Nitric oxide formation in the dog sphincter of Oddi from nitric oxide donors as measured with in vivo micro-dialysis

BACKGROUND

Nitric oxide (NO) is known to play an important role in neurally mediated relaxation of the sphincter of Oddi.

AIM

We investigated whether NO donors, such as nitroglycerin or zwitterionic polyamine/NO, applied into the common bile duct or intravenously, may induce the relaxation of the sphincter of Oddi by producing NO in the anaesthetized dog.

METHODS

NO production in the sphincter of Oddi was measured by detecting NO oxidation products (NO2- and NO3-) using micro-dialysis methods.

RESULTS

Zwitterionic polyamine/NO and nitroglycerin applied into the common bile duct induced a marked increase in NO2- but not NO3-, in the sphincter of Oddi. Intravenous infusion of zwitterionic polyamine/NO and nitroglycerin induced little or no increase in NO2- formation. Nitroglycerin infused into either the common bile duct or intravenously administered produced relaxation of the sphincter of Oddi, but zwitterionic polyamine/NO had no effect on the sphincter of Oddi in spite of the increase in NO2- levels.

CONCLUSIONS

Locally or systemically applied NO donors induce relaxation of the sphincter of Oddi by producing NO, although their mode of action differs in different analogues.

Immunocytochemical localization of a neuron-specific thrombospondin-1-like protein, NELL2: light and electron microscopic studies in the rat brain

We have studied the cellular and intracellular localization of NELL2, a neural thrombospondin-1-like protein. NELL2 protein was detected as doublet bands of 140 and 90 kDa with the use of the specific antibodies raised against the C-terminal region of NELL2 and was recognized only in the brain but not in the peripheral tissues. Within the brain, NELL2 was abundantly present in the hippocampus and cerebral cortex, found moderately in the olfactory bulb and hypothalamus, and at a low level in the thalamus, cerebellum, and medulla. Immunocytochemically, NELL2 was seen only in neurons but not in glial cells or in the white matter. NELL2-immunoreactive cells were distributed throughout the brain with the highest density in the hippocampus and cerebral cortex. NELL2 was mainly found in the cell bodies of neurons and the immunoreactivity was often seen as dots in the perikarya. The distribution of NELL2 immunoreactivity did not completely correspond to that of any subtypes of protein kinase C (PKC). Under electron microscopy, NELL2 protein was associated with the endoplasmic reticulum (ER), especially with rough ER. NELL2 immunoreactivity was found in the restricted parts of the ER and found commonly inside the ER. These results suggest that NELL2 protein is synthesized by neurons and may be secreted from the neurons involved in certain neuronal functions.

Endomorphin-1, an endogenous mu-opioid receptor-selective agonist, stimulates oxygen consumption in mice

This study was undertaken to investigate the effect of endogenous mu-receptor-selective peptide endomorphin 1, administered intracerebroventricularly, on oxygen consumption in mice. The intracerebroventricular injection of endomorphin 1 (3-30 nmol) significantly increased oxygen consumption in unrestrained mice. The effect of endomorphin 1 (30 nmol) was significantly antagonized by the simultaneous intraperitoneal administration of naloxone (100 nmol). These results suggest that endomorphin 1 stimulates oxygen consumption, and that the mu-opioid receptor influences energy balance in mice.

Neuropeptide Y induces fasted pattern of duodenal motility via Y(2) receptors in conscious fed rats

