Energy-rich phosphates and transintestinal transport in rat intestine incubated in vitro at different temperatures.

In the present work, the transported fluid and the tissue content of ATP, ADP and AMP has been evaluated in the jejunum rat intestine which was everted and incubated in vitro both at 28 degrees C and at 38 degrees C for 1 h. The energy-rich phosphates have been measured in the tissue at the beginning and at the end of the experiment as well as in vivo. These determinations have been made in the total intestine and in the scraped mucosa. ATP and ADP content are higher in vivo and lower but constant at 28 degrees C in vitro; on the contrary, at 38 degrees C in vitro, the initial and final content of these adenilic nucleotides are both lower than at 28 degrees C. Under all these conditions the AMP content does not vary appreciably. Wet weight to dry weight ratios ahve been reported for mucosal and submucosal tissues in unincubated and incubated intestines. In some experiments, fluid transport (measured as an actual serosal volume increase) was determined every 20 min during a 1-h incubation. At 28 degrees C, fluid transport is constant throughout the time of the experiment, but at 38 degrees C, there is a progressive decrease of the transported fluid. Fluid transport and ATP content of the intestine seem to be directly related. The transport activity which is lower at 38 degrees C than at 28 degrees C, seems to be due to a low availability of energy-rich phosphates.     

Energy-rich phosphates and transintestinal transport in rat intestine incubated in vitro at different temperatures

In the present work, the transported fluid and the tissue content of ATP, ADP and AMP has been evaluated in the jejunum rat intestine which was everted and incubated in vitro both at 28°C and 38°C for 1 h. The energy-rich phosphates have been measured in the tissue at the beginning and at the end of the experiment as well as in vivo. These determinations have been made in the total intestine and in the scraped mucosa. ATP and ADP content are higher in vivo and lower but constant at 28°C in vitro; on the contrary, at 38°C in vitro, the initial and final content of these adenilic nucleotides are both lower than at 28°C. Under all these conditions the AMP content does not vary appreciably.Wet weight to dry weight ratios have been reported for mucosal and submucosal tissues in unincubated and incubated intestines.In some experiments, fluid transport (measured as an actual serosal volume increase) was determined every 20 min during a 1-h incubation. At 28 °C, fluid transport is constant throughout the time of the experiment, but at 38 °C, there is a progressive decrease of the transported fluid.Fluid transport and ATP content of the intestine seem to be directly related. The transport activity which is lower at 38 °C than at 28°C, seems to be due to a low availability of energy-rich phosphates.     

Jejunal Creatine Absorption: What is the Role of the Basolateral Membrane?

The mechanism of the intestinal creatine absorption is not well understood. Previous studies have established the involvement of a CT1 carrier system in jejunal apical membrane. The current research was aimed at completing the picture of creatine absorption. To investigate the process supporting creatine exit from enterocyte, basolateral membrane vesicles isolated from rat jejunum were used. The presence of various symport and antiport mechanisms was searched and a NaCl-dependent electrogenic transport system for creatine was evidenced, which shares some functional and kinetic features with the apical CT1. However, Western blot and immunohistochemical experiments ruled out the presence of a CT1 transporter in the basolateral membrane. Further studies are required to identify the basolateral transport mechanism. However, in the in vivo conditions, the NaCl gradient is inwardly directed, therefore such a mechanism cannot energetically mediate the exit of creatine from the cell into the blood during the absorptive process, but rather it may drive creatine into the enterocyte. To shed more light on the creatine absorption process, a possible creatine movement through the paracellular pathway has been examined using the jejunal tract everted and incubated in vitro. A linear relationship between creatine transport and concentration was apparent both in the mucosa-to-serosa and serosa-to-mucosa directions and the difference between the two slopes suggests that paracellular creatine movement by solvent drag may account for transintestinal creatine absorption. As a matter of fact, when transepithelial water flux is reduced by means of a mucosal hypertonic solution, the opposite creatine fluxes tend to overlap. The findings of the present study suggest that paracellular creatine movement by solvent drag may account for transintestinal creatine absorption.     

