Effects of tetrodotoxin and ion replacements on the short-circuit current induced by Escherichia coli enterotoxin STa across the colon of the gerbil (Gerbillu cheesmani) in different dietary states

The effects of mucosally added Escherichia coli heat stable enterotoxin (STa, 30 ng mL(-1)) on the basal short-circuit current (Isc in microA cm(-2)) across stripped and unstripped sheets of proximal, mid and distal colon were investigated. Samples were taken from fed, starved (4 days, water ad lib) and undernourished (50% of control food intake for 21 days) gerbils (Gerbillus cheesmani). The effect of neurotoxin tetrodotoxin (TTX 10 microM) and the effect of replacing chloride by gluconate or the effect of removing bicarbonate from bathing buffer on the maximum increase in Isc induced by E. coli heat stable enterotoxin STa were also investigated. The results showed that there is a segmental difference both in the basal and STa-induced Isc. Also, STa is more effective in the proximal than distal colon in the three feeding conditions. Undernourishment raised the STa-induced Isc in the three regions of the colon. In fed and starved gerbils part of STa-induced Isc in the proximal colon was chloride-dependent, while the other was bicarbonate-dependent; in the mid colon, the STa-induced Isc was bicarbonate-dependent only. In the three regions of the colon taken from undernourished gerbil, the STa-induced Isc was both chloride-and bicarbonate-dependent. The increase in STa-induced Isc as a results of undernourishment in proximal and mid colon was chloride-dependent, while in the distal colon, it was both chloride- and bicarbonate-dependent.     

Functional activities of the colon of the desert gerbil (Gerbillus cheesmani)

The effects of starvation and undernourishment on the potential differences (pd in mV), basal short-circuit current (Isc in microA/cm(2)), resistance (R in omega) and glucose-dependent short-circuit current (Isc in microA/cm(2)) across stripped sheets of proximal, mid and distal colon of the gerbil (Gerbillus cheesmani) were investigated. The effects of replacing sodium chloride by lithium chloride, replacing chloride in Krebs buffer by gluconate and removing bicarbonate from bathing buffers were also investigated. Starvation (4 days, water ad lib) and undernourishment (50% control food intake for 21 days) had no significant changes on pd and R of the three regions of stripped colon. Starvation increased the basal Isc in the proximal and the mid-colon only while undernourishment increased the basal Isc of three regions of the colon. In addition, starvation and undernourishment increased the glucose-dependent Isc in the three regions. Replacing sodium chloride by lithium chloride caused a slight decrease in the basal Isc of proximal and mid colon taken from starved animals. In undernourished gerbils, although there was a slight decrease in basal Isc of proximal and mid colon the big decrease was observed in Isc of the distal colon. Replacing chloride by gluconate had no effect on the Isc of the different regions of colon taken from fed and starved animals but decreased the Isc of the three regions of undernourished animals. The absence of bicarbonate reduced the Isc of proximal and mid colon taken from starved gerbils and those of three regions taken from undernourished animals. The results of the present study suggest that the Isc of proximal and mid colon from starved gerbils could result from active sodium transport together with bicarbonate secretion while the Isc of the three regions taken from undernourished gerbils results from active sodium absorption together with both chloride and bicarbonate secretion.     

Effects of tetrodotoxin and ion replacements on the short-circuit current induced by Escherichia coli heat stable enterotoxin across small intestine of the gerbil (Gerbillus cheesmani)

The effects of mucosally added Escherichia coli heat stable enterotoxin (STa 30 ng ml(-1)) on the basal short-circuit current (Isc in microA cm(-2)) across stripped and unstripped sheets of jejuna and ilea taken from fed, starved (4 days, water ad lib) and undernourished (50% control food intake for 21 days) gerbil (Gerbillus cheesmani) were investigated. The effect of neurotoxin tetrodotoxin (TTX 10 microM) and the effects of replacing chloride by gluconate or the effects of removing bicarbonate from bathing buffers on the maximum increase in Isc induced by STa were also investigated. The maximum increase in Isc which resulted from the addition of STa were significantly higher in jejuna and ilea taken from starved and undernourished gerbils when compared with the fed control both using stripped and unstripped sheets. In the two regions of the small intestine taken from fed and starved animals TTX reduced the maximum increase in Isc induced by STa across unstripped sheets only. Moreover in jejuna and ilea taken from undernourished gerbils TTX reduced significantly the maximum increase in Isc induced by STa across stripped and unstripped sheets. Replacing chloride by gluconate decreased the maximum increase in Isc induced by STa across jejuna and ilea taken from undernourished gerbils only. Removing bicarbonates from bathing buffer decreased the maximum increase in Isc across the jejuna and ilea taken from starved and undernourished gerbils.     

