Influence of microbial species on small intestinal myoelectric activity and transit in germ-free rats

The effect of an intestinal microflora consisting of selected microbial species on myoelectric activity of small intestine was studied using germ-free rat models, with recording before and after specific intestinal colonization, in the unanesthetized state. Intestinal transit, neuropeptides in blood (RIA), and neuromessengers in the intestinal wall were determined. Clostridium tabificum vp 04 promoted regular spike burst activity, shown by a reduction of the migrating myoelectric complex (MMC) period from 30.5 +/- 3.9 min in the germ-free state to 21.2 +/- 0.14 min (P < 0.01). Lactobacillus acidophilus A10 and Bifidobacterium bifidum B11 reduced the MMC period from 27.9 +/- 4.5 to 21.5 +/- 2.1 min (P < 0.02) and accelerated small intestinal transit (P < 0.05). Micrococcus luteus showed an inhibitory effect, with an MMC period of 35.9 +/- 9.3 min compared with 27.7 +/- 6.3 min in germ-free rats (P < 0.01). Inhibition was indicated also for Escherichia coli X7 gnotobiotic rats. No consistent changes in slow wave frequency were observed. The concentration of neuropeptide Y in blood decreased after introduction of conventional intestinal microflora, suggesting reduced inhibitory control. Intestinal bacteria promote or suppress the initiation and aboral migration of the MMC depending on the species involved. Bacteria with primitive fermenting metabolism (anaerobes) emerge as important promoters of regular spike burst activity in small intestine.     

Travel stress alters the intestinal migrating myoelectric complex in rats: antagonist effect of trimebutine.

A novel stress model was developed that may closely resemble a real-life situation. Intestinal motility was monitored in rats before and after a 12 hour train voyage (travel stress). Travel stress reduced the duration of phase III of the intestinal MMC by 30% (3.2 +/- 0.3 vs 4.7 +/- 0.6 min; p less than 0.001) while the durations of phase I and II were unaffected. This effect persisted for two days. Phase III duration returned to basal values after 3 days indicating a reversible alteration on intestinal migrating myoelectric complex (MMC). The infusion of trimebutine at a flow rate of 166 micrograms/kg/h during the stress exposure abolished the changes observed in the duration of phase III of the MMC; the infusion of diazepam (16.6 micrograms/kg/h) had no effect. These results indicate that the travel stress model may be similar to common life events that induce alterations of intestinal motility. Furthermore, trimebutine prevented the reduction of phase III duration induced by travel stress suggesting its possible action on mechanisms involved in the mediation of the stress-induced intestinal motility changes.     

Migrating action potential complexes--a feature of normal jejunal myoelectric activity in the rat

To determine if migrating action potential complexes (MAPCs) are a feature of normal motility, Hooded-Lister rats (100-150 g) were surgically prepared with three pairs of bipolar jejunal electrodes spaced 2.5 cm apart and with a jejunostomy tube for motility recording. Animals were studied conscious and unrestrained on postoperative day 14 after an 18-h fast. Intestinal myoelectric and motor activity was recorded for a 1-h interval in 24 animals that continued to fast and in 12 animals that were allowed to feed for 10 min. Fasting rats had a jejunal slow wave frequency of 32 +/- 2 contractions/min which did not differ significantly after feeding. Migrating myoelectric complexes (MMC) were clearly identified in all fasting animals and had a cycle period of 10.0 +/- 3.6 min. MAPCs were seen during phase II in 83% of MMCs and had an average distribution of 4.2 +/- 3.9/MMC. Feeding abolished the MMC and initiated a continuous irregular pattern of electrical spiking and associated contractile activity. Migrating action potential complexes were seen after feeding with a frequency of 1.8 +/- 0.4/min. It is concluded that MAPCs are a common feature of normal interdigestive phase II and also of postprandial jejunal motility in the rat. This supports the hypothesis that the MAPC is a basic propulsive motor pattern intrinsic to normal intestinal function.     

Hymenolepis diminuta: praziquantel removal of adult tapeworms is followed by apoptotic down-regulation of mucosal mastocytosis.

