Effect of radiation on cAMP,cGMP and Ca(2+)(i) pathways and their interactions in rat distal colon

The secretory response implicated in the intestinal response to luminal attack is altered by radiation. The cAMP, cGMP and Ca(2+)(i) pathways leading to secretion as well as the interactions between the cAMP pathway and the cGMP or Ca(2+)(i) pathway were studied in the rat distal colon 4 days after a 9-Gy abdominal X irradiation, when modifications mainly occurred. The secretory response in Ussing chambers and cAMP and cGMP accumulation in single isolated crypts were measured. The muscarinic receptor characteristics were determined in mucosal membrane preparations. The secretory response by the cAMP pathway (stimulated by vasoactive intestinal peptide or forskolin) and the cAMP accumulation in crypts were decreased (P < 0.05) after irradiation. The weak secretory response induced by the cGMP pathway (stimulated by nitric oxide or guanylin) was unaltered by radiation, and the small amount of cGMP determined in isolated crypts from the control group became undetectable in the irradiated group. Inducible NOS was not involved in the hyporesponsiveness to VIP after irradiation (there was no effect of an iNOS inhibitor). The secretory response by the Ca(2+)(i) pathway (stimulated by carbachol) was unaffected despite a decreased number and increased affinity of muscarinic receptors. The non-additivity of VIP and carbachol co-stimulated responses was unmodified. In contrast, VIP and SNP co-stimulation showed that NO enhanced the radiation-induced hyporesponsiveness to VIP through a reduced accumulation of cAMP in crypts. This study provides further understanding of the effect of ionizing radiation on the intracellular signaling pathways.     

Pretreatment with muscarinic receptor agonist activates a calcium-inhibitable adenylate cyclase in GH3 pituitary cells

We have demonstrated previously that pretreatment of GH3 pituitary cells with muscarinic agonists may induce a higher cAMP formation in response to vasoactive intestinal peptide (VIP) or forskolin. In the present study, we further examined the adenylate cyclase (AC) that may be involved. We found that carbachol-pretreatment enhanced both VIP- and forskolin-activated AC activities. The addition of calcium ions to the incubation buffer diminished this enhancing effect. Carbachol was found to induce a decrease in intracellular calcium concentration [Ca2+]i by inhibiting calcium influx through L-type Ca2+ channels. However, the incubation of cells in Ca(2+)-free buffer or in the presence of L-type Ca2+ channel blockers had no influence on forskolin-stimulated cAMP formation, although both treatments induced decreases in [Ca2+]i as carbachol did. On the other hand, incubation in the presence of LaCl3 at a low concentration not being able to enter cells, forskolin-stimulated cAMP formation as well as the enhancing effect of carbachol-pretreatment on this response, were both suppressed. Similar phenomena were observed when membrane-bound AC activities were measured in the presence of LaCl3. Taken together, these results seem to suggest that pretreatment of GH3 cells with muscarinic receptor agonist may activate a Ca(2+)-inhibitable AC for a higher stimulated response. Low intracellular calcium concentrations are essential but not sufficient for this effect.     

Secretory actions of vasoactive intestinal polypeptide, peptide histidine isoleucine and helodermin in rat small intestine: the effects of putative VIP antagonists upon VIP-induced ion secretion

Vasoactive intestinal polypeptide (VIP), peptide histidine isoleucine (PHI), and helodermin stimulate electrogenic anion secretion in preparations of rat jejunum stripped of muscularis propria. Concentration-response curves to exogenously applied peptides yielded EC50 values of 12 nM, 12 nM and 100 nM for VIP, PHI and helodermin respectively. These secretory responses were most probably mediated via the same receptor population given that cross-desensitisation was observed between all 3 analogues. Four putative VIP antagonists, namely, two growth hormone releasing factors (GRF); [AcTyr1, D-Phe2]GRF-(1-29)-NH2 and [AcTyr1]hGRF-(1-40)-OH as well as [4Cl-D-Phe6,Leu17]VIP and VIP-(10-28) were tested for their ability to inhibit VIP induced electrogenic ion secretion. None of the above exhibited any intrinsic agonist activity nor were they competitive antagonists, although some inhibition was observed with [AcTyr1]hGRF-(1-40)-OH and VIP-(10-28). Their use as selective VIP antagonists is therefore limited in rat jejunal mucosa.     