Ouabain-insensitive transintestinal transport in the rat jejunum incubated in vitro

The jejunal tract of rat intestine, everted and incubated in vitro at 28 degrees C for 2 hr in Krebs-Ringer bicarbonate solution, was used to test the existence of a ouabain-insensitive sodium pump. Cell water, Na, and K together with Na, fluid, K, and lactate transported into the serosal compartment were determined and, under control conditions, the tested parameters were found constant in time. By blocking the Na-K pump with 20 mM ouabain in the serosal compartment, the enterocyte lost K and gained Na, but the cell volume did not vary. Moreover, the transport of Na, fluid, and lactate, although lower, was constant for 2 hr. When ethacrynate was added or when the ATP supply was blocked by adding 2,4-dinitrophenol plus iodoacetate, the cell swelled and the transport of Na and fluid stopped. These results are interpreted as suggesting the existence of a ouabain-insensitive Na pump, in addition to the well-known Na-K pump.     

In vivo and in vitro sugar transport in frog intestine

In the frog intestine, both in vitro and in vivo, experiments were carried out in order to increase knowledge of the mechanism of sugar exit across the basolateral membrane of the enterocyte. The frog intestine was chosen because it lacks crypt cells and, consequently, any external fluid circuit mechanism during sugar transport can be avoided. Therefore, the sugar concentration in the absorbate collected on the serosal side is likely to be similar to that present underneath the basolateral membrane of the enterocyte. Under this condition, cell and absorbate sugar concentrations are similar; yet there is a concomitant net transintestinal sugar transport. Moreover, in in vivo experiments a net transintestinal sugar transport takes place even against a concentration difference. These results suggest that sugar exit across the basolateral membrane is not simply due to a chemically facilitated diffusion.     

Interrelationship of glutathione–cystine transhydrogenase and glutathione reductase in developing rat intestine

1. Glutathione reductase and glutathione-cystine transhydrogenase activity in supernatant fractions of whole homogenates and homogenates of mucosal and muscular layers were determined in developing rat intestine after determination of the optimum conditions for assay of the two enzymes. In jejunum from adult rat, the K(m) values for GSSG reductase and GSH-cystine transhydrogenase activities were 0.25mm-GSSG and 0.23mm-cystine respectively. 2. The two activities could be differentiated by stability studies since GSSG reductase was stable at 60 degrees C for 10min and could be stored at 4 degrees C for 24h without loss of activity. GSH-cystine transhydrogenase, on the other hand, was denatured at 60 degrees C and completely inactive after 24h storage at 4 degrees C. 3. Based on calculations of total activities, both enzymes increased from the eighteenth day until the animals were young adults. 4. Total GSSG reductase activity increased at a greater rate with age than total GSH-cystine transhydrogenase activity as evidenced by activity ratios for GSH-cystine transhydrogenase/GSSG reductase of 0.44 and 0.12 in ileum from suckling and adult rats respectively, and 0.31 and 0.24 in jejunum from suckling and adult rats respectively. 5. In mucosa from adult rats GSSG reductase was more active in the ileum than in the jejunum, whereas GSH-cystine transhydrogenase activity was higher in the jejunum. 6. GSH-cystine transhydrogenase was active only in the muscle cells of the ileum of 7-day-old rats but became localized primarily in the mucosal layer in the adult rat. However, GSSG reductase activity was distributed evenly between the two layers throughout the intestine.     

Protein synthesis and secretion by hamster, rat and mouse jejunum

The synthesis and secretion of [35S]methionine-labelled proteins by hamster, rat and mouse jejunum has been measured in vitro after 60 min incubation in culture medium. Twenty-three major bands of radioactively labelled proteins were detected by PAGE analysis of enterocyte extracts. Three of these proteins having mol. wts of 28,000, 43,000 and 60,000 appeared to be synthesised preferentially by older enterocytes. A small number of radioactively labelled proteins also appeared in culture medium at the end of incubation. Three of these proteins, accounting for most of the recovered radioactivity, had mol. wts of 28,000, 43,000 and 60,000. Secretion of these proteins was inhibited by monensin. Further experiments showed these secreted proteins to be acidic and possibly glycoprotein in nature. Their rapid turnover, selective secretion and changing abundance in enterocytes of different ages all suggest that they may have important functions to perform in the intestine.     