Effects of 5-hydroxytryptamine on the short-circuit current across the small intestine of the gerbil (Gerbillus cheesmani) in different dietary states

The effects of serosally added 5-hydroxytryptamine (5-HT, 100 microM) on the short circuit-current (Isc) across jejunum and ileum taken from fed, starved and undernourished (Gerbillus cheesmani) were investigated. The effects of the neurotoxin, tetrodotoxin (TTX, 10 microM) on the basal Isc as well as on the maximum increase in Isc induced by 5-HT were also studied. There were regional variations in the basal Isc as well as in the way by which the small intestine responds to 5-HT. The basal Isc was greater in jejunum than in ileum and such differences were TTX-sensitive. The maximum increase in Isc, which results from addition of 5-HT, was higher in jejunum than in ileum under all three feeding conditions. TTX reduced the maximum increase in Isc induced by 5-HT across stripped and intact intestine of the two regions in the three nutritional states. The 5-HT-induced Isc in the jejunum of both starved and undernourished gerbils and in the ileum of starved animals was the function of both submucosal and myenteric plexus. In jejunum and ileum taken from starved and undernourished gerbils the 5-HT-induced Isc was both chloride- and bicarbonate-dependent. Thus the results indicated that both starvation and undernourishment increase that response and such increases were TTX-sensitive and both chloride- and bicarbonate-dependent.     

Electrogenic ion transport in the intestine of the Australian common brushtail possum, <Emphasis Type="Italic">Trichosurus vulpecula</Emphasis>: indications of novel transport patterns in a marsupial

In this study, electrogenic ion transport in the intestine of the Australian common brushtail possum, Trichosurus vulpecula was investigated. In the ileum, a Na(+)-dependent, phloridzin- and amiloride-insensitive short-circuit current ( Isc) was present. Mucosal glucose stimulated a further phloridzin-sensitive, dose-dependent increase in Isc. A Na(+)-dependent, ouabain-sensitive Isc was also present in the caecum and colon. In the proximal and distal colon, amiloride (100 micro mol l(-1), mucosal) inhibited this Isc by 81+/-4% and 65+/-3%, respectively and the Ki for amiloride (approximately 1 micro mol l(-1)) was consistent with the inhibition of a classical epithelial Na(+) channel. In the caecum, 50% of the Isc was inhibited by amiloride (100 micro mol l(-1), mucosal). The amiloride-insensitive Isc in the colon was not due to electrogenic Cl(-) secretion, as serosal bumetanide (100 micro mol l(-1)) had no effect on the Isc. Furthermore, the secretagogues forskolin (10 micro mol l(-1)), carbachol (100 micro mol l(-1)) and dibutyryl-cAMP or dibutyryl-cGMP (100 micro mol l(-1)) did not stimulate electrogenic Cl(-) secretion by the colon. These results indicate that the transport properties of the hindgut of the possum differ significantly from those of eutherian mammals and may be associated with different functions of the hindgut of possums when compared to eutherian mammals.     

Electrogenic anion absorption in rabbit distal colon.