Differential Involvement of the Arachidonic Acid Cascade on the α1-Adrenergic Potentiation of Vasoactive Intestinal Peptide-Versus β-Adrenergic-Stimulated Cyclic AMP and Cyclic GMP Accumulation in Rat Pinealocytes

In the rat pineal gland, alpha 1-adrenergic agonists, which stimulate arachidonic acid release, also potentiate vasoactive intestinal peptide (VIP)- or beta-adrenergic-stimulated cyclic AMP (cAMP) and cyclic GMP (cGMP) accumulation. In this study, the possible involvement of the arachidonic acid pathway in the potentiation mechanism was examined in dispersed rat pinealocytes using two inhibitors of the arachidonic acid cascade, indomethacin and nordihydroguaiaretic acid. These two inhibitors appeared to have differential effects on the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP responses. Whereas nordihydroguaiaretic acid was effective in suppressing both the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP responses, indomethacin inhibited selectively the VIP-mediated cAMP and cGMP responses. The role of arachidonic acid metabolites was further determined using several prostaglandins--A2, I2, E2, and F2 alpha--and leukotrienes--B4, C4, and D4. Of the seven compounds tested, prostaglandins E2 and F2 alpha stimulated basal cAMP but not cGMP accumulation. The prostaglandin E2- and F2 alpha-stimulated cAMP responses were additive to those stimulated by VIP or beta-adrenergic receptors. The other five compounds had no effects on basal or VIP- or beta-adrenergic-stimulated cAMP or cGMP accumulation. Taken together, these findings indicate that the arachidonic acid cascade is likely involved in the alpha 1-adrenergic potentiation of VIP- or beta-adrenergic-stimulated cAMP and cGMP accumulation. However, the specific arachidonic acid metabolite involved in the potentiation mechanisms of VIP- versus beta-adrenergic-stimulated cyclic nucleotide responses may be different.     

Vasoactive intestinal polypeptide stimulates cyclic AMP production in mouse N1E-115 neuroblastoma cells: Modulation by a protein kinase C activator and ionomycin

In this study, we investigated the vasoactive intestinal polypeptide (VIP)-stimulated cAMP production and its interaction with protein kinase C activation and elevation of intracellular Ca²⁺ in N1E-115 neuroblastoma cells. VIP treatment caused a 55-fold increase in cAMP accumulation. Addition of 4β-phorbol 12-myristate 13-acetate reduced VIP-but not forskolin-stimulated cAMP response. In comparison, ionomycin potentiated both VIP- and forskolin-induced cAMP accumulation. Our results indicate that VIP stimulates cAMP accumulation in N1E-115 cells, and that although activation of protein kinase C inhibits the VIP-stimulated cAMP response, elevation of intracellular Ca²⁺ potentiates this signaling pathway.     

Pharmacological evidence for both neuronal and smooth muscular PAC1 receptors and a VIP-specific receptor in rat colon

The receptors for vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase activating peptide (PACAP) were characterised in vitro on rat colon longitudinal smooth muscle with adherent myenteric ganglia. VIP, PACAP-38 and PACAP-27 all caused concentration-dependent relaxations. PACAP-27 and PACAP-38 were equipotent, while VIP was less potent. Tetrodotoxin (10(-6) M), L-NAME (10(-4) M), 7-NINA (10(-5) M) and ODQ (3 x 10(-6) M) reduced the amplitude of the relaxatory responses to PACAP-38 but did not affect relaxations induced by VIP or PACAP-27. Apamin (10(-6) M) almost totally abolished the PACAP-27- and PACAP-38-induced relaxations, while VIP-induced relaxations were only slightly reduced. Tetraethylammonium (TEA) reduced VIP- but not PACAP-27-induced relaxations, while charybdotoxin was ineffective. Cross-desensitisation between PACAP-27, PACAP-38 and VIP could be revealed to some extent. In conclusion: VIP, PACAP-27 and PACAP-38 are effective relaxants in rat colon longitudinal muscle. The receptors involved are classified as: (1) a neuronal PAC1 receptor localised on NO-synthesising neurones, the preferred ligand being PACAP-38. Activation of this receptor leads to an increased NO production. (2) A smooth muscle PAC1 receptor, the preferred ligand being PACAP-27. However, also PACAP-38 and, to a less extent, VIP activate this receptor. The relaxatory responses elicited by both PACAP-27 and PACAP-38 are abolished by apamin and thus mediated through small conductance Ca2+-activated K+ channels. (3) A VIP-specific receptor localised on smooth muscle cells. The mechanisms whereby this receptor elicits a relaxatory response involve, at least to some extent, TEA-sensitive K+ channels.     