The rat tapeworm, Hymenolepis diminuta, induces mastocytosis, hypertrophy of enteric smooth muscle, alteration of enteric myoelectric activity, and slowed enteric transit of the rat host's intestine. This report examines the resolution of both tapeworm-induced mastocytosis and tissue changes during the period following removal of the tapeworm with Praziquantel (PZQ). The dynamics of the mucosal mast cell (MMC) population following removal of the tapeworms was assessed by histochemical identification of MMC and morphometric techniques. As a possible mechanism of MMC population regulation, MMC apoptosis was examined over the same experimental period using the in situ nick end labeling of fragmented DNA (TUNEL). Shifts in MMC numbers were correlated with functional and morphological changes of the intestine following removal of the adult-stage tapeworm. Ileal tissues from rats infected 32 days with H. diminuta (the beginning of plateau phase of tapeworm-induced chronic mastocytosis) were harvested 1, 2, 3, and 4 weeks after the PZQ treatment. Control ilea were obtained either from rats which were never infected and never treated with PZQ or from rats infected with H. diminuta for 32 days but not treated with PZQ. In order to detect MMC and apoptosis, tissue sections of ileum were doubled stained sequentially with Astra blue for MMC granules followed by a modification of the TUNEL technique. No alteration in MMC numbers were observed in PZQ-treated animals until 3 weeks after the removal of the tapeworms. The decline of MMC occurred in the mucosa and submucosa. MMC numbers first approached uninfected control levels at 4 weeks posttreatment. Coincident with the decline in mucosal MMC numbers, the rate of MMC entering apoptosis also declined. Simultaneously, ileal smooth muscle layers, hypertrophied by infection, and mucosal structures began the process of involution and atrophy. Apoptosis of MMC in the submucosa and muscularis mucosa was not detected. In conclusion, H. diminuta-elicited mastocytosis and increased thickness of both mucosa and muscularis externa do not begin a decline toward control values until 3 weeks after the parasites are gone and normal intestinal motility is restored. These data are consistent with the lack of MMC mediation of altered motility, and the decline in the rate of MMC apoptosis at 3 weeks post-PZQ suggests that apoptosis may play an important role in the involution of tapeworm-induced mastocytosis.     

The effect of food protein-induced intestinal anaphylaxis on rate of transit

The aim of this study was to determine if the altered jejunal motility previously demonstrated in this animal model of food protein-induced intestinal anaphylaxis is (a) a localized (the jejunal site of challenge), or a generalized response of the small intestine, and (b) associated with more rapid aboral transit of intraluminal contents. Hooded-Lister rats, 100-150 g in weight, were sensitized by intraperitoneal injection of 10 micrograms egg albumin. Control rats were sham-sensitized. On day 7 rats were surgically prepared with six bipolar electrodes from duodenum to ileum and (or) a jejunostomy tube was positioned at the ligament of Treitz. On day 14, after an 18-h fast, recording of myoelectric activity were obtained from four sensitized animals with electrodes from duodenum to ileum during a control period for 45 min after saline challenge and for 45 min after antigen challenge. Control (n = 25) and sensitized (n = 31) animals with only a jejunostomy had Na2 51CrO4 instilled through the jejunostomy in 0.5 mL of saline, with or without egg albumin, either during a fast or after a standard meal. Propulsion of isotope through the small bowel was allowed to progress for 15 min, the animals were sacrificed, and their gut was removed for division into eight equal segments of small intestine, cecum, and remaining colon. The radioactivity of each segment was determined in a gamma counter.(ABSTRACT TRUNCATED AT 250 WORDS)     

Protein abundance of urea transporters and aquaporin 2 change differently in nephrotic pair-fed vs. non-pair-fed rats

