Changes In Neuropeptide Research Articles

Microarray Analysis of Postictal Transcriptional Regulation of Neuropeptides

Unlike adults, kainic acid (KA)-induced status epilepticus (SE) in immature rats causes neither cell death nor recurrent spontaneous seizures. To elucidate the mechanisms of these distinct responses, transcriptional changes in neuropeptides were examined following KA-induced SE. We aimed to determine whether neuropeptides with anticonvulsant/neuroprotective properties were preferentially increased in immature rats while those with a proconvulsant/neurotoxic role were elevated to a greater extent in mature rats. We used high-density oligonucleotide gene arrays and directly compared transcriptional regulation of seven select neuropeptides at P15 and P30 over five time points. Total RNAs were isolated from hippocampi of 12 animals and pooled to hybridize to triplicate Affymetrix Genechips. Microarray results were validated by real-time quantitative RT-PCR (qRT-PCR). Independent individual RNA samples were purified for triplicate runs of qRT-PCR. Neuropeptides are significantly regulated by seizures in both immature and mature hippocampus. The magnitude of increase is significantly higher at P30 compared with that at P15, not only for neuropeptides with neurotoxic/proconvulsant properties but also for those with neuroprotective/ anticonvulsant properties. Galanin is induced at 24 h only in P30 rats. CST shows high expression in immature hippocampus and is further increased after KA-induced SE only in P15. The expression trends seen in the microarray data are confirmed by qRT-PCR for all six neuropeptides analyzed. CST might play a neuroprotective role in immature rats, and its overexpression might prevent neuronal loss after seizure in adults. Also, suppression of tachykinin and corticotropin-releasing hormone might be effective in alleviating seizure-induced neuronal damage.

Changes in Orexin-A and Neuropeptide Y Expression in the Hypothalamus of Obese and Lean Zucker Diabetic Fatty Rats

This study was carried out to investigate the changes of orexin-A (OXA) and neuropeptide Y (NPY) expression in the hypothalamus of the obese and lean Zucker Diabetic Fatty (ZDF) rats which have a missense mutation in the leptin receptor gene. The mean body weights (MBW) between the obese and lean ZDF rats were significantly different at 28 and 70 postnatal days. However, at 14 postnatal day, there was no significant difference in the MBW between the obese and lean ZDF rats in both male and female. The OXA immunoreactivities were not significantly different between the obese and lean ZDF rats in both sexes at 14, 28, and 70 postnatal days, respectively. The NPY immunoreactivity was higher in the obese than in the lean ZDF rats in both male and female at 28 and 70 postnatal days, whereas there was no significant difference between the obese and lean ZDF rats at 14 postnatal day. These results indicate that both OXA and NPY might halt their roles for food intake in the obese phenotype of the male and female ZDF rats in the preweaning period of 14 postnatal day, whereas NPY might play a main role in the obesity of these rats in the weaning period of 28 and 70 postnatal days.

Changes in neuropeptide y tissue concentration in the wall of the rat urinary bladder after acute distension

Changes in neuropeptide y tissue concentration in the wall of the rat urinary bladder after acute distension

Changes in neuropeptide y tissue concentration in the wall of the rat urinary bladder after acute distension

Neuropeptide Y (NPY) is known to be associated with the adrenergic system. The relationship among the late micturition disorders following acute urinary distension, the adrenergic system and NPY was investigated. A total of 90 rats were included in the study of which 30 acted as the control group. Acute urinary distension was created in 60 rats. The NPY concentration within their bladders was assessed by the use of radioimmunoassay (RIA) at 3 h after distension and subsequently on days 2, 7 and 21, then the third and sixth months. The NPY concentrations assessed in the third and sixth months were compared with the control group in the same age group. By means of the RIA method, a substantial decline of NPY concentration was observed at 2 days after distension, while the concentration started to increase after day 7 (P = 0.003). This increase continued until the twenty first day (P = 0.004). However, a significant decline was maintained when compared to the concentration before distension. In the third and sixth months, a significant decline were observed in the NPY concentration in comparison to the control group (P = 0.004 and P = 0.005, respectively). Early and late micturition disorders experienced after acute urinary distension may be the result of adrenergic denervation which may be related to NPY.