Interleukin 6 modulation of second messenger systems in anterior pituitary cells.

We investigated the effect of interleukin-6 (IL-6) on second messenger systems in anterior pituitary (AP) cells. The acute exposition of membranes derived from the pituitary gland to IL-6 did not modify basal and forskolin-stimulated adenylate cyclase (AC) activity, as well as inositol phosphate (IP) production and free [Ca(++)]i. Preincubation of AP cells with IL-6 for 20 min did not affect basal second messengers levels, while completely abolished the stimulation by VIP of AC activity, partially inhibited forskolin-stimulated cAMP formation and reduced TRH-stimulated IP production. Finally, the pretreatment of AP cells for 20 min with IL-6 also reduced the TRH-induced rise in free [Ca(++)]i.     

The effect of continuous irradiation on cell proliferation and maturation in small intestinal epithelium.

Autoradiographic studies and scintillation counting of crypt material after pulse labelling with 3H-thymidine showed that during continuous irradiation with 290 rads/day a reduced proliferative activity is present in the crypts of rat small intestine after 1 day of irradiation and of normal activity during the remaining period (5 days) irradiation. After cessation of irradiation an increase in proliferative activity can be observed after 1 day of recovery. From the time (36-48 hr after starting of the irradiation) that the number of villus cells is reduced an expansion of the proliferation zone in the crypt was observed. Both effects last until 1 day of recovery after cessation of irradiation. The process of crypt cell maturation and of villus cell function has also been studied during and after continuous irradiation by micro-chemical enzyme analyses in isolated crypts and villi. It was found that the expansion of the proliferation zone in the crypt is accompanied by a decrease in activity of only those enzymes (i.e. non-specific esterases) which normally become active during crypt cell maturation. The activity of enzymes normally present mainly in the functional villus cells remained relatively unaffected by changes in crypt cell kinetics. A hypothesis of different regulation mechanisms of the proliferative activity in the intestinal crypt and a possible explanation of the different behaviour of various enzyme activities as a result of changes in crypt cell proliferation is discussed.     

THE EFFECT OF CONTINUOUS IRRADIATION ON CELL PROLIFERATION AND MATURATION IN SMALL INTESTINAL EPITHELIUM

Autoradiographic studies and scintillation counting of crypt material after pulse labelling with ³H-thymidine showed that during continuous irradiation with 290 rads/day a reduced proliferative activity is present in the crypts of rat small intestine after 1 day of irradiation and of normal activity during the remaining period (5 days) irradiation. After cessation of irradiation an increase in proliferative activity can be observed after 1 day of recovery. From the time (36–48 hr after starting of the irradiation) that the number of villus cells is reduced an expansion of the proliferation zone in the crypt was observed. Both effects last until 1 day of recovery after cessation of irradiation. The process of crypt cell maturation and of villus cell function has also been studied during and after continuous irradiation by micro-chemical enzyme analyses in isolated crypts and villi. It was found that the expansion of the proliferation zone in the crypt is accompanied by a decrease in activity of only those enzymes (i.e. non-specific esterases) which normally become active during crypt cell maturation. The activity of enzymes normally present mainly in the functional villus cells remained relatively unaffected by changes in crypt cell kinetics. A hypothesis of different regulation mechanisms of the proliferative activity in the intestinal crypt and a possible explanation of the different behaviour of various enzyme activities as a result of changes in crypt cell proliferation is discussed.     