Salt and water retention is a hallmark of nephrotic syndrome (NS). In this study, we test for changes in the abundance of urea transporters, aquaporin 2 (AQP2), Na-K-2Cl cotransporter 2 (NKCC2), and Na-Cl cotransporter (NCC), in non-pair-fed and pair-fed nephrotic animals. Doxorubicin-injected male Sprague-Dawley rats (n = 10) were followed in metabolism cages. Urinary excretion of protein, sodium, and urea was measured periodically. Kidney inner medulla (IM), outer medulla, and cortex tissue samples were dissected and analyzed for mRNA and protein abundances. At 3 wk, all doxorubicin-treated rats developed features of NS, with a ninefold increase in urine protein excretion (from 144 ± 21 to 1,107 ± 165 mg/day; P < 0.001) and reduced urinary sodium excretion (from 0.17 to 0.12 meq/day; P < 0.001). Urine osmolalities were reduced in the nephrotic animals (1,057 ± 37, treatment vs. 1,754 ± 131, control). Unlike animals fed ad libitum, UT-A1 protein abundance was unchanged in nephrotic pair-fed rats. Glycosylated AQP2 was reduced in the IM base of both nephrotic groups. Abundances of NKCC2 and NCC were consistently reduced (71 ± 7 and 33 ± 13%, respectively) in both nephrotic pair-fed animals and animals fed ad libitum. In pair-fed nephrotic rats, we observed an increase in the cleaved form of membrane-bound γ-epithelial sodium channel (ENaC). However, α- and β-ENaC subunits were unaltered. NKCC2 and AQP2 mRNA levels were similar in treated vs. control rats. We conclude that dietary protein intake affects the response of medullary transport proteins to NS.     

Establishing populations of Megasphaera elsdenii YE 34 and Butyrivibrio fibrisolvens YE 44 in the rumen of cattle fed high grain diets

AIM: To determine whether Megasphaera elsdenii YE34 (lactic acid degrader) and Butyrivibrio fibrisolvens YE44 (alternative starch utilizer to Streptococcus bovis) establish viable populations in the rumen of beef cattle rapidly changed from a forage-based to a grain-based diet. METHODS AND RESULTS: Five steers were inoculated with the two bacterial strains (YE34 and YE44) and five served as uninoculated controls. With the exception of one animal in the control group, which developed acidosis, all steers rapidly adapted to the grain-based diet without signs of acidosis (pH decline and accumulation of lactic acid). Bacterial populations of S. bovis, B. fibrisolvens and M. elsdenii were enumerated using real-time Taq nuclease assays. Populations of S. bovis remained constant (except in the acidotic animal) at ca 10(7) cell equivalents (CE) ml-1 throughout the study. Megasphaera elsdenii YE34, was not detectable in animals without grain in the diet, but immediately established in inoculated animals, at 10(6) CE ml-1, and increased 100-fold in the first 4 days following inoculation. Butyrivibrio fibrisolvens, initially present at 10(8) CE ml-1, declined rapidly with the introduction of grain into the diet and was not detectable 8 days after grain introduction. CONCLUSION: Megasphaera elsdenii rapidly establishes a lactic acid-utilizing bacterial population in the rumen of grain-fed cattle 7-10 days earlier than in uninoculated cattle. SIGNIFICANCE AND IMPACT OF THE STUDY: The study has demonstrated that rumen bacterial populations, and in particular the establishment of bacteria inoculated into the rumen for probiotic use, can be monitored by real-time PCR.     

Effect of excessive vitamin A intake on muscle protein turnover in the rat.

3-Methylhistidine excretion in vivo and in vitro was monitored in hypervitaminotic and pair-fed control rats. Feeding with excess of retinyl palmitate (40 000 i.u./day per 100 g body wt.) significantly increased urinary 3-methylhistidine and creatinine output during a 4-day treatment interval. 3-Methylhistidine release from perfused rat hindquarters was also elevated after 5 days of vitamin treatment. To determine whether the adrenals were involved in mediating the above response, a study was conducted on adrenalectomized and sham-operated rats. Excessive vitamin A intake stimulated 3-methylhistidine excretion in vivo and in vitro in both adrenalectomized and sham-operated animals, thus suggesting that the vitamin A-induced acceleration in myofibrillar protein breakdown was not mediated by the adrenals. In both groups of rats, vitamin A treatment had no effect on the rate of protein synthesis, on the basis of incorporation in vitro of [3H]phenylalanine into muscle protein. Additional studies revealed that the addition of excess retinol to the perfusion medium (10 i.u./ml) had no significant effect on the rates of 3-methylhistidine release or [3H]phenylalanine incorporation in vitro. Finally, high doses of cortisol (7 mg/day per 100g body wt.) administered to intact rats for 5 days significantly increased rates of 3-methylhistidine excretion, both in vivo and in vitro.     

