The role of cholinergic and peptidergic pathways in the regulation of pancreatic exocrine function during postnatal development in pigs

Daily changes in antro-duodenal myoelectric activity in weaned pigs

The stomach and small intestine manifest a myoelectric activity pattern called the migrating myoelectric complex (MMC), which is controlled by both environmental and intrinsic factors. The daily MMC pattern has been little investigated, therefore the purpose of the present study was to study it, in weaned pigs given food twice a day. A wireless telemetric recording system was used for 24-h electromyography of the antrum and duodenum. The activity of the antrum showed little change if any, whereas the myoelectric activity of the duodenum significantly changed with respect to the time of day and feeding in conscious pigs. Namely, there were more frequent and regular MMC cycles occurring in the duodenum at night as compared with that during daytime. This change was due to the shortening of phase II of the MMC cycles that were registered at night. Phase I of the MMC showed transient variability in relation to feeding with no impact on the day/night differences. Phase III of the duodenal MMC cycle as well as the ‘feeding pattern’ did not change along with the time of day and feeding regime. In conclusion, daily variation in the duodenum may provide different conditions for digestive processes in the day and night.

Impact of donor age and weaning status on pancreatic exocrine and endocrine tissue maturation in pigs

BACKGROUND

During the process of islet isolation, pancreatic enzymes are activated and released, adversely affecting islet survival and function. We hypothesize that the exocrine component of pancreases harvested from pre-weaned juvenile pigs is immature and hence pancreatic tissue from these donors is protected from injury during isolation and prolonged tissue culture.

METHODS

Biopsy specimens taken from pancreases harvested from neonatal (5-10 days), pre-weaned juvenile (18-22 days), weaned juvenile (45-60 days), and young adult pigs (>90 days) were fixed and stained with hematoxylin and eosin. Sections were examined under a fluorescent microscope to evaluate exocrine zymogen fluorescence intensity (ZFI) and under an electron microscope to evaluate exocrine zymogen granule density (ZGD).

RESULTS

Exocrine content estimation showed significantly lower ZFI and ZGD in juvenile pig pancreases (1.5 ± 0.04 U/μm(2) , ZFI; 1.03 ± 0.07 × 10(3) /100 μm(2) , ZGD) compared to young adult pigs (2.4 ± 0.05U/μm(2) , ZFI; 1.53 ± 0.08 × 10(3) /100 μm(2) ZGD). Islets in juvenile pig pancreases were on average smaller (105.2 ± 11.2 μm) than islets in young adult pigs (192 ± 7.7 μm), but their insulin content was comparable (80.9 ± 2.2% juvenile; 84.2 ± 0.3% young adult, P > 0.05). All data expressed as mean ± SEM.

CONCLUSION

Porcine islet xenotransplantation continues to make strides toward utilization in clinical trials of type 1 diabetes. Porcine donor age and weaning status influence the extent of exocrine maturation of the pancreas. Juvenile porcine pancreases may represent an alternative donor source for islet xenotransplantation as their exocrine component is relatively immature; this preserves islet viability during extended tissue culture following isolation.

Duodenal application of Li+ in a submaximal therapeutic dose inhibits exocrine pancreatic secretion and modulates gastro-duodenal myoelectrical activity in a conscious pig model

This study tested whether duodenal application of lithium inhibits gastroduodenal motility, and whether it suppresses secretion from the exocrine pancreas. Five suckling pigs, 16–18 days old, were surgically fitted with 3 serosal electrodes on the wall of the gastric antrum and the duodenum for electromyography of smooth muscles, and with a pancreatic duct catheter and a duodenal T-cannula for collection and re-entrant flow of pancreatic juice. After the recovery period, on alternative days, each animal was tested once with an intraduodenal infusion of Li+ (100 mmol·L–1C3H5LiO3,10 mL·kg−1·h−1) for 1 h, and once with an intraduodenal infusion of NaCl (154 mM, 10 ml·kg−1·h−1), also for 1 h, with the first treatment, i.e., Li+ or NaCl, randomly assigned. Individual pigs served as their own controls, with data recorded prior to a treatment being used as the baseline. Li+ increased the duration of quiescence (P < 0.05) and activity phase (P < 0.05) in the antrum, thus increasing (P < 0.05) the duration of antral myoelectrical cycles. Li+ shortened (P < 0.05) phase I, but it did not affect phase II or phase III or the MMC in the duodenum. Li+ inhibited pancreatic juice outflow as well as pancreatic enzyme and bicarbonate output (P < 0.05 for all pancreatic parameters).