Calcium-sensing receptor inhibits secretagogue-induced electrolyte secretion by intestine via the enteric nervous system

Bacterial toxins such as cholera toxin induce diarrhea by both direct epithelial cell generation of cyclic nucleotides as well as stimulation of the enteric nervous system (ENS). Agonists of the extracellular calcium-sensing receptor (CaSR) can reduce toxin-stimulated fluid secretion in ENS-absent colonic epithelial crypts by increasing phosphodiesterase-dependent cyclic-nucleotide degradation. Here we show that the CaSR is also highly expressed in tetrodotoxin (TTX)-sensitive neurons comprising the ENS, suggesting that CaSR agonists might also function through neuronal pathways. To test this hypothesis, rat colon segments containing intact ENS were isolated and mounted on Ussing chambers. Basal and cyclic nucleotide-stimulated electrolyte secretions were monitored by measuring changes in short-circuit current (I(sc)). CaSR was activated by R-568 and its effects were compared in the presence and absence of TTX. Consistent with active regulation of anion secretion by the ENS, a significant proportion of I(sc) in the proximal and distal colon was inhibited by serosal TTX, both at basal and under cyclic AMP-stimulated conditions. In the absence of TTX, activation of CaSR with R-568 significantly reduced basal I(sc) and cyclic AMP-stimulated I(sc); it also completely reversed the cAMP-stimulated secretory responses if the drug was applied after the forskolin stimulation. Such inhibitory effects of R-568 were either absent or significantly reduced when serosal TTX was present, suggesting that this agonist exerts its antisecretory effect on the intestine by inhibiting ENS. The present results suggest a new model for regulating intestinal fluid transport in which neuronal and nonneuronal secretagogue actions are modulated by the inhibitory effects of CaSR on the ENS. The ability of a CaSR agonist to reduce secretagogue-stimulated Cl(-) secretion might provide a new therapeutic approach for secretory and other ENS-mediated diarrheal conditions.     

Differences in survival of mouse colon crypts after whole- or partial-body irradiation.

The survival of mouse colon crypts after X-irradiation has been studied by the microcolony technique. The Do for crypt survival was 266 rad after whole-body irradiation in air, but when the colon alone was irradiated, the Do was 340 rad. In mice which were breathing 95 per cent oxygen, the Do values were 238 rad for whole-body and 302 rad for colon irradiation. The survival curves were all extrapolated to the same number, and the DQ was also increased with colon irradiation. There was, therefore an enhancement of colon crypt survival of about 27 per cent by local as opposed to whole-body irradiation. These results might be explained by a circulating repair promoter or by the production of a toxin after whole-body irradiation.     

Coupling of a cloned rat dopamine-D2 receptor to inhibition of adenylyl cyclase and prolactin secretion.

We have previously described a cDNA which encodes a binding site with the pharmacology of the D2-dopamine receptor (Bunzow, J. R., VanTol, H. H. M., Grandy, D. K., Albert, P., Salon, J., Christie, M., Machida, C., Neve, K. A., and Civelli, O. (1988) Nature 336, 783-787). We demonstrate here that this protein is a functional receptor, i.e. it couples to G-proteins to inhibit cAMP generation and hormone secretion. The cDNA was expressed in GH4C1 cells, a rat somatomammotrophic cell strain which lacks dopamine receptors. Stable transfectants were isolated and one clone, GH4ZR7, which had the highest levels of D2-dopamine receptor mRNA on Northern blot, was studied in detail. Binding of D2-dopamine antagonist [3H]spiperone to membranes isolated from GH4ZR7 cells was saturable, with KD = 96 pM, and Bmax = 2300 fmol/mg protein. Addition of GTP/NaCl increased the IC50 value for dopamine competition for [3H]spiperone binding by 2-fold, indicating that the D2-dopamine receptor interacts with one or more G-proteins. To assess the function of the dopamine-binding site, acute biological actions of dopamine were characterized in GH4ZR7 cells. Dopamine, at concentrations found in vivo, decreased resting intra- and extracellular cAMP levels (EC50 = 8 +/- 2 nM) by 50-70% and blocked completely vasoactive intestinal peptide (VIP) induced enhancement of cAMP levels (EC50 = 6 +/- 1 nM). Antagonism of dopamine-induced inhibition of VIP-enhanced cAMP levels by spiperone, (+)-butaclamol, (-)-sulpiride, and SCH23390 occurred at concentrations expected from KI values for these antagonists at the D2-receptor and was stereoselective. Dopamine (as well as several D2-selective agonists) inhibited forskolin-stimulated adenylate cyclase activity by 45 +/- 6%, with EC50 of 500-800 nM in GH4ZR7 membranes. Dopaminergic inhibition of cellular cAMP levels and of adenylyl cyclase activity in membrane preparations was abolished by pretreatment with pertussis toxin (50 ng/ml, 16 h). Dopamine (200 nM) abolished VIP- and thyrotropin-releasing hormone-induced acute prolactin release. These data show conclusively that the cDNA clone encodes a functional dopamine-D2 receptor which couples to G-proteins to inhibit adenylyl cyclase and both cAMP-dependent and cAMP-independent hormone secretion.     