The effect of intestinal anaphylaxis on postprandial motility in the rat

We have previously utilized a rat animal model to demonstrate that challenge of fasted sensitized animals with antigenic food protein is associated with diarrhea and altered intestinal myoelectric and motor activities. In this paper we examine the effect of intestinal anaphylaxis on postprandial motility in the same animal model. Hooded Lister rats were sensitized (S) by intraperitoneal injection of 10 micrograms egg albumin (i.e., antigen (Ag) and compared with sham-sensitized controls (C). Seven days later, three bipolar jejunal electrodes and a jejunostomy tube, for motility recording and Ag administration, were implanted. On day 14, intestinal myoelectric and motor activities were measured in fed animals before and after intraluminal challenge with Ag (100 mg egg albumin/0.5 mL saline) or placebo (P; 0.5 mL saline). Specific immunoglobulin E serum titres were greater than or equal to 1:64 in S animals, while C animals showed no response. None of the C animals challenged with P or Ag and none of the S animals challenged with P defecated after challenge, but all the S animals challenged with Ag developed diarrhea (p less than 0.001). There was no disruption or alteration of the fed motility pattern in C animals challenged with P or Ag, or S animals challenged with P. In fed S animals challenged with Ag the fed motility pattern persisted, but there was a significant (p less than 0.05) increase in the number of high-amplitude aborally propagating clustered contractions, where the phasic contractile activity was superimposed on a sustained tonic elevation of intraluminal pressure lasting 5-10 s.(ABSTRACT TRUNCATED AT 250 WORDS)     

Involvement of platelet-activating factor (PAF) in endotoxin-induced intestinal motor disturbances in rats

Intestinal myoelectrical activity was investigated in conscious fasted rats chronically implanted with Nichrome electrodes in the duodeno-jejunum. Motility of the small intestine was characterized by the presence of migrating myoelectric complex (MMC) occurring regularly at 16.2 +/- 5.8 minute intervals. Intravenous administration of endotoxin (E. coli S.0111:B4) at a dose of 50 micrograms/kg increased the interval between MMC to 112.6 +/- 26.8 min, the duration of these effects being dose-related between 10 to 100 micrograms/kg. Such a typical myoelectrical alteration, corresponding to rapidly propagated groups of spike bursts, was mimicked by the IP administration of PAF at doses of 10 to 50 micrograms/kg. Previous administration of BN 52021, a specific PAF antagonist at a dose of 50 mg/kg abolished the motor alterations induced by IP injection of PAF (25 micrograms/kg) and significantly (p less than 0.01) reduced by 61.2% those induced by IV endotoxin (50 micrograms/kg). Indomethacin (10 mg/kg IP) as well as SC 19220 (5 mg/kg IV), a PGE2 antagonist, injected prior to endotoxin (50 micrograms/kg IV) or PAF (25 micrograms/kg IP) also reduced significantly (p less than 0.01) the duration of MMC inhibition. It is concluded that endogenous release of PAF is partly responsible for the intestinal motor alterations induced by endotoxin; these effects, strongly reduced after treatment with BN 52021, are also mediated through the release of prostaglandins.     

Effect of splanchnectomy on jejunal motility and fos expression in brain stem after intestinal anaphylaxis in rat

This study was to determine whether alterations in jejunal motility observed after antigen challenge of sensitized rats occurred after extirpation of the celiac-superior mesenteric ganglia. Hooded-Lister rats were prepared with an intact or extirpated celiac-superior mesenteric ganglion, an isolated Thiry-Vella loop of ileum for instillation of antigen, and jejunal electrodes for myoelectric recording. Animals were sensitized by injection of 10 microg egg albumin (EA, ip), and specific anti-EA IgE titers were determined to be >1:64. In both control and splanchnectomized rats, normal fasting migrating myoelectric complexes (MMC) were observed before challenge with EA. MMCs were disrupted, and diarrhea was observed immediately after EA challenge of control but not splanchnectomized animals. Brain stems were removed and processed for Fos immunoreactivity. The absence of perivascular neuropeptide Y immunoreactivity in the submucosa was used to confirm the success of splanchnectomy. The number of Fos-immunoreactive neuronal nuclei was significantly reduced in the brain stem after splanchnectomy. Thus the mesenteric sympathetic ganglia are an integral part of the extramural neuronal pathways required for altered motility in this model of intestinal anaphylaxis.     