Diurnal changes in hypothalamic neuropeptide and SOCS-3 expression: effects of lactation and relationship with serum leptin and food intake

Rats normally eat about 85% of their food at night. Lactation increases food intake 3- to 4-fold, but the diurnal pattern of food intake persists. The mechanisms responsible for the diurnal and lactation-induced changes in food intake are still unresolved, hence we have further investigated the possible roles of serum leptin and hypothalamic expression of neuropeptide Y (NPY), agouti-related peptide (AgRP) and pro-opiomelanocortin (POMC) in rats. Suppressor of cytokine signalling-3 (SOCS-3) acts as a feedback inhibitor of leptin signalling in the hypothalamus, hence changes in expression of SOCS-3 were also investigated. Changes in expression of NPY, AgRP or POMC alone could not account for the diurnal changes in intake and their alteration by lactation. However, there were increased AgRP mRNA:POMC mRNA ratios at night and also during lactation, which were very similar to estimated changes in food intake. Such changes in expression may result in dominance of the orexigenic AgRP peptide over the appetite-suppressing POMC-derived peptides, and so could contribute to the hyperphagia in these states. Diurnal and lactation-related changes in the AgRP mRNA:POMC mRNA ratio and food intake are not due to changes in leptin alone. However, hypoleptinaemia, possibly through increased expression of NPY, may contribute to the hyperphagia of lactation. In the dark, expression of SOCS-3 was decreased in non-lactating rats; lactation decreased SOCS-3 expression in both light and dark phases. However, such changes are likely to enhance the ability of leptin-responsive neurones to transmit the leptin signal, and so are unlikely to contribute to either the nocturnal increase in appetite or the hyperphagia of lactation.

Changes in hypothalamic neuropeptide Y and monoaminergic system in tumor-bearing rats: Pre- and post-tumor resection and at death

BackgroundCancer anorexia is influenced by the neuropeptidergic and monoaminergic systems. We hypothesize that serotonin (5-HT), dopamine (DA) and neuropeptide Y (NPY) concentrations in paraventricular (PVN), ventromedial (VMN), and lateral hypothalamus (LHA) areas are abnormal in tumor-bearing rats. MethodsFifty-five Fischer rats (240-280 g) were divided into MCA tumor-bearing (TB), nontumor-bearing (NTB), pair-fed (PF), TB sacrificed at the end of experiment (TB-Terminal), TB resection (TB-Resection), NTB sham-operated (NTB-Sham) and pair-fed sham-operated (PF-Sham) groups. Rats were sacrificed at onset of anorexia (TB, NTB, and PF) and 9 days after tumor resection (TB-Resection, NTB-Sham, PF-Sham, and TB-Terminal). Bilateral PVN, VMN, and LHA were harvested for NPY, 5-HT, and DA analyses. ResultsFood intake decreased in TB versus NTB (P < .05). In TB versus NTB, an increase of 5-HT in PVN and VMN occurred with a concomitant decrease in DA. NPY in PVN, VMN, and LHA decreased (P < .05). In TB-Resection versus NTB-Sham, 5-HT, DA, NPY, and FI normalized after tumor resection. ConclusionsCancer anorexia is associated with abnormal serotonin, dopamine, and NPY concentrations, expressed by an increase in 5-HT and a decrease in DA and NPY. After tumor resection, these alterations normalized, providing evidence that the levels of these substances change with anorexia in tumor-bearing rats.

Wounds increase activin in skin and a vasoactive neuropeptide in sensory ganglia

Successful healing of skin wounds requires sensory innervation and the release of vasoactive neuropeptides that dilate blood vessels and deliver serum proteins to the wound, and that cause pain that protects from further injury. Activin has been proposed as a target-derived regulator of sensory neuropeptides during development, but its role in the mature nervous system is unknown. While adult skin contains a low level of activin, protein levels in skin adjacent to a wound increase rapidly after an excision. Neurons containing the neuropeptide calcitonin gene-related peptide (CGRP) increased in sensory ganglia that projected to the wounded skin, but not in ganglia that projected to unwounded skin, suggesting that neurons respond to a local skin signal. Indeed, many adult sensory neurons respond with increased CGRP expression to the application of activin in vitro and utilize a smad-mediated signal transduction pathway in this response. A second skin-derived factor nerve growth factor (NGF) also increased in wounded skin and increased CGRP in cultured adult dorsal root ganglia (DRG) neurons but with lower efficacy. Together, these data support the hypothesis that activin made by skin cells regulates changes in sensory neuropeptides following skin injury, thereby promoting vasodilation and wound healing.