Neuropeptide Y (NPY), a 36-amino acid peptide abundantly expressed in the brain, has been implicated in the regulation of feeding and visceral functions. The present study was designed to investigate whether or not NPY specifically regulates duodenal motility. The manometric method was used to measure duodenal motility in conscious, freely moving rats. The rat duodenum showed phasic contractions mimicking the migrating motor complex in the fasted state that were replaced by irregular contractions after the ingestion of food. NPY powerfully affected the contractile activity after intracerebroventricular (i.c.v.) administration, changing fed (postprandial) patterns into phasic contractions characterized as fasted (interdigestive) patterns. This effect was mediated via receptors with pharmacological profiles similar to rat Y(2) and Y(4) receptors, although neither Y(1) nor Y(5) agonists had any effects on motility despite potent feeding-stimulatory effects. Immunoneutralization with anti-NPY antiserum administered i.c.v. abolished fasted patterns and induced fed-like motor activities. An i.c.v. dose of peptide YY produced a different effect from NPY, with increase in the motor activities of both fed and fasted patterns. These results indicate that fasted and fed motor activities are regulated processes and that NPY induces fasted activity through Y(2), and possibly Y(4), receptors, which may represent an integrated mechanism linked to the onset of feeding behavior.

Immunocytochemical localization of serotonin and serotonin transporter (SET) in taste buds of rat

We used an immunocytochemical approach to study the localization of serotonin and its termination system, serotonin transporter (SET), in the taste buds of rats using specific antibodies against serotonin and SET. Under confocal laser scanning microscopy, both serotonin and SET immunoreactivity were detected in the taste buds of rat vallate papillae. Serotonin immunoreactivity was seen in the spindle-shaped cells with apical processes that seemed to be light (Type II) taste cells. SET-immunoreactivity was mainly localized in the periphery or interfaces between the taste cells. Double staining studies revealed that all serotonin-containing taste cells were immunoreactive for SET, while a subclass of SET-positive cells showed serotonin immunoreactivity. These data support the hypothesis that serotonin plays a transmitter role in taste receptor cells and suggest that the serotonin-induced sensation of taste is terminated by serotonin uptake through serotonin transporter.

Mouse pancreatic polypeptide modulates food intake, while not influencing anxiety in mice

This study was designed to investigate the effects of synthetic mouse pancreatic polypeptide (mPP) on feeding and anxiety in mice. The intracerebroventricular (i.c.v.) injection of mPP (0.003-3 nmol) dose-dependently increased food intake. A significant increase was observed 20 min after i.c.v. injection and continued for 4 h. The intraperitoneal (i.p.) injection of mPP (0.03-30 nmol) dose-dependently decreased food intake. A significant decrease was observed 20 min after i.p. injection and continued for 4 h. In the elevated plus maze test, the i.c.v. injection of mPP (0.003-3 nmol) did not affect anxiety behavior. These results suggest that mPP modulates food intake and the Y4 receptor in the brain may contribute to the regulation of feeding, whereas appearing not to influence anxiety in mice.

Involvement of 5-HT3 and 5-HT4 receptors in the motor activity of isolated vascularly perfused rat duodenum

The involvement of serotonin (5-HT) receptor subtypes in motor activity of the ex vivo vascularly perfused rat duodenum was investigated. Clusters of phasic contractions (CPCs), migrating in an oral to anal direction, were obtained without any stimulation. Drug effects were evaluated by changes in different components of the pressure waves, such as motor index (MI), frequency, amplitude and duration of the CPC. The effect of 5-HT depletion on motor activity was examined in animals treated with p-chlorophenylalanine (PCPA). The MI, frequency and duration of CPC were decreased by PCPA, but the amplitude was not affected, suggesting that endogenous 5-HT may play an important role in regulation of the motor activity of the rat intestine. The importance of the 5-HT receptor subtypes in the regulation of motor activity was examined. Neither the nonselective 5-HT1 and 5-HT2 receptor antagonist, methysergide, nor the 5-HT2 receptor antagonist, ketanserin, affected motor activity. However, the 5-HT3 receptor antagonists, granisetron and azasetron, decreased percentage MI, frequency, percentage amplitude and percentage duration of CPC. The 5-HT4 receptor antagonist, SB204070, exerted both excitatory and inhibitory actions, with a higher dose (10 nM) stimulating percentage MI, frequency, percentage amplitude and percentage duration, and a lower dose (0.1 nM or 1 nM) decreasing percentage MI and percentage duration of CPC. These results suggest that endogenous 5-HT regulates the motor activity of the rat duodenum through 5-HT3 and 5-HT4 receptors, with the former mediating the stimulatory influence and the latter mediating both stimulatory and inhibitory influences.