Influence of Various Feeding Conditions,the Migrating Myoelectric Complex and Cholinergic Drugs on Antral Slow Waves in Sheep

The presented study was designed to elucidate whether the cholinergic mechanisms control ovine antral slow waves in various physiological conditions, including feeding and various phases of migrating myoelectric complex (MMC). The investigations were carried out on six adult sheep of Polish Merino breed with seven bipolar electrodes surgically implanted onto the antral and small intestinal wall. In the course of chronic experiments, the myoelectric activity was recorded from these regions using the multichannel electroencephalograph. Experiments were performed on 48h fasted and non-fasted animals. During some of these experiments, sheep were fed with standard fodder. During control experiments 0.15M NaCl was slowly administered i.v. through the indwelling catheter and during other experiment, hexamethonium bromide (2.0 and 5.0mg/kg), atropine sulfate (0.02; 0.1; 0.5 and 1.5mg/kg) and pirenzepine dihydrochloride (0.02; 0.5 and 2.0mg/kg) were administered i.v. during phase 1-2a or 2b MMC. The drugs were also given in combinations. The recordings were analysed and the antral slow wave amplitudes and frequencies were calculated. Unlike the slow wave amplitude, either feeding or the anticholinergic drugs significantly increased slow wave frequency, especially when the given procedure was started during phase 2b MMC. The most pronounced effects were observed after hexamethonium given alone or in combinations. Thus, the cholinergic system modulates antral slow wave frequency in sheep.     

Central muscarinic control of the pattern of small intestinal motility in rats

The effects of central and peripheral administration of muscarinic agonists and antagonists on small intestinal motility were examined in conscious rats chronically fitted with electrodes implanted in the duodeno-jejunal wall and a cannula in a cerebral lateral ventricle. Intracerebroventricular (i.c.v.) administration of either atropine or pirenzepine at doses from 1 to 10 micrograms, 15 min before a 3 and 6 g lab chow meal significantly reduced the duration of the postprandial disruption of the migrating myoelectric complexes (MMC). The reduction was significantly greater for atropine, a mixed M1 and M2 muscarinic receptor antagonist, than for pirenzepine, an antagonist with a high affinity for M1 receptors. At a higher dose (10 micrograms) intra peritoneal (i.p.) administration of atropine or pirenzepine did not modify the postprandial disruption of MMC. Oxotremorine (10 ng) a M2 agonist, but not McNeil A343 (5 micrograms), a selective M1 agonist, given i.c.v. in fasted rats disrupted for 1.5 h the MMC pattern. At the same doses given i.p. oxotremorine and McNeil A343 disrupted the MMC for 15 and 45 min respectively. We conclude that the postprandial changes in the small intestinal motility involve muscarinic receptors, mainly of M2 subtype, at the level of the central nervous system.     