Effect of memantine on the levels of glial cells, neuropeptides, and peptide-degrading enzymes in rat brain regions of ibotenic acid-treated alzheimer's disease model

It has been implicated that glia activation plays a critical role in the progression of Alzheimer's disease (AD). However, the precise mechanism of glia activation is not clearly understood yet. In our present studies, we confirmed our previous results where change the levels of neuropeptides and peptidases in ibotenic acid (IBO) infusion into the rat nucleus basalis magnocellularis, an animal model of AD. Furthermore, we extended our study to investigate a possible protection effect of co-administration on the changes of neuropeptides, and neuronal and glial cells in IBO-infused rat brain by memantine treatment. The levels of substance P and somatostatin were decreased in the striatum and frontal cortex 1 week after IBO infusion, and recovered to the control level by memantine treatment, indicating the involvement of neuropeptides in AD pathology. Furthermore, the immunohistochemical and enzymatic studies of GFAP and CD 11b, and peptidylarginine deiminase, markers of glia, in the striatum and frontal cortex showed the increase in IBO-treated rat brain as compared with controls, while co-administration of memantine and IBO no increase of astrocytes and microglia activation was observed. The present biochemical and immunohistochemical results suggest that glia activation might play an important role to the pathology of AD, and correlate with the changes of neuropeptide levels in AD brain that is recovered by memantine treatment.

Morphological basis of sensory neuropathy and neuroimmunomodulation in minor salivary glands of patients with Sjögren’s syndrome

Objective: A predominance of sensory neuropathy was earlier described in Sjögren’s syndrome (SS), which might precede the presence of sicca symptoms. The mechanism of sensory neuropathy in SS is unknown. Therefore, the aim of this study was to determine the quantitative changes of the different neuropeptide containing nerve terminals and the immunocompetent cells in labial salivary glands of primary SS. Design: Immunohisto- and immunocytochemical methods were used for the detection of immunoreactive (IR) elements and the data were compared with the healthy controls. Results: All of the investigated IR nerve fibres were found in different quantity and localisation in both of control and SS glands. The density of them was changed variously in SS. The number of the substance P (SP), neuropeptide Y (NPY) ( P<0.05), galanin (GAL) IR nerve terminals was decreased, however, the number of vasoactive intestinal polypeptide (VIP) and tyrosine β-hydroxylase (TH) IR nerve fibres ( P<0.05) was increased compared to the control. There were no IR immunocompetent cells in the control materials, however, a large number of them showed IR for SP (46.2%) and NPY (34.4%) in the SS. The IR was demonstrated mainly in the mast cells, plasma cells and some of the lymphocytes. Conclusions: These neuropeptides might have a role in the sensory neuropathy; they might activate nociceptive and sympathetic pathways. Some neuropeptides (SP, NPY) are endogenous in the immunosystem and produced in certain conditions, e.g. inflammation and chronic autoimmune disorders such as SS, so they might participate in the neuroimmunomodulation and contribute to the atrophy, apoptosis and necrosis.

A time course analysis of the changes in neuropeptide Y immunoreactivity in the rat cuneate nucleus following median nerve transection.