Decreased food intake and body weight in pancreatic polypeptide-overexpressing mice

BACKGROUND & AIMS

Pancreatic polypeptide (PP) is a 36-amino acid hormone produced by F cells within the pancreatic islets and the exocrine pancreas. The definitive function of PP in mammalian physiology remains to be determined. This study examined the effects of chronic overexpression of PP through the development of PP transgenic mice.

METHODS

PP transgenic mice were created by using mouse PP complementary DNA under the control of the cytomegalovirus immediate early enhancer-chicken beta-actin hybrid promoter (pCAGGS expression vector).

RESULTS

A unique line of transgenic mice was created that overexpresses PP in the pancreatic islets with low levels of expression in other tissues including the brain. Plasma PP concentrations were more than 20 times higher than those of control littermates. However, PP overproduction led to postnatal lethality in half of the pups because of markedly decreased milk intake. The remaining PP transgenic mice gained less weight with specifically reduced food intake and fat mass compared with controls, a result that was more evident in male than in female mice. The transgenic mice exhibited a reduced rate of gastric emptying of a solid meal but had normal oxygen consumption and fasting leptin levels. Immunoneutralization with anti-PP antiserum reversed the phenotypic changes of transgenic animals.

CONCLUSIONS

PP could be involved in feeding and body weight regulation partly through regulation of gastric emptying.

Immunohistochemical localization of tryptophan hydroxylase in the human and rat gastrointestinal tracts

Because few previous studies have shown the immunohistochemical localization of tryptophan 5-hydroxylase (TPH) in the gastrointestinal tract, we developed a specific antibody against TPH purified from mouse mastocytoma P-815 and stained human and rat gastrointestinal tracts. The specificity of the antibody was examined by Western blotting and by immunohistochemistry in brain sections. Human ileum and colon specimens, rat stomach, duodenum, jejunum, ileum and colon specimens, with and without colchicine treatment were prepared for immunohistochemistry. Immunoelectron microscopic double staining of TPH and serotonin/chromogranin A and immunofluorescence double staining of TPH and serotonin were performed to identify the cell types. Epithelial enterochromaffin (EC) cells, mast cells in the lamina propria and submucosa, and varicose fibers in the submucosa and muscle layer showed positive immunoreactivity in all segments examined from human and normal rat specimens. In colchicine-treated rat specimens, nerve cell bodies in the myenteric plexus were stained. Because the antibody does not cross react with tyrosine hydroxylase as defined in Western blotting or brain sections, these positive structures may contain TPH. The present results show evidence that EC cells, mast cells, and nerve cell bodies and fibers in the gastrointestinal tracts of both the human and the rat contain TPH and therefore may have the ability to synthesize serotonin from tryptophan.

Transcription factors and age-related decline in apolipoprotein A-I expression

Apolipoprotein (apo)A-I alone or as a component of high density lipoprotein particles has antiatherogenic properties. The age-dependent decline in abundance of this protein may underlie the higher risk for developing occlusive coronary artery disease (CAD) in older individuals. Similar to humans, expression of rat apoA-I also declines with age. Results in rats showed that levels of serum apoA-I protein, hepatic mRNA, and transcription of the gene were decreased to 39%, 18%, and 38%, respectively, in 180-day-old animals compared to those of newborn rats. These findings suggest that a nuclear mechanism(s) may account for the decline in apoA-I expression. Accordingly, we examined hepatic nuclear binding activity to four specific cis-acting elements of the rat apoA-I promoter. There were age-dependent changes of binding activity to two proximal sites, B and C, but not to the more distal elements, IRCE and A. Decreased B-site binding activity correlated with lower mRNA levels encoding the activator, HNF-3beta. The age-dependent change in the pattern of binding to site C was due to a switch from the activator, HNF-4, to the repressor, ARP-1. In summary, the age-related decline in apoA-I expression may arise from a reduction in the activity of both cis-acting elements, B and C.