Activation of rat intestinal mucosal mast cells by fat absorption

Previous studies have linked certain types of gut mucosal immune cells with fat intake. We determined whether fat absorption activates intestinal mucosal mast cells (MMC), a key component of the gut mucosal immune system. Conscious intestinal lymph fistula rats were used. The mesenteric lymph ducts were cannulated, and the intraduodenal (i.d.) tubes were installed for the infusion of Liposyn II 20% (an intralipid emulsion). Lymphatic concentrations of histamine, rat MMC protease II (RMCPII), a specific marker of rat intestinal MMC degranulation, and prostaglandin D(2) (PGD(2)) were measured by ELISA. Intestinal MMC degranulation was visualized by immunofluorescent microscopy of jejunum sections taken at 1 h after Liposyn II gavage. Intraduodenal bolus infusion of Liposyn II 20% (4.4 kcal/3 ml) induced approximately a onefold increase in lymphatic histamine and PGD(2), ～20-fold increase in lymphatic RMCPII, but only onefold increase in peripheral serum RMCPII concentrations. Release of RMCPII into lymph increased dose dependently with the amount of lipid fed. In addition, i.d. infusion of long-chain triacylglycerol trilinolein (C18:2 n-6, the major composite in Liposyn II) significantly increased the lymphatic RMCPII concentration, whereas medium-chain triacylglycerol tricaprylin (C8:0) did not alter lymph RMCPII secretion. Immunohistochemistry image revealed the degranulation of MMC into lamina propria after lipid feeding. These novel findings indicate that intestinal MMC are activated and degranulate to release MMC mediators to the circulation during fat absorption. This action of fatty acid is dose and chain length dependent.     

绒毛膜促性腺激素及孕酮对大鼠小肠移行性综合肌电的影响

于去卵巢大鼠小肠的不同部位植入铂金丝单极电极,观察了绒毛膜促性腺激素(HCG)及孕酮对其移行性综合肌电(MMC)的影响。结果为:(1) 静注HCG后,十二指肠及空肠上段出现典型的与妊娠有关的MMC改变,即MMC的周期被间断出现且不规则延长的Ⅱ相所打乱。(2) 肌注孕酮后,十二指肠MMC的Ⅰ相和Ⅱ相时程均显著延长,但MMC的周期性无明显紊乱。(3) 在肌注孕酮的基础上加注HCG后,MMC的变化在特征上与单独注射HCG时相同,在范围上扩大到整个小肠。上述结果提示,在大鼠,HCG可引起典型的与妊娠有关的MMC活动紊乱;当有孕酮存在时,HCG的这一效应进一步增强。     

Effect of pregnancy on intestinal transit: Comparison of results using radioactive and non-radioactive test meals

Studies were performed to determine the effect of pregnancy on both gastrointestinal transit and small intestinal transit. Gastrointestinal transit was examined by determining the leading edge of distribution within the small intestine of a charcoal marker placed directly into the stomach. Intestinal transit was evaluated by quantifying the distribution of a radiolabelled marker placed directly into the duodenum. The distribution of the marker was determined (1) by calculating the slope of the distribution cure and (2) by calculating the geometric center of distribution of the radioisotope. In all studies the data from animals in either the second or third trimester of pregnancy were compared with the results obtained from non-pregnant females. The results confirm previous observations that gastrointestinal transit is reduced during the latter stages of pregnancy. This can be explained, at least in part, by a decreased intestinal transit. The data also suggest that analysis of the geometric center of distribution provides a more sensitive and reliable measure of intestinal transit than does analysis of the slope of the distribution curve.     

Intestinal absorption of vitamin E in experimental renal failure

We studied intestinal absorption of vitamin E in rats with experimental renal failure (RF) and in sham-operated normal and pair-fed controls using in vivo perfusion and in vitro everted sacs. The in vivo absorption rates per unit of intestine length were significantly reduced in RF and pair-fed groups. Expression of data per unit of intestine weight gave normal values in the pair-fed but depressed values in the RF animals. Vitamin E uptake in vitro was significantly increased in RF animals, suggesting enhanced permeability. We conclude: (i) vitamin E absorption in vivo is impaired in experimental RF; (ii) this is in part due to reduced nutrient intake; and (iii) disparity between in vivo and in vitro results suggests the presence of some inhibitory influence(s) in intact animals with RF.     