The mechanisms of anion transport in the rabbit distal colon were investigated in vitro under short-circuit conditions by examining the effects of transport inhibitors (the stilbene derivatives SITS and DIDS) under a variety of conditions. These agents consistently inhibited Jm-sCl: SITS (10(-3) M) reduced both unidirectional chloride fluxes to the same degree and did not alter JnetCl. In contrast, 10(-4) M DIDS had no effect on Js-mCl and had a significant chloride antiabsorptive effect. DIDS had no effect on either tissue cyclic AMP levels or on basal flux of potassium. The effects of SITS and the cyclic AMP-related secretagogue theophylline on Isc were independent. Additionally, there was no significant alteration of intracellular potential difference or apical membrane fractional resistance elicited by SITS during microelectrode impalement of colonic surface epithelial cells. These results suggest a complex mechanism of anion transport in the distal colon, with a component of electrogenic anion absorption inhibited by the stilbenes. The subsequent changes in current, conductance, and chloride fluxes are dependent upon additional, independent anion transport processes. These pharmacologic agents exhibit an antiabsorptive effect, rather than a stimulation of electrogenic chloride secretion.     

Differential effects of maturation on nicotinic- and muscarinic receptor-induced ion secretion in guinea pig distal colon

The incidence of constipation increases with age. This has been linked to age-related changes in the structure and function of myenteric neurons regulating intestinal motility; however, the role of submucous neurons is unknown. The aim of this study was to determine the effect of maturation on cholinergic receptor-induced ion secretion in guinea pig colon. Changes in the short-circuit current (Isc) and tissue conductance were monitored in muscle-stripped colonic segments from young (3-4-month-old) and mature (12-15-month-old) male guinea pigs. Thirty-one percent of colonic segments from young guinea pigs exhibited ongoing neural activity, which was absent in mature animals. Baseline Isc was significantly higher only in young guinea pig tissues with ongoing activity. Tissue conductance was similar in all tissues. Electrical field stimulation caused a biphasic increase in the Isc. At 15 V/10 Hz, only Peak 1 was attenuated, whereas both peaks were reduced in mature guinea pigs at 10 V/5Hz. 1,1, dimethyl-4-phenyl-piperazinium(DMPP)-induced ion secretion was blunted in mature guinea pigs. Atropine reduced the 1,1, dimethyl-4-phenyl-piperazinium response only in young guinea pigs. Carbachol-induced ion secretion was similar in tissues from both age groups. In conclusion, nicotinic receptor-induced secretion mediated by both cholinergic and noncholinergic secretomotor neurons was blunted; however, epithelial muscarinic receptor activity was unaltered during maturation.     

Neuropeptide modification of chloride secretion in guinea pig distal colon

This study examined the effects of electrically stimulating submucosal neurons in the guinea pig isolated distal colonic mucosa and determined the effects of several peptides that are present in these neurons. Electrical field stimulation of muscle-stripped segments of guinea pig distal colonic mucosa, set up in Ussing flux chambers, evoked an increase in short-circuit current (Isc), of 371 +/- 31 MicroA.cm-2. The response to electrical stimulation was abolished by tetrodotoxin and significantly reduced by serosal furosemide. Atropine reduced, but did not abolish, the neurally evoked response. Addition of neuropeptide Y and galanin to the serosal bath had no effect on baseline Isc, but both evoked a concentration-dependent decrease in the neurally evoked secretory response. Vasoactive intestinal polypeptide evoked a concentration-dependent increase in basal (unstimulated) Isc that was reduced by furosemide and unaltered by tetrodotoxin. Neuropeptide Y, but not galanin, significantly reduced the secretory responses to vasoactive intestinal polypeptide and bethanechol. Somatostatin 201-995 and human calcitonin gene-related peptide had no effect on basal Isc nor did either alter the neurally evoked response. These results suggest that acetylcholine and non-cholinergic neurotransmitter(s) stimulate chloride secretion in the guinea pig distal colonic mucosa. This neurosecretory response may be modulated by neuropeptide Y and galanin that are found within submucosal neurons.     