Defatted bovine colostrum-supplemented diet around weaning improves exocrine pancreatic secretion by means of volume, digestive enzymes, and antibacterial activity

OBJECTIVES

Exocrine pancreatic secretion contributes to limit pathogenic bacteria-associated diarrhea. Bovine colostrum, used in the treatment of diarrhea, reduces symptoms originating from gut pathogenic bacteria overgrowth. We hypothesized that bovine colostrum may stimulate the exocrine pancreatic secretion.

METHODS

Eighteen piglets fitted with 2 permanent catheters (for pancreatic juice collection and reintroduction) were allocated to 1 of the following 2 dietary treatments for 5 days: a control diet or a diet supplemented with defatted bovine colostrum. Pancreatic juice was collected daily, and digestive enzyme activities and antibacterial activity were determined.

RESULTS

The prandial pancreatic juice outflow, the basal and prandial lipase output, and the basal secretion of the antibacterial activity were, respectively, 60% (P = 0.08), 154% (P = 0.08), 92% (P = 0.06), and 72% (P < 0.05) higher in piglets fed a diet supplemented with defatted bovine colostrum.

CONCLUSIONS

With defatted bovine colostrum, the increased antibacterial activity secretion against Escherichia coli may limit pathogenic bacteria overgrowth of the gut and reduce diarrheal episodes. The role of secretin in the increased pancreatic juice flow and lipase secretion was considered.

Activation of the dorsal vagal nucleus increases pancreatic exocrine secretion in the rat

Pancreatic secretion is regulated by the dorsal vagal nucleus (DVN) which is modulated by several neurotransmitters and diverse synaptic inputs. The inhibitory neurotransmitter GABA is a major modulator of the vagal output to the gastrointestinal tract. The present study investigated the effects of GABA(A) receptor blockade in the DVN, using bicuculline methiodide (BIM, GABA(A) receptor antagonist, 100 pmol/25 nl), on pancreatic exocrine secretion (PES). Male Sprague-Dawley rats anaesthetised with isoflurane were used in all experiments. PES was collected from the common bile-pancreatic duct and was used to determine the pancreatic protein output (PPO). PES and PPO were measured prior to, and after, microinjection of BIM into the DVN. Bilateral microinjection of BIM into the DVN significantly increased PES and PPO from 23.4+/-3.2 microl/h to 66.1+/-17.5 microl/h and 19.3+/-1.7 microg/h to 35.7+/-3.0 microg/h (P<0.05), respectively. Atropine methonitrate (100 microg/(kg min), i.v.) blocked the excitatory effect of BIM microinjection on PES and PPO. These results suggest that activation of DVN neurons stimulates pancreatic secretion via a cholinergic muscarinic mechanism.

Effects of level of feed intake on pancreatic exocrine secretions during the early postweaning period in piglets1

The objective of this study was to determine the influence of the level of feed intake and a 2-d feed restriction period on the postweaning adaptation of pancreatic exocrine secretions. At 33 d of age, 18 piglets fitted with 2 permanent catheters (for pancreatic juice collection and reintroduction) were weaned and allocated to 1 of the following 2 dietary treatments for 5 d: restricted feed allocation (restricted) or gradually increasing feed allocation (control). Pancreatic juice was collected daily during both basal and prandial periods. The basal period was defined as the period from 1400 to 1700 h (i.e., 5 to 8 h after the morning meal), whereas the prandial period was defined as the period from 30 min before to 60 min after the morning meal (given at 0900). Digestive enzyme activities and antibacterial activity were determined. Pancreatic protein secretion was 44% less (P < 0.05) in restricted piglets than in control piglets during the basal period. Trypsin secretion was affected by feed-restriction of piglets. The meal did not affect protein and trypsin secretions in restricted piglets, whereas at d 3 postweaning, protein and trypsin secretions and trypsin specific activity in control piglets were 9-, 105-, and 25-fold greater (P < 0.001) during the first 30 min after the meal than before the meal. Lipase and amylase secretions were not affected by variations in feed intake. The secretion of antibacterial activity in restricted piglets was greater (P < 0.05) than that of control piglets only at d 5. The extended feed restriction period increased the basal secretion of antibacterial activity (P = 0.09) and postprandial secretion of amylase (P = 0.05). In conclusion, a low level of feed intake during the early postweaning period decreased pancreatic protein and trypsin secretions, whereas a 2-d feed restriction period enhanced secretions of amylase and antibacterial activity. In addition, our results indicate that during periods of dietary adaptation, such as at weaning, measurements of enzyme activities in the tissue do not accurately reflect the enzyme secretion.