Uranyl action on sugar transport across rat jejunum

The effect of uranyl on sugar transport across rat jejunum has been studied in vitro and in vivo. D-glucose and D-galactose accumulation in jejunum rings at pH 6.0 is inhibited about 40-65% by 1 mM uranyl nitrate. This inhibition is lower than that produced by 0.5 mM phlorizin. The effect was very similar when the incubation of the rings with the sugar was made in the absence of uranyl, after preincubation with the inhibitor. Washing with 10 mM EDTA reverted uranyl inhibition only slightly. D-fructose entry was weakly inhibited by uranyl. Glucose absorption in vivo along perfusion periods of 1 min was not affected by the presence of uranyl (0.001 to 1 mM) in the sugar solution, but the exposure of the mucosa to 0.1 mM uranyl at pH 6.5 for 10 min inhibited sugar absorption at the same pH in the subsequent periods of perfusion. Results suggest that uranyl impairs sugar transport by binding to protein chemical groups at the surface or in deeper sites of enterocyte membranes, a process that requires some minutes to be accomplished.     

Effects of peptide molecular mass and PEG chain length on the vasoreactivity of VIP and PACAP(1-38) in pegylated phospholipid micelles

Bioactive properties of certain amphipathic peptides are amplified when self-associated with sterically stabilized micelles (SSM) composed of polyethylene glycol (PEG)-conjugated phospholipids. The purpose of this study was to determine the effects of amphipathic peptide molecular mass and PEG chain length on vasoreactivity evoked by vasoactive intestinal peptide (VIP), a 28-amino acid neuropeptide, and pituitary adenylate cyclase-activating peptide(1-38) (PACAP(1-38)), a 38-amino acid neuropeptide, associated with PEGylated phospholipid micelles in vivo. Both peptides were incubated for 2 h with SSM composed of PEG with molecular mass of 2000 or 5000 grafted onto distearoyl-phosphatidylethanolamine (DSPE-PEG2000 or DSPE-PEG5000) before use. We found that regardless of peptide molecular mass, PEG chain length had no significant effects on peptide-SSM interactions. Using intravital microscopy, VIP associated with DSPE-PEG5000 SSM or DSPE-PEG2000 SSM incubated at 25 degrees C evoked similar vasodilation in the intact hamster cheek pouch microcirculation. Likewise, PACAP(1-38)-induced vasodilation was PEG chain length-independent. However, SSM-associated PACAP(1-38) evoked significantly smaller vasodilation than that evoked by SSM-associated VIP (P < 0.05) at 25 degrees C. When the incubation temperature was increased to 37 degrees C, SSM-associated PACAP(1-38)-induced vasodilation was now similar to that of SSM-associated VIP. This response was associated with a corresponding increase in alpha-helix content of both peptides in the presence of phospholipids. Collectively, these data indicate that for a larger amphipathic peptide, such as PACAP(1-38), greater kinetic energy or longer incubation period is required to optimize peptide-SSM interactions and amplify peptide bioactivity in vivo.     