Intracerebroventricularly administered corticotropin-releasing factor inhibits food intake and produces anxiety-like behaviour at very low doses in mice

AIM

Previous studies have demonstrated that corticotropin-releasing factor (CRF) produces behavioural, physiological and immunological responses similar to those induced by stress. However, these findings have been validated largely in laboratory rats.

METHODS

We examined the effects of intracerebroventricular (i.c.v.) administration of CRF on anxiety and food intake in mice. Using the elevated-plus maze, we measured anxiety levels after i.c.v. CRF in mice. We also measured food intake for 2 h after i.c.v. CRF.

RESULTS

CRF increased the normal preference for the closed arms of the maze at a very low dose of 3 pmol, indicating an anxiogenic effect. CRF powerfully suppressed food intake at the doses of 3-300 pmol for over 2 h.

CONCLUSION

Our results demonstrate that i.c.v. CRF evokes anxiogenic behaviour and suppresses feeding with the same dose-response relationships in mice. CRF may thus play a role in integrating the overall responses to stress through co-ordinated actions in the brain of this species.

Effects of endothelial impairment by saponin on the responses to vasodilators and nitrergic nerve stimulation in isolated canine corpus cavernosum

1. Responsiveness to EDRF-releasing substances and inhibitory nerve stimulation of canine isolated penile corpus cavernosum with and without saponin treatment were investigated. 2. Histological studies demonstrated that saponin did not detach endothelial cells from underlying tissues, but induced degenerative changes in the endothelial cells selectively. 3. In the cavernous strips contracted with phenylephrine, addition of acetylcholine, sodium nitroprusside, ATP and Ca2+ ionophore A23187 induced relaxations, but substance P and bradykinin did not change the muscle tone. 4. Acetylcholine-induced relaxation was significantly attenuated but not abolished by NG-nitro-L-arginine (L-NOARG). L-arginine restored the response inhibited by L-NOARG. The L-NOARG resistant relaxation was not influenced by 1H[1,2,4]oxadiazole[4,3-a]quinoxalin-1-one (ODQ) but was suppressed in the strips contracted with K+. Treatment with saponin abolished the relaxation elicited by acetylcholine and A23187 but did not influence the response to nitroprusside and ATP. The ATP-induced relaxation was attenuated by aminophylline. 5. Transmural electrical stimulation at 2-20 Hz produced endothelium-independent relaxations which were abolished by tetrodotoxin and L-NOARG but unaffected by treatment with saponin. In saponin-treated cavernous strips, the neurogenic relaxation was not affected by acetylcholine, physostigmine, atropine and vasoactive intestinal peptide (VIP) but was abolished by ODQ. 6. It is concluded that acetylcholine-induced relaxations are endothelium-dependent and mediated partly by NO and also by other substances from the endothelium. The endothelium-independent relaxation to ATP is likely to be mediated by P1 purinoceptors. The function of nitrergic nerve does not seem to be prejunctionally modulated by acetylcholine and VIP.

Motor activity of vascularly perfused rat duodenum. 1. Characteristics of spontaneous movement

We developed an ex vivo model of arterially perfused rat duodenum to examine the motor activity of intestine. In this preparation, spontaneously occurring pressure waves with regular rhythm were observed. The oxygen consumption and motor activity of the intestine were compared at different arterial perfusion rates to determine the degree of oxygenation required to elicit spontaneous motility. Pressure waves with regular rhythm occurred at a frequency of 1 min-1 when the arterial perfusion was 3-5 mL min-1, and stopped when the perfusion rate fell below 2 mL min-1. Atropine and hexamethonium reduced the percentage motor index/10 min of pressure waves in a dose-dependent manner, and tetrodotoxin completely blocked motor activity. Acetylcholine stimulated motor activity, and this effect was not antagonized by TTX. These findings suggest that spontaneous contraction in the ex vivo perfused rat duodenum might be mediated by a cholinergic mechanism via muscarinic receptors on smooth muscle, but that noncholinergic mechanisms may also participate in this response.