Activation of Tyrosine Hydroxylase in the Superior Cervical Ganglion by Nicotinic and Muscarinic Agonists

Both dimethylphenylpiperazinium (DMPP), a nicotinic agonist, and bethanechol, a muscarinic agonist, increase 3,4-dihydroxyphenylalanine (DOPA) synthesis in the superior cervical ganglion of the rat. DMPP causes approximately a fivefold increase in DOPA accumulation in intact ganglia whereas bethanechol causes about a two-fold increase in DOPA accumulation. These effects are additive with each other and with the increase in DOPA accumulation produced by 8-bromo cyclic AMP. The action of DMPP is dependent on extracellular Ca2+ while the actions of bethanechol and 8-bromo cyclic AMP are not dependent on extracellular Ca2+. Cholinergic agonists and cyclic nucleotides produce a stable activation of tyrosine hydroxylase (TH) in the ganglion. The activation of TH by nicotinic and muscarinic agonists can be detected after 5 min of incubation of the ganglia with these agents. The nicotinic response disappears after 30 min of incubation, whereas the muscarinic response persists for at least 30 min. The Ca2+ dependence of the TH activation produced by these agents is similar to the Ca2+ dependence of their effects on DOPA accumulation in intact ganglia. These data are consistent with the hypothesis that nicotinic agonists, muscarinic agonists, and cyclic AMP analogues increase TH activity by three distinct mechanisms. The activation of TH presumably underlies the increase in DOPA synthesis produced by these agents.     

Somatostatin modulation of neurally mediated pepsinogen secretion from frog esophageal mucosa

Frog esophageal mucosa contains peptic glands which are innervated by cholinergic neurons. When incubated in a medium containing 1.5 mM CaCl₂, pepsinogen release from esophageal mucosa was increased by a high potassium concentration (55 mM KCl), 1,1-dimethyl-4-phenylpiperazinium (DMPP) or bethanechol. Whereas the response to bethanechol remained little changed, the response to high KCl concentrations or DMPP was abolished in the absence of Ca²⁺. The stimulatory effects of high KCl concentrations and DMPP were also eliminated by the presence of atropine or somatostatin. Furthermore, pepsinogen release in response to bethanechol was dose-dependently inhibited by somatostatin. Frog esophagus was found to contain somatostatin-like immunoreactivity, with a higher density at the end adjacent to the stomach. Chromatography of mucosa extract on Sephadex G-50 revealed a single peak of somatostatin-like immunoreactivity that coeluted with somatostatin-14. Immunohistochemical staining of the mucosa with peroxidase antiperoxidase technique demonstrated the presence of two varieties of somatostatin-like immunoreactivity-containing cells, one individually dispersed within the intercalated septa and the other in groups within the interlobular septa of the peptic glands. These results seem to indicate that somatostatin or somatostatin-like immunoreactivity may play a modulatory role in neurally mediated pepsinogen secretion in the frog esophagus.     

Electrogenic Cl<Superscript>−</Superscript> secretion does not occur in the ileum of the Australian common brushtail possum, <Emphasis Type="Italic">Trichosurus vulpecula</Emphasis>, due to low levels of expression of the NaK2Cl cotransporter,NKCC1

The colon of the brushtail possum does not have an electrogenic secretory response. Given the functional significance of electrogenic Cl⁻ secretion in the intestine of eutherian mammals, we have investigated the secretory response in the small intestine of this marsupial. In the Ussing chamber cAMP-dependent secretagogues stimulated a sustained increase in ileal short-circuit current (Isc), whereas Ca²⁺-dependent secretagogues induced a transient increase. Both the responses were inhibited by mucosal addition of the anion channel blocker 5-nitro-2-(3-phenylpropylamino) benzoic acid (100 μmol l⁻¹), consistent with an anion secretory response. However, the responses were not inhibited by serosal bumetanide (10 μmol l⁻¹) and were independent of bath Cl⁻, indicating that the stimulated ileal Isc does not involve electrogenic Cl⁻ secretion driven by the NaK2Cl cotransporter, NKCC1. Consistent with this, there were low levels of NKCC1 expression in the ileal epithelium. In particular, NKCC1 expression in the ileal crypt cells was comparable to that of the villous cells. This differs from eutherian mammals where high levels of NKCC1 expression in the ileal crypt cells are associated with their role in Cl⁻ secretion. The cAMP- and Ca²⁺-dependent secretory responses were inhibited by the removal of HCO₃ ⁻ suggesting that these responses were due to electrogenic HCO₃ ⁻ secretion. We conclude that the ileum of the possum does not secrete Cl⁻ due to low levels of NKCC1 expression. It does however appear to secrete HCO₃ ⁻. These results are further significant examples of differences in the transport function of the possum intestinal epithelium compared with eutherian mammals.     