Using median nerve injury and immunocytochemical methods, we examined the temporal changes in neuropeptide Y (NPY) expression in the cuneate nucleus (CN) in rats following median nerve transection. Under normal circumstances, neuropeptide Y-immunoreactive (NPY-IR) fibers was not detectable in the CN. A few NPY-IR fibers were observed in the ipsilateral CN 5 days after the median nerve transection, and peaked at 4 weeks. Thereafter, they were gradually returned to nearly control level after 16 weeks. Quantitative evaluation showed that the mean percentage of area occupied by NPY-IR fibers in entire and three subregions of the CN at 4 weeks were significantly higher than that at other post-operated time points, respectively. The present ultrastructural observations in the middle region of CN showed that the significantly increased NPY immunoreactivity was confined only in the myelinated axons and terminals but not detected in the dendrites, somata, and glial cells. The NPY-IR terminals made axodendritic synaptic contacts with unlabeled elements. The present results indicate that the time course of the increase of NPY immunoreactivity is similar to c-Fos expression as described in a previous study. It is speculated that the increased NPY in the CN after axotomy may affect the excitability of postsynaptic cuneate neurons, however, the functional interaction between NPY and c-Fos-IR neurons needs to be further studied.

Effect of memantine on the levels of glial cells, neuropeptides, and peptide-degrading enzymes in rat brain regions of ibotenic acid-treated alzheimer's disease model

It has been implicated that glia activation plays a critical role in the progression of Alzheimer's disease (AD). However, the precise mechanism of glia activation is not clearly understood yet. In our present studies, we confirmed our previous results where change the levels of neuropeptides and peptidases in ibotenic acid (IBO) infusion into the rat nucleus basalis magnocellularis, an animal model of AD. Furthermore, we extended our study to investigate a possible protection effect of co-administration on the changes of neuropeptides, and neuronal and glial cells in IBO-infused rat brain by memantine treatment. The levels of substance P and somatostatin were decreased in the striatum and frontal cortex 1 week after IBO infusion, and recovered to the control level by memantine treatment, indicating the involvement of neuropeptides in AD pathology. Furthermore, the immunohistochemical and enzymatic studies of GFAP and CD 11b, and peptidylarginine deiminase, markers of glia, in the striatum and frontal cortex showed the increase in IBO-treated rat brain as compared with controls, while co-administration of memantine and IBO no increase of astrocytes and microglia activation was observed. The present biochemical and immunohistochemical results suggest that glia activation might play an important role to the pathology of AD, and correlate with the changes of neuropeptide levels in AD brain that is recovered by memantine treatment.

Expressional changes of neuropeptide Y and cholecystokinin in the arcuate and paraventricular nuclei after capsaicin administration.

Despite its toxicity, a great deal of attention has been paid to the anorexic effect of capsaicin in the treatment of obesity-related neurotransmitters/neuromodulators. To determine if capsaicin has any effects on the orexigenic or anorexigenic peptides, the neuropeptide Y (NPY)- and cholecystokinin (CCK)-immunoreactivities were demonstrated in the rat hypothalamus by immunohistochemistry after capsaicin administration. There was a significantly lower concentration of NPY immunopositive cells in the arcuate and paraventricular nuclei of the capsaicin treated rats. In contrast, the CCK expressions level was higher in the paraventricular nucleus of the capsaicin treated rats than in the control rats. These results suggest that capsaicin influence neuropeptides such as orexigenic NPY and anorexigenic CCK related to control food intake.

Changes in orexin-A and neuropeptide Y expression in the hypothalamus of the fasted and high-fat diet fed rats

This study was aimed to investigate the changes of orexin-A (OXA) and neuropeptide Y (NPY) expression in the hypothalamus of the fasted and high-fat diet fed rats. For the experiments, the male Sprague-Dawley (SD) rats were used as the model of high-fat diet-induced obesity. The mean loss of body weight (MLBW) did not show the linear pattern during the fasting; from 24 h to 84 h of fastings, the MLBW was not significantly changed. The numbers of OXA-immunoreactive (IR) neurons were decreased at 84 h of fasting compared with those in other five fasting subgroups. The NPY immunoreactivities in the arcuate nucleus (ARC) and the suprachiasmatic nucleus (SCN) observed at 84 h of fasting were higher than that observed at 24 h of fasting. The number of OXA-IR neurons of the LHA (lateral hypothalamic area) in the high-fat (HF) diet fed group was more increased than that of the same area in the normal-fat (NF) diet fed group. The NPY immunoreactivities of the ARC and the SCN were higher in HF group than those observed in the same areas of NF group. Based on these results, it is noteworthy that the decrease of the body weight during the fast was not proportionate to the time-course, implicating a possible adaptation of the body for survival against starvation. The HF diet might activate the OXA and the NPY in the LHA to enhance food intake.