The effect of CdCl2 on the respiration of rat small intestine mucosa

Process of oxygen consumption of rat small intestine have already been studied at the level of whole intestinal wall or mucosa only by means of manometric or polarographic methods. The influence of cadmium on mucosal respiration of three sections of rat small intestine was determined because of its toxicological importance. Oxygen consumption was measured polarographically with Clark electrode at 38 degrees C in Krebs Ringer phosphate medium with 0.011 mol/l glucose. Control as well as cadmium affected respiration values were measured one after the other on the same mucosa. High cadmium concentration (applied as CdCl2) that is 2.2 and 1.4 . 10(-2) mol/l significantly inhibited the respiration in duodenum, jejunum and ileum. Observed inhibition of 80 and 50% on the average approximately for these two concentrations was related (similarly as following effects) to 100% value of control respiration. Concentrations 7.8 and 4.5. 10(-3) mol/l caused mostly lower inhibition of oxygen consumption (with the exception of significant 53% inhibition of jejunal respiration for 7.8. 10(-3) mol/l CdCl2). Low concentrations 10(-4) - 10(-6) mol/l CdCl2 had either no effect or stimulated oxygen uptake in intestinal mucosa. In older rats (weight 300-350 g) the respiration of duodenal and jejunal mucosa was inhibited with cadmium chloride concentration of 10(-6) mol/l.     

Phospholipid profile of rat testis, its unique high level of monolysocardiolipin and its lipolytic capabilities in vitro. A chromatographic analysis

The phospholipid profiles of testes and heart of 1-, 3-, and 6-month-old rats and their in vitro response to the endogenous phospholipases at pH 7.4 and 38 degrees C for 60 min were analyzed by TLC technology and densitometry. A noticeable high level of monolysocardiolipin (MLCL) was shown in rat testes of all samples analyzed (1-, 3-, and 6-month-old), both control and incubated. In contrast, rat heart control samples revealed a high level of CL and no MLCL was detected. MLCL was only produced subsequent to in vitro incubation of whole tissue homogenate at pH 7.4 and 38 degrees C for 60 min, with concurrent reduction of CL. Alkenyl phosphatidyl ethanolamine (PE) was the major plasmalogen of rat testes. Following in vitro incubation, (a) a very low level of lyso PE plasmalogen was produced only in 3- and 6-month-old rat testes, (b) ceramide was also produced in all testes analyzed with concurrent reduction of sphingomyelin indicating the action of sphingomyelinase. These data clearly illustrate, for the first time, the presence of high levels of MLCL in all rat testes studied which probably is related to the physiological activity in vivo and requires further investigation.     

Ouabain-insensitive active sodium transport in rat jejunum: Evidence from ATPase activities,Na uptake by basolateral membrane vesicles and in vitro transintestinal transport

The basolateral membrane of the jejunal enterocyte of the rat was separated by self-orienting Percoll-gradient centrifugation and further purified from brush border contamination. Pellets were analysed for Mg-, Na- and (Na, K)-ATPase activities. The uptake of 0·02 M NaCl was also followed by the rapid micro-filtration technique. Transintestinal transport of fluid and electrolytes, and cell water, Na and K were determined in the in vitro everted and incubated jejunum. There is ouabain-insensitive Na-ATPase in addition to the well-known (Na, K)-ATPase in the basolateral membrane. These are differently inhibited by furosemide and ethacrynate. Na uptake by osmotically active basolateral membrane vesicles is enhanced by ATP and a further enhancement is obtained if there is intravesicular K. The ATP effect is inhibited differently by strophanthidin, furosemide and ethacrynate. In the everted sac preparation, transintestinal transport of Na and fluid still occurs when the Na/K pump is totally inhibited by ouabain. These experimental results suggest that there is also a ouabain-insensitive Na pump, different from the Na/K pump, in the basolateral membrane.     

2'5'-Oligoadenylate Polymerase Activity in the Rat Small Intestine

2'5'-Oligoadenylates are potent protein synthesis inhibitors: they are synthesized by a polymerase which was first described in interferon-treated cells. This system may also be involved in a normal process of cell proliferation and differentiation, in the absence of any viral infection. The small intestine enterocyte has been investigated as a model to test this hypothesis. The presence of 2'5'-oligoadenylate polymerase activity is demonstrated in the intestinal mucosa of normal adult rats. The distribution of this enzyme, and of the enzymes degrading 2'5' oligoadenylates have been investigated on enterocyte pools selectively extracted, under mild conditions, from the different parts of the rat small intestine. Similar results were obtained with enterocytes extracted from the mucosa of germ-free animals.     