The influence of 400 r x-irradiation on the number and the localization of mature and immature goblet cells and Paneth cells in intestinal crypt and villus.

The influence of 400 R X-irradiation on the localization and the number of mature and immature goblet cells and Paneth cells in rat duodenal epithelium has been studied. At short times after irradiation, when the total proliferative activity in the crypts of Lieberkuhn is reduced, the proportion of mature and immature goblet cells of the total number of crypt cells was increased; also an absolute increase in the number of goblet cells in the crypts was found. The immature goblet cells were localized in the lower half of the crypt as in control animals, whereas the number of the mature cells increased over the whole crypt length. When the proliferative activity of the crypt cells increases again from 12 to 48 hr after irradiation the number of both types of goblet cells decreases. Between 48 and 72 hr, when the whole crypt is involved in proliferation, a second increase of both types of goblet cells was found. However, the localization of the immature goblet cells is no longer restricted to the lower half of the crypt but they also appear at the higher cell positions. On the villus no immature goblet cells were found and the changes in the numbers of mature goblet cells do reflect the changes induced by irradiation in the goblet cell population in the crypt. The absolute number and localization of Paneth cells did not change under the experimental conditions. The findings are discussed in relation to cell proliferation and differentiation processes in intestinal crypts.     

THE INFLUENCE OF 400 R X-IRRADIATION ON THE NUMBER and THE OCALIZATION OF MATURE and IMMATURE GOBLET CELLS and PANETH CELLS IN INTESTINAL CRYPT and VILLUS

The influence of 400 R X-irradiation on the localization and the number of mature and immature goblet cells and Paneth cells in rat duodenal epithelium has been studied. At short times after irradiation, when the total proliferative activity in the crypts of Lieberkiihn is reduced, the proportion of mature and immature goblet cells of the total number of crypt cells was increased; also an absolute increase in the number of goblet cells in the crypts was found. The immature goblet cells were localized in the lower half of the crypt as in control animals, whereas the number of the mature cells increased over the whole crypt length. When the proliferative activity of the crypt cells increases again from 12 to 48 hr after irradiation the number of both types of goblet cells decreases. Between 48 and 72 hr, when the whole crypt is involved in proliferation, a second increase of both types of goblet cells was found. However, the localization of the immature goblet cells is no longer restricted to the lower half of the crypt but they also appear at the higher cell positions. On the villus no immature goblet cells were found and the changes in the numbers of mature goblet cells do reflect the changes induced by irradiation in the goblet cell population in the crypt. The absolute number and localization of Paneth cells did not change under the experimental conditions. The findings are discussed in relation to cell proliferation and differentiation processes in intestinal crypts.     

Characterization of altered absorptive and secretory functions in the rat colon after abdominal irradiation: comparison with the effects of total-body irradiation.

The aim of this work was to determine the alterations in the absorptive and secretory functions of the rat colon after abdominal irradiation and to compare the effects of abdominal and whole-body irradiation. Rats received an abdominal irradiation with 8 to 12 Gy and were studied at 1, 4 and 7 days after exposure. Water and electrolyte absorption was measured in vivo by insertion of an agarose cylinder into the colons of anesthetized rats. In vitro measurements of potential difference, short-circuit current and tissue conductance were performed in Ussing chambers under basal and agonist-stimulated conditions. Most of the changes appeared at 4 days after abdominal irradiation. At this time, a decrease in water and electrolyte absorption in the colon was observed for radiation doses > or = 9 Gy. The response to secretagogues (VIP, 5-HT and forskolin) was attenuated after 10 and 12 Gy. Epithelial integrity, estimated by potential difference and tissue conductance, was altered from 1 to 7 days after 12 Gy abdominal irradiation. These results show that the function of the colon was affected by abdominal irradiation. Comparison with earlier results for total-body irradiation demonstrated a difference of 2 Gy in the radiation dose needed to induce changes in the function of the colon.     