Neuropeptide alterations in the hippocampal formation and cortex of transgenic mice overexpressing β-amyloid precursor protein (APP) with the Swedish double mutation (APP23)

The role of neuropeptides and the significance of peptidergic mechanisms in neurodegenerative diseases are still unclear. In the periphery, nerve injury results in dramatic changes in the expression of neuropeptides. An important question regards to what extent similar changes occur, and similar mechanisms operate, after lesions and/or degeneration in the brain. The purpose of this work is, therefore, to study neuropeptides with regard to their presence and distribution in the APP23 mouse (HuAPP 751 K670M/N671L under the murine Thy-1 promoter), a model for Alzheimer's disease, or cerebral amyloidosis, using the immunohistochemical technique. In addition, tyrosine hydroxylase and acetylcholinesterase were analyzed. This study shows marked neuropeptide changes in the hippocampal formation and the ventral cortex, whereas the dorsolateral neocortex was less affected. There was a considerable variation with regard to peptide expression among animals of the same age which was related to the variation in Aβ deposition. Dystrophic and varicose fibers containing galanin, neuropeptide Y, enkephalin, and especially cholecystokinin were commonly seen in close proximity to amyloid plaques. In addition, generalized changes were observed, such as increases of enkephalin and neuropeptide Y in stratum lacunosum moleculare and of neuropeptide Y, enkephalin, and dynorphin in mossy fibers. In contrast, cholecystokinin was decreased in mossy fibers. Comparatively small differences were observed between wild-type and transgenic mice with regard to tyrosine hydroxylase (noradrenergic but also dopaminergic fibers) and acetylcholine esterase (mainly cholinergic fibers). The increase of neuropeptides in dystrophic fibers in this model may represent a response to nerve injury caused by the amyloid accumulation and may reflect attempts to counteract degeneration by initiating protective and/or regenerative processes.

Selective roles for the PC2 processing enzyme in the regulation of peptide neurotransmitter levels in brain and peripheral neuroendocrine tissues of PC2 deficient mice

The prohormone convertase 2 (PC2) is hypothesized to convert multiple pro-neuropeptides into active peptides that function as neurotransmitters. To examine the in vivo role of PC2 in neuropeptide production, the tissue contents of six different neuropeptides in brain and peripheral nervous tissues were examined in PC2 deficient mice. Specific neuropeptide radioimmunoassays and RP-HPLC (reverse-phase HPLC) provided evaluation of processed, active neuropeptides in brain and neuroendocrine tissues of PC2 deficient mice. Results demonstrated three features with regard to the selective roles of PC2 in determining the production of NPY, somatostatin-28, enkephalin, VIP, galanin, and CRF in neuroendocrine tissues. Firstly, PC2 deficient mice showed changes in several neuropeptides, but not all neuropeptides examined. The absence of active PC2 resulted in altered cellular levels of NPY, somatostatin-28, and (Met)enkephalin; few changes in VIP or galanin occurred in the tissues examined. CRF content was not altered in brains of PC2 deficient mice. Secondly, comparison of a single neuropeptide among different tissues of PC2 deficient mice demonstrated tissue-selective roles for PC2 in production of the neuropeptide. For example, NPY levels were decreased in ileum of PC2 deficient mice, but NPY content was not altered in hypothalamus that is abundant in NPY. In addition, (Met)enkephalin levels in hypothalamus and cortex were decreased in PC2 deficient mice, but no changes were observed in adrenal or intestine. Thirdly, a single tissue region often showed selective alterations among different neuropeptides. For example, the neuropeptide-rich hypothalamus region showed decreased (Met)enkephalin in PC2 deficient mice, but NPY, VIP, galanin, and CRF were not altered. These results demonstrate the selective role of PC2 in neuropeptide production that provides active peptide neurotransmitter or hormones for biological functions in brain and neuroendocrine systems.