The electrical potential difference, short circuit current and Na+ and Cl- transport across different segments of sheep colon

1. The electrical potential difference (pd) and short circuit current (Isc) across the sheep colon descendens was significantly higher than across the sheep colon ascendens. 2. The ion equivalent of the Isc and the net Na+ transport from the mucosal (m) to the serosal (s) side of the short-circuited sheep colon descendens were identical, while the net Na+ transport across the colon ascendens exceeded the ion equivalent of the Isc. 3. There was a net m-s Cl- transport across both short-circuited colon segments, indicating that Cl-, like Na+, is absorbed by active transport. 4. The results suggest that active Na+ transport across the sheep colon descendens occurs entirely by an electrogenic mechanism, whereas active Na+ transport across the sheep colon descendens occurs entirely by an electrogenic mechanism, whereas active Na+ transport across sheep colon ascendens probably occurs by both an electrogenic and an electrically silent mechanism.     

Intestinal TMEM16A control luminal chloride secretion in a NHERF1 dependent manner

TMEM16A (Transmembrane protein 16A or Anoctamin1) is a calcium-activated chloride channel.(CaCC),that exerts critical roles in epithelial secretion. However, its localization, function, and regulation in intestinal chloride (Cl^?) secretion remain obscure. Here, we show that TMEM16A protein abundance correlates with Cl^? secretion in different regions of native intestine activated by the Ca²⁺-elevating muscarinic agonist carbachol (CCH). Basal, as well as both cAMP- and CCH-stimulated Isc, was largely reduced in Ano1 ± mouse intestine. We found CCH was not able to increase Isc in the presence of apical to serosal Cl^? gradient, strongly supporting TMEM16A as primarily a luminal Cl^? channel. Immunostaining demonstrated apical localization of TMEM16A where it colocalized with NHERF1 in mouse colonic tissue. Cellular depletion of NHERF1 in human colonic T84 cells caused a significant reduction of both cAMP- and CCH-stimulated Isc. Immunoprecipitation experiments revealed that NHERF1 forms a complex with TMEM16A through a PDZ-based interaction. We conclude that TMEM16A is a luminal Cl^? channel in the intestine that functionally interacts with CFTR via PDZ-based interaction of NHERF1 for efficient and specific cholinergic stimulation of intestinal Cl^? secretion.     

Action of palytoxin on apical H+/K+-ATPase in rat colon.

Palytoxin stimulated a cation-dependent short-circuit current (Isc) in rat distal and proximal colon in a concentration-dependent fashion when applied to the mucosal surface of the tissue. The distal colon exhibited a higher sensitivity to the toxin. The palytoxin-induced Isc was blocked by vanadate but was resistant to ouabain or scilliroside, suggesting the conversion of a vanadate-sensitive H+/K+-ATPase into an electrogenic cation transporter. Cation substitution experiments with basolaterally depolarized tissues suggested an apparent permeability of the palytoxin-induced conductance of Na+>K+>Li+. Immunohistochemical control experiments confirmed the absence of the Na+/K+-ATPase in the apical membrane. Consequently, the pore-forming action of palytoxin is not restricted to Na+/K+-ATPase but is also observed with the colonic H+/K+-ATPase.     

A multi-tyrosinated sst1/2 receptor preferring somatostatin agonist inhibits reflex and immune-mediated secretion in the guinea pig colon

