Torben Norre Rasmussen

Substance P and neurokinin A are codistributed and colocalized in the porcine gastrointestinal tract

Immunoreactive substance P and neurokinin A were measured with radioimmunoassay in extracts of different segments of porcine gastrointestinal tract using C-terminally directed antisera. In all segments, the concentrations of substance P and neurokinin A were similar. The largest concentrations of both peptides were found in the mid-colon. By gel chromatography and reversed-phase high pressure liquid chromatography the immunoreactivity in extracts from ileum eluted as homogenous peptides at the positions of synthetic substance P and neurokinin A, respectively. No neurokinin B was found. By immunohistochemistry of porcine duodenum, jejunum, ileum and mid-colon, identical localization patterns were found for substance P and neurokinin A, and the two peptides demonstrated by double immunofluorescence to be colocalized in the enteric nervous system of the ileum. We conclude that the tachykinins substance P and neurokinin A are codistributed and colocalized in the procine gastrointestinal tract and suggest that the two peptides are produced from a common precursor, beta- and/or gamma-preprotachykinin, in the same neurons.

Effect of intestinal inhibitory peptides on vagally induced secretion from isolated perfused porcine pancreas

Several gastrointestinal peptides inhibit pancreatic secretion in intact animals, but fail to do so in isolated pancreas preparations. Using isolated perfused porcine pancreas with intact innervation, we studied the influence of such peptides (somatostatin, peptide YY, glucagon-like peptide-1, oxyntomodulin, neuropeptide Y, galanin, and calcitonin gene-related peptide) on vagally induced secretion and on release of vasoactive intestinal polypeptide (VIP), a neuropeptide involved in fluid and bicarbonate secretion. In control experiments electrical vagus stimulation increased flow of juice from 0.9 ± 0.1 to 37.3 ± 5.6 ml/h and protein output from 43 ± 5 to 1,244 ± 336 mg/h (mean ± SD). With somatostatin-14 at 10−10 mol/L, the fluid response was reduced to 64 ± 11% of controls, protein concentration to 78 3.8%, and protein output to 50 ± 5% (p <0.05). At 10−8 M the response was almost abolished. VIP release, which in control experiments increased from 0.2 ± 0.05 to 2.1 ± 0.4 pmol/min, was similarly reduced (p <0.01). Galanin at 10−10 M inhibited the fluid response to 54 ± 7% of controls, protein output to 51.7 ± 1176, and VIP release to 54 ± 6% (p <0.01). None of the other inhibitory peptides affected vagus responses. It is concluded that somatostatin and galanin inhibit pancreatic secretion through interaction with intrapancreatic ganglia. The other peptides act on extrapancreatic, possibly central sites.

Renal uptake and excretion of epidermal growth factor from plasma in the rat.

The rat excretes around 2 nmol epidermal growth factor (EGF) in the urine per 24 h. The urinary EGF might be derived from plasma and/or might be synthesized in the kidneys. We have used the rat to study the renal uptake and excretion of homologous EGF from plasma. I.v. injected 125I-EGF was removed from the circulation within a few minutes. 5 min after the injection, the kidneys contained 12% of the 125I-EGF. The kidneys seemed to degrade most of the 125I-EGF which they accumulated from blood, as only 4% of the injected label was excreted as intact 125I-EGF in the urine. The amount of endogenous EGF in plasma was under the detection limit of our enzyme-linked immunosorbent assay (0.03 nmol/l) and it remained so after bilateral nephrectomy. Even if plasma EGF was 0.03 nmol/l excretion of EGF from plasma could account for less than 5% of the urinary EGF. This study shows that the kidneys are able to accumulate EGF from plasma and excrete a part of it as intact EGF in the urine. However, excretion of immunoreactive EGF from plasma can only account for a minor part of the urinary EGF.