Colon Cryptogenesis: Asymmetric Budding

The process of crypt formation and the roles of Wnt and cell-cell adhesion signaling in cryptogenesis are not well described; but are important to the understanding of both normal and cancer colon crypt biology. A quantitative 3D-microscopy and image analysis technique is used to study the frequency, morphology and molecular topography associated with crypt formation. Measurements along the colon reveal the details of crypt formation and some key underlying biochemical signals regulating normal colon biology. Our measurements revealed an asymmetrical crypt budding process, contrary to the previously reported symmetrical fission of crypts. 3D immunofluorescence analyses reveals heterogeneity in the subcellular distribution of E-cadherin and β-catenin in distinct crypt populations. This heterogeneity was also found in asymmetrical budding crypts. Singular crypt formation (i.e. no multiple new crypts forming from one parent crypt) were observed in crypts isolated from the normal colon mucosa, suggestive of a singular constraint mechanism to prevent aberrant crypt production. The technique presented improves our understanding of cryptogenesis and suggests that excess colon crypt formation occurs when Wnt signaling is perturbed (e.g. by truncation of adenomatous polyposis coli, APC protein) in most colon cancers.     

Antisecretory effects of somatostatin and vasopressin in the rat colon descendens in vitro

The effects of two hormones, vasopressin and somatostatin (SOM), on ion secretion in rat colon descendens were compared. Three modes for induction of epithelial secretion were used: neuronally mediated secretion due to electric field stimulation (EFS), Ca2+-dependent secretion elicited by carbachol, and cAMP-dependent secretion evoked either by a receptor-mediated mechanism elicited by vasoactive intestinal peptide (VIP) or by a direct activation of the adenylate cyclase by means of forskolin. Somatostatin inhibited ion secretion evoked by EFS (55-65%), carbachol (80%) and VIP (95%) in a dose-dependent manner. Maximal inhibition by SOM was observed at 10(-7) M. Somatostatin had, however, no effect on the secretory response to forskolin. The inhibition of the VIP effect could be attenuated by pretreatment with pertussis toxin. In contrast, vasopressin in concentrations as low as 0.025-0.25 U/liter decreased the secretory effects of EFS (55-75%) and carbachol (85%), but had no effect on cAMP-dependent secretion elicited either by VIP or forskolin. The results suggest that the antisecretory effect of vasopressin is mediated only by a block in the Ca2+ pathway, whereas SOM inhibits Ca2+-dependent secretion as well as receptor-mediated cAMP-dependent secretion. The interaction with the cAMP pathway is located at the step between stimulation of the receptor and activation of the adenylate cyclase and probably involves an Ni-protein.     

Effects of VIP and NO on the motor activity of vascularly perfused rat proximal colon

The effects of vasoactive intestinal polypeptide (VIP) and nitric oxide (NO) on the motor activity of the rat proximal colon were examined in an ex vivo model of vascularly perfused rat proximal colon. VIP reduced motor activity and this inhibitory effect was not altered by either atropine, hexamethonium, tetrodotoxin (TTX) nor TTX plus acetylcholine (ACh), but was completely antagonized by NO synthase inhibitor N(G)-nitro-L-arginine (L-NA) and by VIP receptor antagonist, VIP(10-28). These results suggest that VIP may exert a direct inhibitory effect on the motor activity of the rat proximal colon via a VIP receptor located on the smooth muscle and this effect is mediated by NO but not by cholinergic pathways. Atropine and hexamethonium reduced but ACh stimulated motor activity and the effect of ACh was not changed by TTX, suggesting that the cholinergic pathway may exert a direct stimulatory effect on motor activity. Single injection of TTX, VIP(10-28) or L-NA induced a marked increase in motor activity, suggesting that the motor activity of rat proximal colon is tonically suppressed by VIP and NO generating pathways, and elimination of inhibitory neurotransmission by TTX may induce an abnormal increase of the motor activity. The interaction between VIP and NO in regulation of motor activity was further examined by a measurement of NO release from vascularly perfused rat proximal colon. Results showed that NO release was significantly increased during infusion of VIP and this response was reversed by L-NA. These results suggest that VIP generating neurons may inhibit colonic motility by stimulating endogenous NO production in either smooth muscle cells or nerve terminals.