Motor activity of vascularly perfused rat duodenum. 2. Effects of VIP, PACAP27 and PACAP38

We examined the mechanisms of effects of vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase activating polypeptide (PACAP) 27 and PACAP38 on spontaneously occurring pressure waves in ex vivo perfused rat duodenum. VIP and PACAPs dose-dependently reduced the percentage motor index of pressure waves; this reduction was not prevented by atropine, hexamethonium or tetrodotoxin (TTX). VIP and PACAPs abolished acetylcholine-induced stimulation of pressure waves, even in the presence of TTX. These findings suggest that VIP and PACAPs may exert direct inhibitory effects via VIP/PACAP receptors located on smooth muscle rather than via cholinergic receptors. The inhibitory effects of VIP and PACAPs were partially antagonized by the VIP receptor antagonists VIP(10-28), suggesting that VIP and PACAPs share common receptor sites on intestinal smooth muscle. The effects of VIP and PACAPs were completely antagonized by nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine (L-NA), suggesting that NO mediates the inhibitory effects of VIP and PACAPs on duodenal motility. Furthermore, single injection of L-NA stimulated spontaneously occurring pressure waves, while VIP(10-28) did not affect them. These findings suggest that VIP/PACAPs and NO strongly interact as an inhibitory mediator on duodenal motility, but that their modes of action in doing so may differ.

Immunoelectron microscopic study of the luminal release of chromogranin A from rat enterochromaffin cells

Recently we found that raising the intraluminal pressure caused an increase in the luminal release of serotonin from enterochromaffin (EC) cells and serotonin immunoreactivity normally restricted within the secretory granules was diffusely scattered over the extragranular matrix. In the present study we investigated the intracellular localization of chromogranin A, a protein co-stored with serotonin in the EC cells, after stimulating the luminal release of serotonin. In situ vascularly and luminally perfused rat duodenum was exposed to intraluminal pressure and fixed for immunoelectron microscopic study. For immunoelectron microscopy, the pre-embedding DAB reaction for serotonin combined with the postembedding immunogold reaction for chromogranin A was used. Results showed that a number of secretory granules labeled with immunogold chromogranin A immunoreactivity located close to the apical plasma membrane. Some EC cells showed that one part of the apical cytoplasm was protruded into the lumen and a number of secretory granules with immunogold labeling were included in the protruded cytoplasm. These results suggest that EC cells may release chromogranin A into the intestinal lumen together with serotonin, by means of a different manner of secretion from that in serotonin.

Mechanisms underlying the neurogenic relaxation of isolated porcine sphincter pupillae

Mechanisms of relaxation induced by nerve stimulation were examined in isolated porcine iris sphincter muscle in reference to norepinephrine, nitric oxide (NO) and vasoactive intestinal polypeptide (VIP) and the functional interaction of inhibitory and excitatory nerves. Changes in isometric tension were recorded in strips of the sphincter pupillae, which were stimulated by transmurally applied electrical pulses. The presence of neurons containing acetylcholinesterase and tyrosine hydroxylase (TH) was determined histochemically. Transmural electrical stimulation (0.5-20 Hz) produced a frequency-related contraction, which was reversed to a relaxation by atropine in prostaglandin F2alpha-contracted strips. The relaxant response was abolished by timolol and suppressed by metoprolol, a beta1-adrenoceptor antagonist, but was not influenced by butoxamine, a beta2-receptor antagonist. Norepinephrine-induced relaxations were also attenuated only by timolol and metoprolol. Treatment with NG-nitro-L-arginine, a NO synthase inhibitor, and [D-p-Cl-Phe6,Leu17]VIP, a VIP receptor antagonist, did not inhibit the neurogenic relaxation. Contractions induced by nerve stimulation were potentiated by timolol and physostigmine but not by the NO synthase inhibitor. In the sphincter muscle, cholinesterase- and TH-positive nerve fibers and bundles were histologically detected. It is concluded that porcine iris sphincter is innervated by cholinergic excitatory and adrenergic inhibitory nerves. The neurogenic relaxation is associated solely with activation of beta1 adrenoceptors by norepinephrine but is not mediated by NO or VIP.