Nervous control of the release of substance P and neurokinin A from the isolated perfused porcine ileum

Using isolated perfused porcine ileum we studied the release of substance P (SP) and neurokinin A (NKA) in response to electrical stimulation of the mixed periarterial nerves and to infusion of different neuroactive agents. Nerve stimulation (8 Hz) had no significant effect on the release of SP and NKA. Nerve stimulation also had no effect on the release of SP and NKA during infusion of atropine (10(-6) M) or phentolamine (10(-5) M), whereas a significant increase (from 8.2 +/- 1.9 to 20.1 +/- 4.6 pmol/l for SP and from 12.3 +/- 2.7 to 34.2 +/- 7.7 pmol/l for NKA, n = 7) was observed during nerve stimulation after pretreatment with both atropine and phentolamine. This increase was abolished by hexamethonium (3 x 10(-5) M). Also acetylcholine infusion causes a significant release of SP and NKA after infusion of both atropine and phentolamine (to 172 +/- 56% and 232 +/- 69% of basal release, n = 7), an effect that was abolished by hexamethonium infusion. Infusion of atropine alone increased the release of SP and NKA significantly (to 337 +/- 92% and 386 +/- 124% of basal output, n = 5). Norepinephrine (10(-6) M) inhibited the release of SP and NKA (to 69 +/- 6% and 80 +/- 6% of basal release, n = 7). Our results suggest that the SP- and NKA-producing neurons receive intrinsic tonic muscarinic inhibitory impulses, extrinsic nicotinic excitatory impulses, and extrinsic adrenergic inhibitory impulses.

Fast acting nervous regulation of immunoglobulin A secretion from isolated perfused porcine ileum

BACKGROUND The intestinal mucosa harbours a large number of nerve fibres and also plasma cells, providing the anatomical basis for studies of neuroimmune interactions. AIMS To study the effect of different neurotransmitters and electrical stimulation of the extrinsic intestinal nerves on secretion of immunoglobulin A (IgA). METHODS IgA was measured, using a specific ELISA, in the luminal and venous effluent from isolated vascularly perfused porcine ileal segments with preserved extrinsic nerve supply. RESULTS Infusion of several neuropeptides stimulated IgA output. Somatostatin (10−8M) stimulated IgA secretion in the luminal effluent from 46.6 (14.3) to 79.3 (19.0) μg/5 min and increased the venous output to 148.3 (23.0)% (n=6) of basal output, whereas noradrenaline (10−6 M) inhibited the secretion (to 49.2 (6.5)% of basal output, n=6). Electrical stimulation of the mixed extrinsic nerves supplying the intestinal segment had no effect by itself. However, electrical stimulation during infusion of α adrenergic blockers or coinfusion of both α adrenergic and muscarinic blockers resulted in an immediate and significant increase in IgA, an effect that was abolished by nicotinic blockade. CONCLUSION The extrinsic nerve supply to the intestine could be involved in fast acting regulation of mucosal immune functions.

Immunohistochemical localization of pancreatic spasmolytic polypeptide (PSP) in the pig.

SummaryPancreatic spasmolytic polypeptide (PSP) is a peptide that is isolated from the porcine pancreas and that affects intestinal motility and growth of intestinal tumour cells in vitro. The peptide was recently demonstrated to be present in large amounts in pancreatic juice. The cellular origin of the peptide, however, is largely unclarified and the localization was therefore studied of PSP in pigs using immunohistochemistry. Positive immunoreactions were seen in the pancreas, the stomach, the duodenum, the jejunum and the ileum. In the pancreas, the PSP immunoreaction was seen in all acinar cells; no immunoreaction was seen in the endocrine islets. In the stomach, it was localized to the mucous cells of the glands in the cardiac gland region, the corpus and the pylorus. In the duodenum a strong immunoreaction was present in Brunners glands and in the cells of their excretory ducts. In the jejunum and ileum, PSP immunoreactivity was seen in some of the cells in the epithelium of the crypts of Lieberkühn. A peptide chromatographically identical to highly purified PSP was identified in pancreas and stomach extracts. Thus epithelial cells in all parts of the stomach and small intestine contribute to the supply of PSP to the gut lumen.