Somatostatin and its analogs such as WOC 3B were compared for their ability to alter the release of 5-hydroxytryptamine (5-HT) and prostaglandins and to affect chloride secretory capacity, determined by activity of neural reflexes or by the influence of immune mediators and other secretagogues. In guinea pig colon set up in flux chambers, the multi-tyrosinated sst1/sst2 receptor preferring somatostatin agonist, WOC 3B, inhibited stroking-evoked 5-HT release without affecting basal release. WOC 3B had no effect on stroking-induced or basal prostaglandin E2 release (PGE2). Neither 5-HT nor PGE2 release was dependent on neural input. Tetrodotoxin induced a decrease in basal short circuit current (Isc) indicative of a decrease in chloride secretion. The decrease in basal Isc during neural blockade was highly correlated with the decrease in basal Isc when WOC 3B was used. In piroxicam- and atropine-treated tissues, to eliminate prostaglandins and cholinergic muscarinic input to crypts, WOC 3B further reduced the piroxicam-resistant and not the atropine resistant Isc during brush stroking the mucosa. Somatostatin and WOC 3B reduced the stroking-evoked Isc with similar half maximum concentrations of 1-2 nM. WOC 3B reduced by more than 50% dimaprit-evoked cyclical Isc. The rank order of potencies in inhibiting dimaprit-evoked Isc was: Somatostatin-14=WOC 3B>CH275=DC-32-92>DC-23-48> >DC-32-87=DC-32-97. Low nanomolar concentrations of WOC 3B primarily inhibited the neural effects of carbachol and forskolin on Isc without altering their epithelial effects. Equi-molar concentrations (4 nM) of CH275, a somatostatin sst1 receptor agonist, and the somatostatin sst2 receptor agonist, [Tyr(3)]-octreotide, inhibited dimaprit-evoked Isc by 25% and 26%, and their effects were additive. The results suggest that WOC 3B, a somatostatin analogue containing three tyrosine residues, has anti-secretory effects due to activation of somatostatin sst1 and sst2 receptors on enteric neurons.     

Actions of gastrin-releasing peptide and related mammalian and amphibian peptides on ion transport in the porcine proximal jejunum

The 27-amino acid peptide gastrin-releasing peptide (GRP) and the decapeptide neuromedin B (NMB) are structurally related to bombesin (BB) and exist within the mammalian small intestine. We examined the actions of porcine GRP and NMB on ion transport in the porcine proximal jejunum in vitro and compared their activities to those of their respective C-terminal amphibian homologs BB and ranatensin (RT). The 4 peptides transiently increased potential difference and short-circuit current (Isc) in jejunal mucosal sheets after their serosal administration in subnanomolar concentrations with an order of potency: GRP approximately RT greater than or equal to NMB greater than BB. BB and RT were more effective in elevating Isc than GRP and NMB; all peptides had variable effects on tissue conductance. Mucosal Isc responses to GRP (1 nM) were due in part to a stimulation of net Cl- secretion. GRP-induced Isc increases were halved by serosal furosemide (0.3 mM) and reduced by 65% and 90% in tissue bathing solutions lacking Cl- or Cl- and HCO3-, respectively. Tetrodotoxin reduced Isc responses to the peptide by 40%; GRP activity remained unaffected after blockade of gut muscarinic or nicotinic cholinergic receptors by atropine or hexamethonium, respectively. These results suggest that GRP and its natural homologs stimulate active electrogenic Cl- secretion in the porcine jejunum through interactions with GRP receptors located in the intestinal mucosa and submucosa.     

Involvement of muscarinic acetylcholine receptors in chloride secretion by cultured rat epididymal epithelium

The aim of our present study was to investigate the short-circuit current response to carbachol in cultured rat cauda epididymal epithelia and the signal transduction mechanisms involved. Carbachol added basolaterally induced a concentration-dependent increase in short-circuit current (Isc) across the epididymal epithelium consisting of a rapidly rising phase and a long term sustained response. The response was almost abolished by removing Cl(-) from the extracellular medium and blockable by pretreating the tissues with DPC, indicating a substantial contribution of Cl(-) secretion to the carbachol-induced response. The muscarinic acetylcholine receptor antagonist atropine inhibited the response, but the nicotinic acetylcholine receptors antagonist curarine had no effect, suggesting that only the muscarinic acetylcholine receptors mediated the secretory response of the basolateral side of rat cauda epididymal epithelium to carbachol. Addition of carbachol to the apical side of the tissue was found not to elicit an Isc response. These results suggested that muscarinic receptors are present in the basolateral side of rat cauda epididymal epithelium. Activation of these receptors by acetylcholine released from the nerve endings regulates epididymal transepithelial Cl(-) secretion. Cholinergic stimulation therefore contributes to the formation of luminal fluid microenvironment.     

