rats receiving a full-value nutrition. In aged rats, a much more pronounced rise of these enzyme activities in the layers of small intestine was revealed after protein starvation in comparison with young and mature rats. Probably, such increase of the peptide hydrolase activities in the layers of small intestine after protein deprivation can be considered as an adaptive-protective reaction of the organism in response to formation of significant amounts of low-molecular peptides as a result of protein catabolism     

Lactobacilli as effectors of host functions: no influence on the activities of enzymes in enterocytes of mice.

Preparations of lactobacilli are often used as dietary supplements to improve the growth and efficiency in utilizing food of animals of commercial value. We tested in an experimental model whether the effects of lactobacilli on growth of and food utilization by animals may be due to alteration of the activities of absorptive enzymes in the small bowel. Germfree mice housed in isolators under tightly controlled conditions were monoassociated with one of four strains of indigenous Lactobacillus spp. From 1 to 5 weeks later, the activity of alkaline phosphatase was assayed in homogenates of segments of the upper small intestines of the associated animals and of matched germfree controls. The specific activity of the enzyme was the same in the mice in the two groups. In other experiments, epithelial cells were isolated from the upper small intestines of mice associated with eight Lactobacillus strains (octa-associated) and from those of matched germfree mice and assayed for alkaline phosphatase, phosphodiesterase, and thymidine kinase activities. The epithelial cells were harvested sequentially from the tips of the villi toward the crypts of Lieberkühn of the intestines. In all preparations, mice of both types yielded an equivalent mass (wet weight) of cells. The protein content of the cells reflected the mass. The activities of the microvillous membrane enzymes alkaline phosphatase and phosphodiesterase and the cytosol enzyme thymidine kinase were the same whether or not the animals contained the bacteria. Therefore, any effects on animal growth and food utilization observed when lactobacilli are used as dietary supplements may not be due to a direct alteration by the bacteria of the absorptive enzymes of the host animal.(ABSTRACT TRUNCATED AT 250 WORDS)     

Alterations in the activities of intestinal enzymes in vitamin-C-deficient guinea pigs

The effect of vitamin C deficiency on various enzymes of the intestinal epithelium has been studied in guinea pigs. Brush border sucrase and alkaline phosphatase activities were considerably enhanced (p less than 0.001), but leucine aminopeptidase levels were reduced in scorbutic animals compared to the control group. There was essentially no change in the activity of maltase under these conditions. Kinetic studies with sucrase and alkaline phosphatase in control and scorbutic animals revealed that augmentation of the enzyme activities in scurvy is due to enhanced enzyme contents. Lactate dehydrogenase, succinate dehydrogenase, glucose-6-phosphatase and Mg+2 ATPase also exhibited reduced activities in the intestine of vitamin-C-deficient animals. Observed alterations in the activities of intestinal enzymes in scurvy were restored to control levels upon feeding of vitamin C to scorbutic guinea pigs.