Regulation of neuropeptide mRNA expression in the basal ganglia by intrastriatal and intranigral transplants in the rat Parkinson model

Previous studies have shown that intrastriatal transplants of dopamine (DA)-rich fetal ventral mesencephalic (VM) tissue can correct denervation-induced changes in the cellular expression of neuropeptide and receptor mRNAs in the rat Parkinson model. However, with the standard transplantation approach normalization of all cellular parameters has not been obtained. This may be due either to the incomplete striatal reinnervation achieved by these transplants, or to the ectopic placement of the grafts. In the present study we have used a microtransplantation approach to obtain a more complete reinnervation of the denervated striatum (20 micrograft deposits spread over the entire structure). Neurons were also implanted directly into the substantia nigra. In rats with multiple intrastriatal VM transplants the lesion-induced upregulation of mRNAs encoding for preproenkephalin (PPE), the D 2-type DA-receptor, and the GABA-synthesizing enzyme glutamic acid decarboxylase (GAD 67) was normalized throughout the striatum, whereas the lesion-induced downregulation of preprotachykinin mRNA was unaffected. Intranigral grafts of either fetal DA-rich VM tissue or GABA-rich striatal tissue did not induce any changes in striatal neuropeptide and D 2-receptor mRNA expression despite significant behavioral improvement. Comparison of the behavioral data with levels of neuropeptide expression showed that in rats with intrastriatal VM transplants a complete normalization of striatal PPE and GAD 67 mRNA expression did not translate into a complete recovery of spontaneous motor behaviors. The results show that extensive DA reinnervation of the host striatum by multiple VM microtransplants is insufficient to obtain full recovery of all lesion-induced changes at both the cellular and the behavioral level. A full reconstruction of the nigrostriatal pathway or, alternatively, modulation of basal ganglia function by grafting in non-striatal regions may be required to further improve the functional outcome in the DA-denervated brain.

Postnatal development of the hypothalamic neuropeptide Y system

In the adult rat, arcuate-neuropeptide Y/agouti-related protein neurons have efferent projections throughout the hypothalamus and provide a potent orexigenic stimulus. At birth neuropeptide Y fibers are also present throughout the hypothalamus; however, the source of these fibers has been unknown. The present studies determined the postnatal ontogeny of arcuate-neuropeptide Y fibers into the paraventricular nucleus and dorsomedial hypothalamic nucleus, as well as the ontogeny of neuropeptide Y1 receptor expression within these areas. Agouti-related protein messenger RNA and protein expression was present exclusively in cell bodies in the arcuate throughout postnatal development, starting at P2, and was colocalized in the vast majority of arcuate-neuropeptide Y neurons. This exclusive colocalization of agouti-related protein with arcuate-neuropeptide Y neurons makes it an excellent marker for these neurons and their projections. Even though single-label neuropeptide Y fibers were abundant in the dorsomedial hypothalamic nucleus and paraventricular nucleus as early as P2, arcuate-neuropeptide Y/agouti-related protein fibers did not significantly innervate these areas until P5-6 and P10-11, respectively. In contrast, a portion of the neuropeptide Y fibers within the paraventricular nucleus as early as P2 originated from the brainstem, as indicated by their colocalization with dopamine β hydroxylase. It remains to be determined if local sources of neuropeptide Y-expressing cells within the dorsomedial hypothalamic nucleus and paraventricular nucleus also contribute to the neuropeptide Y-immunoreactive fibers within these regions prior to the development of arcuate-neuropeptide Y/agouti-related protein projections. In addition to the dramatic change in arcuate-neuropeptide Y/agouti-related protein projections, there is also a striking change in Y1 protein expression in the hypothalamus during the first two postnatal weeks. Taken together these data suggest that the early postnatal period, during which there is a dynamic change in the hypothalamic neuropeptide Y system, may constitute a critical period in the development of this important feeding circuit.