Influence of a cecal volume-reducing intestinal microflora on the excretion and entero-hepatic circulation of steroids and bile acids

From mouse fecal material we have isolated four strictly anaerobic bacteria which, when associated with germfree mice or rats, reduced the cecal volume by 80 and 60%, respectively. This cecal volume-reducing flora did not metabolize estrone-3-sulfate, taurolithocholate-3-sulfate or taurolithocholate but gnotobiotic rats associated with this particular flora (CRF-rats) excreted these compounds faster in feces plus urine than did germfree rats. The time needed for 50% excretion (t1/2) of orally administered estrone-3-sulfate was 32 h in germfree rats versus 13 h in CRF rats; for intraperitoneally injected taurolithocholate-3-sulfate the t1/2 was 63 h in germfree versus 17 h in CRF rats and for taurolithocholate the t1/2 was 199 h in germfree and 96 h in CRF rats. Association of germfree rats with the cecal volume-reducing flora did not change the cecal absorption rate of estrone-3-sulfate, but shortened the 50% small intestinal transit time of [14C]PEG from 10 to 3 h; a value also found in conventional rats. These results stress the important influence of the intestinal microflora on the absorption and excretion of steroids via its effect on the physiology of the whole intestinal tract and point to the deficiencies inherent to the use of germfree animals in excretion studies.     

Folic acid metabolism in vitamin B12-deficient sheep. Depletion of liver folates

1. Metabolism of folate was studied in six ewes in an advanced state of vitamin B(12) deficiency as judged by voluntary food intake and in their pair-fed controls receiving vitamin B(12). A group of four animals that were maintained throughout the experiment at pasture was also studied. 2. After 34-40 weeks on the cobalt-deficient diet urinary excretion of formiminoglutamate by four deficient animals was about 3.2mmol/day and this was not significantly decreased by injection of three of them with about 4.5mug of [2-(14)C]folate/kg body weight per day for 5 days. Three days after the last injection retention of [2-(14)C]folate by the livers of the deficient animals (5.5% of the dose) was lower than that of their pair-fed controls (26% of the dose) but there was no evidence of net retention of injected folate in the livers of either group. Urinary excretion of (14)C indicated that renal clearance of folate may have been impaired in very severe vitamin B(12) deficiency. 3. As estimated by microbiological assays total folates in the livers of animals at pasture (12.9mug/g) included about 24% of 5-methyltetrahydrofolate as compared with about 72% of a total of 12.5mug/g in three further ewes fed on a stock diet of wheaten hay-chaff and lucerne-chaff. Liver folates of vitamin B(12)-deficient animals (0.5mug/g) included about 88% of 5-methyltetrahydrofolate as compared with about 51% of a total of 5.2mug/g in pair-fed animals treated with vitamin B(12). 4. Chromatography of liver folates of the pair-fed animals permitted quantitative estimates of the pteroylglutamates present. The results showed that the vitamin B(12)-deficient livers were more severely depleted of tetrahydrofolates and formyltetrahydrofolates than of methyltetrahydrofolates and that as the deficiency developed they were more severely depleted of the higher polyglutamates than of the monoglutamate within each of these classes. Results from animals injected with [2-(14)C]folate indicated an impairment of the exchange between pteroylmonoglutamates and pteroylpolyglutamates in the livers of deficient animals. 5. In vitamin B(12)-deficient animals with food intakes below 200g/day some of the liver folates were not completely reduced and some degradation of pteroylpolyglutamates was detected. The latter condition may have been associated with fatty liver. 6. The results are discussed in relation to current theories of vitamin B(12)-folate interactions.     

Refinement of the charcoal meal study by reduction of the fasting period

The aim of this investigation was to determine whether a shorter fasting period than the one historically employed for the charcoal meal test, could be used when measuring gastric emptying and intestinal transit within the same animal, and to ascertain whether the scientific outcome would be affected by this benefit to animal welfare. Rats and mice were fasted for 0, 3, 6 or 18 hours before the oral administration of vehicle or atropine. One hour later, the animals were orally administered a charcoal meal, then 20 minutes later, they were killed and the stomach and small intestine were removed. Intestinal transit time (the position of the charcoal front as a percentage of the total length of the small intestine) and relative gastric emptying (weight of stomach contents) were measured. Rats and mice fasted for six hours showed results for gastric emptying and intestinal transit which were similar to those obtained in animals fasted for 18 hours. Reducing the fasting period reduced the body weight loss in both species, and mice on shorter fasts could be group-housed, as hunger-induced fighting was lessened. Therefore, a fasting period of six hours was subsequently adopted for charcoal meal studies at our institution.