Isolation of rat intestinal crypt cells

A technique is presented which yields single cells and intact crypts in suspension from unfixed rat intestinal mucosal epithelium. Everted lengths of intestine were digested by 27 mM sodium citrate in phosphate-buffered saline (pH = 7.3) at 37 degrees C. Mucosal cells were dislodged by vibratory stress (hand vortexing) following incubation for prescribed intervals at 37 degrees C in 1.5 mM ethylenediamine tetraacetic acid (EDTA) and 0.5 mM dithiothreitol (dtt). Alkaline phosphatase determinations, phase microscopy, and in vivo and in vitro evaluations of tritiated thymidine ([3H]TdR) incorporation were performed on isolated intestinal cells. Data indicate that cells were sequentially derived from villus tip to crypt base as judged by cellular morphology, alkaline phosphatase activity/mg protein and radioactivity per microgram protein. Upon completion of the intestinal cell isolation assay, scanning electron microscopy of the remaining intestine revealed that approximately 95% of the crypt openings were vacant; the villi were totally denuded; the supporting structures, including the lamina propria, appeared intact. In vitro radiolabelling of intestinal cell fractions enriched with crypts revealed a linear incorporation of [3H]TdR from 0-60 min which was strongly influenced by the presence of foetal calf serum (FCS). Measurements of the compensatory response of the mucosa to resection of 70% of the small bowel indicated that the mucosal cell separation is capable of detecting alterations in crypt cell proliferation. Previously, such alterations were monitored by other methods utilizing microdissection procedures or stathmokinetic agents.     

The effect of incubation temperature on the maintenance of rat palatal mucosa in organ culture

The effect of incubation temperature on the behavior of neonatal rat palatal mucosa maintained in a chemically defined medium in organ culture for periods up to 7 days was investigated. Explant survival was optimal at 37 degrees C with increasing mortality at temperatures of 34 degrees C and 30 degrees C. There was a transient increase in the epithelial mitotic activity at all temperatures, but at all time intervals mitotic activity was greatest at 37 degrees C. While the mitotic activity at 37 degrees C after 5 hr in vitro was comparable with previously described in vivo values, it was subsequently increased, only returning to values approximating those at the start of the experiment at 6 days. At 30 degrees and 34 degrees C the epithelial mitotic activity increased more slowly than at 37 degrees C; then it followed a similar pattern with time and after 5 days in vitro had fallen to values approximating initial values. At the cut edges of the explants, the rate of epithelial migration and subsequent keratinization increased with increasing temperature. It is suggested that survival of neonatal rat palatal mucosa is optimal in this organ culture system when maintained at 37 degrees C.     

Kinetics of intestinal sugar transport, in vivo

Sugar absorption by the small intestine has been studied in rat and hamster in vivo, with luminal perfusion, during 1 minute successive periods. Transport is calculated as the difference between absorption and diffusion. The diffusion component is evaluated in the presence of phlorizin or as absorption of sorbose. The resulting KT values for glucose and galactose (rat: 7.7 and 10 mM; hamster: 10 and 14 mM) and 3-0-methyl-glucose (hamster: 25-33 mM) are quite lower than those previously obtained in vivo, but still higher than those in vitro. The physiological levels of glucose in the intestine of normally fed animals imply that the diffusion component plays an important role in the proximal regions of the small intestine, especially in rat.     

Chitosan nanoparticle as gene therapy vector via gastrointestinal mucosa administration: results of an in vitro and in vivo study