Actions of a nicotinic agonist,DMPP, on intestinal ion transport invitro

High-dose carbachol (10^?3 M) has previously been shown to cause NaCl absorption in short-circuited rabbit ileum. The mechanism of this effect may be norepinephrine release induced by carbachol activation of presynaptic nicotinic receptors on adrenergic neurons. Norepinephrine then interacts with postsynaptic α-adrenergic receptors on intestinal mucosal cells to stimulate neutral NaCl absorption and inhibit electrogenic bicarbonate secretion. The present paper examines the $\text{in vitro}$ intestinal ion transport effects of DMPP an agent which is more specific than carbachol on nicotinic cholinergic receptors. DMPP (10^?5 M) caused a transient increase followed by prolonged depression of the short-circuit current, increased NaCl absorption and increased tissue conductance. This effect was antagonized by hexamethonium and phentolamine. It is concluded that nicotinic cholinergic agents stimulate norepinephrine release from adrenergic nerves and effect intestinal ion transport just as norepinephrine does.     

Effects of deoxycorticosterone acetate on the electrical properties of rat large intestine: segmental differences

The functional heterogeneity of different segments of the rat large intestine was investigated by means of transepithelial potential difference (PD), short-circuit current (Isc) and transepithelial resistance (Rt) measurements in control rats and after deoxycorticosterone acetate (DOCA) pretreatment. Rt and PD were low in caecum and proximal colon but higher in the distal colon and rectum. Isc was highest in the distal colon, lower in the caecum, proximal colon, and rectum. None of the electrical properties was sensitive to amiloride in control conditions. DOCA increased PD and Isc in the caecum, distal colon and rectum but had no effect in the proximal colon. The increase of the Isc after DOCA in the distal colon and rectum was reached by induction of the amiloride-sensitive Isc associated with reduction of the amiloride-insensitive Isc. The effect of DOCA could be completely prevented by concurrent spironolactone treatment. The results suggest that the epithelia of the proximal parts of the large intestine are "leaky" whereas those of the distal colon and rectum are relatively "tight". It is concluded that there is a marked quantitative and qualitative segmental heterogeneity along the rat large intestine.     

In vitro effects of tetrodotoxin and hexamethonium on electrolyte transport in rabbit ileum treated with cholera toxin.

To determine if there was a role for the submucosal nerves in cholera toxin (CT)-induced secretion, we studied the effects of serosal addition of two neurotoxins, the nerve conduction blocking agent, tetrodotoxin (TTX), and the nicotinic ganglionic blocking agent, hexamethonium (HXM), on electrolyte secretion in control isolated rabbit ileum and in that stimulated by CT. 1). In the absence of CT, the short circuit current (Isc) decreased after TTX (10(-7) M) (P less than 0.01) and was unaltered by HXM (10(-5) M). In the presence of CT, Isc increased but was not modified by 10(-7) M TTX or 10(-5) M HXM. 2) In control tissues the mean isotopic Na+ and Cl- fluxes were not significantly altered by TTX addition. Cl- absorption alone was significantly reduced by HXM (delta JCl- = 1.95 +/- 0.81 microEq.hr-1.cm-2; P less than 0.02). After stimulation with CT, TTX significantly inhibited Na+ and Cl- secretion (delta JNa+ = 2.15 +/- 0.61 and delta JCl- = 2.15 +/- 0.76 microEq.hr-1.cm-2; P less than 0.01). Similarly, HXM significantly inhibited CT-stimulated Na+ and Cl- secretion (delta JNa+ = 1.73 +/- 0.70 and delta JCl- = 1.46 +/- 0.62 microEq.hr-1.cm-2; P less than 0.02). 3) In TTX and HXM treated tissues there was no difference in the increase in Isc caused by cAMP (2 x 10(-3) M), calcium ionophore A 23187 (4 x 10(-6) M) and glucose (10(-3) M) compared to the untreated tissues in the presence or absence of CT.(ABSTRACT TRUNCATED AT 250 WORDS)