Immunolocalization of gastrin-releasing peptide (GRP) in the uteroplacenta of the mouse deer

The considerable phylogenetical differences between mouse deer and other ruminants have been established by means of DNA sequence analysis and anatomical observations. To clarify the physiological role of the uteroplacenta of the mouse deer, immunohistochemical observation was attempted by using GRP, which has been suggested as a novel regulatory peptide in the female reproductive tract, as an indicator to compare with other ruminants. Strong positive reactions for the GRP were detected in the uterine glands of the pregnant animals, but not in the non-pregnant ones. Although the placenta of the mouse deer is categorized as a diffuse placenta that is different from other ruminants' polycotyledonary placenta, in terms of GRP immunoreactivity, the mouse deer placenta can be classified as a synepithecholial placenta like the other ruminants'. The secretion of GRP from the uterine glands is of some importance to the fetus in the mouse deer.

Localization and expression of gastrin-releasing peptide (GRP) in the bovine cervix

Gastrin-releasing peptide (GRP) has been suggested as a novel regulatory peptide in the female reproductive tract but the presence of GRP and GRP mRNA in the non-neurogenic tissue of the cervix has not yet been clarified. In the present study, immunohistochemistry and in situ hybridization were used to reveal the distribution of GRP immunoreactivity and expression of GRP mRNA in the bovine cervix. The cervixes from 21 non-pregnant and 20 pregnant cows, and 6 fetuses were used in the study. In the fetus, adult non-pregnant and pregnant specimens, GRP and GRP mRNA were predominantly detected in the luminal epithelial cells of basal areas of peripheral regions of the cervix. Positive staining of GRP in the epithelial cells of the cervix was first detected in the CRL 37 cm of the fetus. During the estrous cycles, the staining intensity of GRP in the epithelial cells was stronger in the follicular phase than in the luteal phase. During the early gestational period, GRP immunoreactivity was detected at relatively similar intensity to the follicular phase. In situ hybridization results ascertained the expression of GRP mRNA in the superficial epithelial cells of the cervix of non-pregnant and pregnant cows. The results suggest that GRP may be important both in the development of the fetal cervix and secretory activity of the epithelial cells of the cervix.

An embryonic chick pancreas organ culture model: characterization and neural control of exocrine release

An embryonic chick (Gallus domesticus) whole-organ pancreas culture system was developed for use as an in vitro model to study cholinergic regulation of exocrine pancreatic function. The culture system was examined for characteristic exocrine function and viability by measuring enzyme release, and noting histological, morphological, and anti-amylase immuno-fluorescence staining changes over a series of incubation times. This embryonic culture system exhibits loss of viability and morphological degeneration after 12 h of incubation time. Characterization and development of this exocrine model system was an important aspect of this study. Assessment of the 18-day-old embryonic chick pancreas model clearly indicated biochemical and cholinergic functionality, and morphological integrity, of the tissue after 4-h incubation. This embryonic age and incubation period were utilized for all subsequent cholinergic studies. The in vitro model was used to study parasympathetic regulation of exocrine function via the muscarinc receptors present in the embryonic chick pancreas. The effects of synthetic muscarinic agonists (bethanechol and carbachol) and subtype-specific antagonists affected amylase release to varying degrees suggesting heterogeneity of receptors. The effects of the muscarinic receptor antagonists atropine (non-specific), pirenzepine (M(1)-selective) and 4-DAMP [4-diphenylacetoxy-N-methyl-piperidine methiodide] (M(3)-selective) on bethanechol-stimulated amylase release were examined. Atropine and 4-DAMP at concentrations of 2 microM and higher significantly inhibited (p<0.05) agonist-stimulated amylase release, while pirenzipine did not at 2 microM, but did at 200 microM. The M(3) subtype selective antagonist 4-DAMP (2 pM-2 mM) significantly inhibited (p<0.05) 5 mM bethanechol-stimulated amylase release at concentrations of 2 microM and greater (amylase activity decreased from 100.61 to 49.41 U/l/mg). The data suggest the existence of a muscarinic receptor subtype for the embryonic chick pancreas exocrine cells characteristic to the mammalian M(3) glandular subtype.