Thioperamide, a histamine H3 receptor antagonist, powerfully suppresses peptide YY-induced food intake in rats

BACKGROUND

Whether or not peptide YY (PYY)-induced hyperphagia is modified by the histaminergic system in the brain is not yet known.

METHODS

We investigated the effect on feeding of intracerebroventricular (ICV) administration of a specific histamine H3 receptor antagonist prior to ICV administration of PYY in rats.

RESULTS

PYY (1, 3, and 10 micrograms/10 microL) strongly induced feeding behavior in a dose-dependent manner in sated rats. The 4-hour food intake induced by 3 micrograms/10 microL of PYY was equal to that induced by a 16-hour fast. The ICV administration of thioperamide (40.8, 122.4, and 408.5 micrograms/10 microL) did not suppress the 4-hour food intake induced by 16-hour fasting; however, thioperamide produced dose-dependent and strong inhibition of hyperphagia induced by a 3-microgram dose of PYY.

CONCLUSIONS

These results suggest that the effect of PYY on appetite is different than that induced by fasting and may involve a histaminergic mechanism.

Effect of VIP and PACAP on vascular and luminal release of serotonin from isolated perfused rat duodenum

Effects of CCK, VIP, PACAP38, and PACAP27 on the release of 5HT into the intestinal lumen and into the portal circulation were examined in in vivo experiments of isolated rat duodenum perfused vascularly and luminally. VIP, PACAP 38 and 27 reduced the release of 5HT into the lumen but did not affect the vascular release of 5HT. These effects were not affected by the presence of atropine, hexamethonium, or TTX, suggesting that VIP, PACAP 38 and 27 exert a direct inhibitory effect on the luminal release of 5HT from the EC cells. Nitric oxide synthase inhibitor, NG-nitro-L-arginine, antagonized the inhibitory effects of VIP, PACAP 38 and 27, suggesting that nitric oxide seems to be essential to exert the inhibitory action of VIP and PACAPs on the release of 5HT into the intestinal lumen from the EC cells.

Immunohistochemical localization of serotonin transporter in normal and colchicine treated rat brain

Distribution of serotonin transporter (SET) was examined immunohistochemically in the rat brain using two specific polyclonal antibodies raised against oligopeptides corresponding with 15 amino acids of carboxyl terminus and 14 amino acids of amino terminus of rat SET. The distribution and density of SET immunoreactive varicose fibers were quite similar to those of serotonin immunoreactive fibers, however no neuronal cell bodies in the brainstem raphe nuclei was stained in normal rat brain. Electron microscopic study showed that SET immunoreactivity was predominantly localized in the presynaptic terminals. After intraventricular infusion of colchicine, neuronal perikarya of dorsal, median, and pontine raphe nuclei became visible. These results suggest that SET is likely present at the synaptic terminals of serotonergic neurons and such localization may be in good agreement with its pharmacological action which includes reuptake of serotonin at presynaptic nerve terminals.

Increased intestinal glucose absorption and postprandial hyperglycaemia at the early step of glucose intolerance in Otsuka Long-Evans Tokushima Fatty rats