This study was designed to investigate the in vitro and in vivo transfection efficiency of chitosan nanoparticles used as vectors for gene therapy. Three types of chitosan nanoparticles [quaternized chitosan -60% trimethylated chitosan oligomer (TMCO-60%), C(43-45 KDa, 87%), and C(230 KDa, 90%)] were used to encapsulate plasmid DNA (pDNA) encoding green fluorescent protein (GFP) using the complex coacervation technique. The morphology, optimal chitosan-pDNA binding ratio and conditions for maximal in vitro transfection were studied. The in vivo transfection was conducted by feeding the chitosan/pDNA nanoparticles to 12 BALB/C-nu/nu nude mice. Both conventional and TMCO-60% could form stable nanoparticles with pDNA. The in vitro study showed the transfection efficiency to be in the following descending order: TMCO-60%>C(43-45 KDa, 87%)>C(230 KDa, 90%). TMCO-60% proved to be the most efficient and the optimal chitosan/pDNA ratio being 3.2:1. In vivo study showed most prominent GPF expression in the gastric and upper intestinal mucosa. GFP expression in the mucosa of the stomach and duodenum, jejunum, ileum, and large intestine were found, respectively, in 100%, 88.9%, 77.8% and 66.7% of the nude mice examined. TMCO-60%/pDNA nanoparticles had better in vitro and in vivo transfection activity than the other two, and with minimal toxicity, which made it a desirable non-viral vector for gene therapy via oral administration.     

Processing and transfer of epidermal growth factor in developing rat jejunum and ileum

Using everted sac technique we demonstrated the transfer of ¹²⁵I-mEGF across the jejunal and ileal walls of suckling, weanling and adult rats. The transfer by the suckling rat jejunum and ileum was significantly inhibited by the presence of dinitrophenol and sodium azide or by the replacement of sodium with potassium or choline. RP-HPLC analysis detected carboxy-terminal processing of ¹²⁵I-mEGF in suckling and adult rat jejunum and ileum. Suckling rat jejunum produced ¹²⁵I-des(53)mEGF and ¹²⁵I-des(49–53)mEGF, whereas ¹²⁵I-des(48–53)mEGF was detected in suckling rat ileum or adult rat jejunum and ileum. All three forms of ¹²⁵I-mEGF bound to anti-EGF antibody and EGF receptors. The receptor binding of ¹²⁵I-des(53)mEGF was higher than that of ¹²⁵I-mEGF, but those of ¹²⁵-des(49–53)mEGF and ¹²⁵I-des(48–53)mEGF were greatly diminished. Results indicate a carboxy-terminal processing of mouse EGF during uptake and transfer in the small intestine of developing and adult rats, and the resulting products showed altered receptor binding. An identical amino acid sequence of the C-terminal pentapeptide of EGF from mouse, human and possibly rat may suggest a biological significance of C-terminal processing of EGF in the small intestine.     

Hypothermia enhances bcl-2 expression and protects against oxidative stress-induced cell death in Chinese hamster ovary cells.

Oxidative stress is one of the major causes of cellular injury. Various reactive oxygen (ROS) and nitrogen (RNS) species such as superoxide, hydroxyl radical, peroxynitrite, and nitric oxide are involved in the manifestations of different types of organ toxicity and the resultant syndromes, symptoms, or diseases. Hypothermic conditions have been reported to reduce the oxidative stress in various in vitro and in vivo studies. In the present study, we sought to determine the effect of lowered temperatures on oxidative stress-induced cell death in Chinese hamster ovary (CHO) cells. We also investigated the oxidative stress-induced alterations in the expression of anti-apoptotic protein, bcl-2, in CHO cells at lowered temperatures. CHO cells were incubated at four different temperatures of 30, 32, 35, and 37 degrees C (control temperature) from 1 to 4 d. In another set, the cells were incubated with 100 microM hydrogen peroxide (H(2)O(2)) for 30 min before harvesting at different time points. The cells were harvested at 1, 2, 3, and 4 d. Cell survival was significantly higher at 30 degrees C as compared to 37 degrees C over 4 d of incubation. In cells incubated with H(2)O(2), significantly higher cell viability was observed at lower temperatures as compared to the cells incubated at 37 degrees C. The activity of glutathione peroxidase (GSH-Px) also increased significantly at lower temperatures. Lowered temperature also provided a significant increase in the expression of anti-apoptotic protein, bcl-2 after 4 d of incubation. These data suggest that hypothermic conditions lowers the risk of oxidative stress-induced cellular damage and programmed cell death by increasing the activity of GSH-Px and by the induction in the expression of the anti-apoptotic protein, bcl-2.