Sympathoadrenal Regulation of Adrenal Androstenedione Release

The effects of epinephrine and of splanchnic nerve activation on adrenocortical androstenedione release were studied in intact isolated perfused pig adrenals with preserved nerve supply. In addition, long-term effects of epinephrine were characterized in bovine adrenocortical cells in primary culture. To investigate the contact zones of the androgen-producing cells of the zona reticularis with the catecholamine producing cells of the adrenal medulla, cortical cells were immunostained for cytochrome P450 side chain cleavage (P450SCC). Perfusion of the isolated adrenals with epinephrine (10(-7) to 10(-5) M) stimulated androstenedione release in a dose-dependent manner. At a concentration of 10(-6) M, epinephrine provoked an increase to 179.11 +/- 16.14% of basal secretion (p < 0.05). Electrical stimulation of the splanchnic nerves led to an increase to 151.5 +/- 9.24% of basal values (p < 0.05). Epinephrine (10(-6) M) reached 40% and activation of the splanchnic nerves 26% of the stimulatory effect of ACTH at a physiological concentration (10(-10) M). The alpha-agonist phenylephrine had no effect on androstenedione release. In cell cultures, epinephrine stimulated the release of androstenedione in a dose-dependent manner with an ED50 of 0.75 x 10(-6) M. The maximal effect was reached at 10(-5) M with 8.92 +/- 0.66 pmol androstenedione/dish/24 h; the basal secretion was 1.44 +/- 0.54 pmol/dish/24 h. The epinephrine-stimulated androstenedione release was abolished by the beta-adrenergic antagonist propranolol while the alpha-adrenergic antagonist phentolamine had no effect. Immunohistochemical staining of paraffin sections of bovine and porcine adrenals for P450SCC revealed that zona reticularis and zona medullaris are closely interwoven.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of gastrin on liver regeneration after partial hepatectomy in rats.

Gastrin has been shown to be an important trophic hormone for the mucosa of the stomach and the proximal intestine. In the present study the effect of gastrin on liver regeneration after partial hepatectomy in rats was investigated. After partial hepatectomy a significant rise in the concentration of gastrin in portal venous blood was found six, 12, and 18 hours after 70% hepatectomy. The effect of changes in the endogenous gastrin concentration on the liver regeneration was investigated in rats subjected to antrectomy or to fundectomy. Partial hepatectomy was done three weeks after the primary surgery. We found antrectomy to decrease liver regeneration, whereas fundectomy had no effect. Administration of pentagastrin 300 micrograms/kg sc three times daily for two and four days after partial hepatectomy significantly increased the rate of liver regeneration compared with controls. This study suggests that gastrin has a hepatotrophic effect. Whether this effect is caused by a direct action of gastrin on the hepatocytes or it is an indirect effect mediated by for instance insulin, glucagon or epidermal growth factor has to be further investigated.

Tachykinins in the Porcine Pancreas : Potent Exocrine and Endocrine Effects Via NK-1 Receptors

The localization, release, and effects of substance P and neurokinin A were studied in the porcine pancreas and the localization of substance P immunoreactive nerve fibers was examined by immunohistochemistry. The effects of electrical vagus stimulation and capsaicin infusion on tachykinin release and the effects of substance P and neurokinin A infusion on insulin, glucagon, somatostatin, and exocrine secretion were studied using the isolated perfused porcine pancreas with intact vagal innervation. NK-1 and NK-2 receptor antagonists were used to investigate receptor involvement. Substance P immunoreactive nerve fibers were localized to islets of Langerhans, acini, ducts, and blood vessels. Vagus stimulation had no effect on substance P and neurokinin A release, whereas capsaicin infusion stimulated release of both. Substance P and neurokinin A infusion increased release of insulin, glucagon, and exocrine secretion, whereas somatostatin secretion was unaffected. The effect of substance P on insulin, glucagon, and exocrine secretion was blocked by the NK-1 receptor antagonist. The effect of electrical stimulation of vagus nerves on insulin and exocrine secretion was not influenced by tachykinin receptor antagonists. We conclude that tachykinins stimulate both endocrine and exocrine pancreatic functions through NK-1 receptors. Tachykinins are not involved in vagal regulation of pancreatic secretion in pigs but could constitute part of an alternative stimulatory system.

Adrenergic Effects on Secretion of Amylase from the Rat Salivary Glands

The present study was undertaken to investigate the effect of adrenergic agents on secretion of amylase from the salivary glands in vivo. Saliva was collected from the distal oesophagus in conscious rats. Adrenaline increased the concentration of amylase in saliva and serum significantly. The result of infusion of alpha- and beta-adrenergic antagonists as well as noradrenaline and isoproterenol showed that secretion of salivary amylase is predominantly mediated by stimulation of beta-adrenergic receptors, especially of the beta 1-subtype. Investigation of the isoenzyme pattern in saliva, pancreatic juice and serum demonstrated that the major component in serum is salivary amylase. This study has shown that beta-adrenergic agents stimulate secretion of amylase from the salivary glands in rats. Though the secretion is mainly exocrine small amounts of amylase is found in serum, which seems to originate from the salivary glands.