Otsuka Long-Evans Tokushima Fatty (OLETF) rats are reported to be obese Type II (non-insulin-dependent) diabetic rats with insulin resistance and impaired insulin secretion. To investigate the contribution of intestinal glucose absorption to postprandial hyperglycaemia, we determined the plasma xylose concentrations after an 0.8 g/kg oral xylose load which was used as a test of small intestinal glucose absorption in 6-week-old OLETF rats and weight-matched Long-Evans Tokushima Otsuka (LETO) rats. An oral glucose tolerance test showed that OLETF rats developed hyperglycaemia at 60 and 90 min after the glucose load, though the fasting plasma glucose concentration, insulin concentration and insulin-induced in vivo glucose utilization rate were similar. Consistently, in an oral D-xylose loading test, the peak concentration of plasma xylose in OLETF rats was increased by 58.7% compared with that of LETO rats (p < 0.005). The disappearance rate of plasma xylose concentrations after intravenous xylose loading did not differ between the two strains. Co-treatment with 0.4 g/kg phlorizin, a specific inhibitor of sodium-dependent glucose transporter 1 (SGLT1), abolished both plasma glucose and xylose concentrations after the loads. Morphological studies showed that both the small intestinal wet weight and surface area were 30% larger in the OLETF rats than in the LETO rats. Furthermore, the SGLT1 mRNA content of OLETF rats also increased compared with LETO rats. These results suggest that an increased SGLT1 expression concomitant with intestinal hypertrophy in OLETF rats is partly associated with postprandial hyperglycaemia before the onset of insulin resistance and hyperinsulinaemia.

Effect of VIP and PACAP on basal release of serotonin from isolated vascularly and luminally perfused rat duodenum

The effect of vasoactive intestinal polypeptide (VIP), pituitary adenylate cyclase-activating peptide-38 (PACAP-38), and PACAP-27 on the release of serotonin (5-HT) into the intestinal lumen and the portal circulation was studied by using in vivo isolated vascularly and luminally perfused rat duodenum. 5-HT levels were determined by HPLC. VIP, PACAP-38, and PACAP-27 reduced the luminal release of 5-HT but did not affect the vascular release of 5-HT. The inhibitory effect caused by VIP, PACAP-38, and PACAP-27 was not affected by either atropine, hexamethonium, TTX, or TTX plus ACh, but it was completely antagonized by the nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine (L-NNA). The VIP receptor antagonist VIP-(10-28) blocked the effects of VIP, PACAP-38, and PACAP-27. These results suggest that VIP and PACAP exert a direct inhibitory effect on the luminal release of 5-HT from the enterochromaffin (EC) cells via a common receptor site on the EC cells and that this effect is mediated by NO but not by cholinergic pathways. A single injection of TTX, atropine, or hexamethonium reduced the luminal release of 5-HT, whereas a single injection of VIP-(10-28) stimulated the luminal release of 5-HT and this effect was antagonized by atropine, hexamethonium, or TTX. These results suggest that EC cells may receive the direct innervation of cholinergic neurons as well as VIP and/or PACAP neurons, with the former exerting a tonic stimulatory influence and the latter exerting a tonic inhibitory influence on 5-HT release into the intestinal lumen.

Thioperamide, a histamine H3 receptor antagonist, suppresses NPY-but not dynorphin A-induced feeding in rats

Whether or not neuropeptide Y (NPY)-induced feeding in rats is influenced by the histaminergic system in the brain was investigated by intracerebroventricular (i.c.v.) administration of a selective histamine H3 receptor antagonist prior to i.c.v. administration of NPY. NPY (10 microg/10 microl) strongly induced feeding in sated rats during the light phase of the day. Dynorphin A1-17 (10 microg/10 microl), a kappa-opioid agonist, and rat pancreatic polypeptide (rPP, 30 microg/10 microl) also stimulated ingestive behavior in sated rats, but food intake in both cases was less than that induced by NPY. Thioperamide maleate, a specific histamine H3 receptor antagonist (408.5 microg/10 microl) reduced the feeding response to NPY by 52% (P < 0.0001), but not to dynorphin A1-17 and rPP. Thioperamide at i.c.v. doses of 40.8-408.5 microg/10 microl had no effect on food intake in sated rats. These results suggest that the thioperamide may have a specific effect on NPY receptor-mediated neuronal systems related to feeding.