Decreased NPY innervation of the hypothalamic nuclei in rats with cancer anorexia

Whether the decrease in food intake that occurs at the onset of anorexia in tumor bearing (TB) rats is related to a change in the hypothalamic neuropeptide Y (NPY) system was tested by comparing NPY expression in sham operated Fischer Control and anorectic TB rats. Coronal cryocut sections of their fixed brain were processed by the peroxidase–antiperoxidase method with NPY polyclonal antibodies. NPY-immunoreactive fibers were widely distributed throughout the forebrain, but were most prominent in the hypothalamic paraventricular, suprachiasmatic, arcuate and periventricular nuclei. NPY-immunoreactive neurons were visualized in Control and anorectic TB rats in the preoptic region, the arcuate nucleus, and occasionally in the lateral hypothalamus. Semiquantitative image analysis showed a significant decrease in the NPY immunostaining in some hypothalamic nuclei of the anorectic TB rats, most prominently in the supraoptic nucleus, the parvocellular portion of the paraventricular nucleus, and, to a lesser extent, the suprachiasmatic and arcuate nuclei. No changes in NPY innervation were seen in the ventromedial nucleus and the lateral hypothalamus. The data support the hypothesis of an altered hypothalamic NPY system at the onset of anorexia in TB rats and also reveal the hypothalamic nuclei through which NPY influences food intake.

Changes in gastrointestinal motility after subtotal colectomy in dogs.

This study was conducted to examine recovery from diarrhea after subtotal colectomy by observing changes in gastrointestinal motility, neuropeptides, and autonomic nerves in the enteric nervous system in dogs. The moisture volume of intestinal matter recovered from the ileal side of the anastomosis was defined as the diarrhea index. Gastrointestinal motility was measured using strain gauge force transducers (SG) for 24 weeks after subtotal colectomy. Immunohistochemical changes in neuropeptides in the residual intestine, acetylcholinesterase activation of cholinergic fibers, and fluorohistochemical changes of adrenergic fibers in the myenteric plexuses were evaluated. The digestive tract transit time returned to normal in the early postoperative period, but decreased moisture volume was seen in the intestinal matter after 8 postoperative weeks. Migrating contraction waves propagating beyond the site of anastomosis, signaling recovery of intestinal motility, were noted after 8 postoperative weeks, corresponding to reconstruction of cholinergic fibers in the anastomotic section. Transient activation of vasoactive intestinal polypeptide was seen in the residual intestine, but this had normalized by the eighth postoperative week. Lengthened villi in the residual intestine were also seen after 8 postoperative weeks. The decreased moisture volume in the intestinal matter is due to the improvements we observed in the eighth postoperative week.

Differential changes in messenger RNA expressions and binding sites of neuropeptide Y Y 1, Y 2 and Y 5 receptors in the hippocampus of an epileptic mutant rat: Noda epileptic rat

The anti-convulsive effects of neuropeptide Y have been suggested in several animal models of epilepsy. We have found the sustained increase of neuropeptide Y contents and the seizure-induced elevation of hippocampal messenger RNA in a novel spontaneous epileptic mutant rat: Noda epileptic rat. In the present study, we investigated the change of neuropeptide Y Y 1 and Y 2 receptor messenger RNA expressions and binding sites in the hippocampus following a spontaneous generalized tonic–clonic seizure of Noda epileptic rat. Furthermore, the binding sites of a more recently isolated receptor subtype, neuropeptide Y Y 5 receptors, were also evaluated by receptor autoradiography. A marked elevation of neuropeptide Y immunoreactivity in the mossy fiber, and Y 2-receptor up-regulation in the dentate gyrus were observed in the hippocampus of Noda epileptic rat, which coincided with the previous results of the other epileptic models. In contrast, Y 1-receptor down-regulation was not found after a spontaneous seizure of Noda epileptic rat while this occurs in kindling and after kainic acid-induced seizures. [ 125I][Leu 31, Pro 34]peptide YY/BIBP 3226-insensitive (Y 5 receptor) binding sites in CA1 stratum radiatum were significantly decreased following a spontaneous seizure of Noda epileptic rat. The present results suggest that a spontaneous seizure of Noda epileptic rat induces significant changes in neuropeptide Y-mediated transmission in the hippocampus via Y 2 and Y 5 receptors, but not Y 1 receptors. Therefore, specific subset of neuropeptide Y receptor subtypes might be involved in the epileptogenesis of Noda epileptic rat.