Concerted regulation of early enterocyte differentiation by insulin-like growth factor I, insulin, and transforming growth factor-beta1

To clarify the roles of insulin on the proliferation and differentiation of intestinal epithelial cells (IECs), we examined the effect of insulin-like growth factor-I (IGF-I) and insulin for the growth and differentiation of IEC-6 cells, a crypt cell line derived from rat small intestine. IGF-I (100 nM) stimulated the proliferation of IEC-6 cells, and insulin (1-100 nM) antagonized the IGF-I effect and caused the cells' G1-arrest, resulting in differentiated characteristics of IECs, such as increased general protein synthesis and the formation of microvilli. To clarify the mechanisms of these phenomena, cell surface [125I]insulin binding and the content of immunoreactive insulin receptors were analyzed by Western blotting. Insulin receptors transiently appeared on the cell surface during the early G1 phase after the IGF-I stimulation. Under those conditions, the concomitant presence of insulin stimulated the appearance of active transforming growth factor-beta1 (TGF-beta1) in the media, and then TGF-beta1 antagonized the IGF-I-induced cell proliferation. Such a TGF-beta1 effect was blunted by a neutralizing antibody against TGF-beta1, indicating that the insulin effect was in part mediated through the autocrine-paracrine secretion of TGF-beta1. These results suggest that the regulation of the proliferation of IECs are an early step in those cells' differentiation that may accompany hormonal changes during nutrient intake and may be caused by the sequential effects of IGF-I, insulin, and TGF-beta1.

Urocortin-like immunoreactivity in the substantia nigra, ventral tegmental area and Edinger-Westphal nucleus of rat

Neurons showing intense urocortin-like immunoreactivity (Ucn-IR) were found immunohistochemically in the substantia nigra pars compacta (SNc) and ventral tegmental area (VTA), as well as in Edinger-Westphal nucleus (E-W), in the rat brain. Almost all Ucn-immunoreactive neuronal cell bodies in the SNc and VTA showed immunoreactivity for tyrosine hydroxylase. Injection of a retrograde tracer, colloidal gold-labeled WGAapoHRP, into the cervical spinal cord resulted in labeling of some E-W neurons with Ucn-IR. These findings suggest that Ucn is located in the cell bodies of dopaminergic neurons, as well as in the cell bodies of E-W neurons sending axons to the spinal cord.

Abnormal development of serotonin nerve fibers in the visual cortex in rats with methylazoxymethanol-induced microcephaly

The postnatal development of serotonin (5HT)-immunoreactive axons was studied in the visual cortex of the cerebrum in both normal and microcephalic rats during early postnatal and young adult stages. Severe microcephaly in rat offspring was induced by prenatal exposure to methylazoxymethanol acetate (MAM), an anti-mitotic agent, on day 15 of gestation. From postnatal day 1 (PND 1) to PND 5, fine and short 5HT fibers were irregularly dispersed throughout the occipital cortex in both the control and MAM-treated rats (MAM-rats). A conspicuous aggregation of dot-like 5HT terminals was found in controls, but not in MAM-rats, in a shallow layer of the dorsomedial region of the occipital cortical plate. On PND 7, such an aggregation of 5HT terminals was found in both groups. The density of the aggregation increased up to PND 9, but then decreased gradually, finally becoming unrecognizable at around PND 15 in both groups. MAM-rats, however, always showed hyperaggregation of 5HT terminals when compared with controls on the same PND. The density of 5HT fibers gradually increased, and finally made up a network-like formation at PND 28 in both groups, its pattern was essentially identical to the abnormal distribution of 5HT fibers during the later stage. As a result, the network-like formation of 5HT fibers in the MAM-rats at PND 28 was markedly twisted and somewhat hyperdense. In Nissl-stained preparations from PND 9 to 15, the 5HT terminal aggregation in the control rats was precisely confined to the newly forming layer IV of the visual cortex. In the MAM-rats, on the other hand, the aggregation of 5HT terminals was not associated with a specific cortical layer because of a disarranged cytoarchitecture of the microcephaly.