Receptor regulation of ion transport in the intestinal epithelium

Adenosine diphosphate inhibits the serotonin transporter

Adenosine 5'-diphosphate (ADP) caused rapid and significant reductions in the rates of [3H]serotonin uptake observed for human platelets, human platelet vesicles, and rat brain synaptic vesicles. Estimated Vmax values in platelets (N = 15). platelet vesicles (N = 3), and synaptic vesicles (N = 3) exposed to 100 microM ADP were 42.3 +/- 11.4%, 78.8 +/- 1.4%, and 56.8 +/- 9.9% of control values, respectively. The EC50 values observed for ADP in platelets and platelet vesicles were 10-24 microM. Exposure to 100 microM ADP had small, inconsistent effects on KM values observed for the platelet transporter. ADP (100 microM) caused only a slight competitive inhibition of the platelet membrane binding of [3H]citalopram, a ligand for the 5HT uptake site of the transporter (5.0% displacement of 1.0 nM [3H]citalopram, 13% increase in apparent KD). The ADP analogue 2-methylthioADP caused similar decreases in the rates of platelet [3H]serotonin uptake, while a number of other related compounds had little or no effect on rates of platelet uptake. The ADP-effect on uptake was rapid, occurring in less than 2.5 s. and was additive with reductions produced by protein kinase C (PKC) activation. The ADP-induced decreases in uptake did not appear to occur through the ADP receptor or known platelet second messenger systems. The exact mechanism of the ADP-effect and its functional significance remain to be determined.

Activators of protein kinase C decrease serotonin transport in human platelets

Treatment of human platelets with activators of protein kinase C (PKC) for 5-20 min resulted in substantial reductions in the rate of platelet serotonin (5-HT) transport. The mean Vmax observed after 5 min treatment with 1 microM 4-beta-12-tetradecanoylphorbol 13-acetate (beta-TPA) was 66% (n = 16, P = 0.0001) of the control value. 5 min of treatment with 1 microM mezerein reduced uptake to 78% (n = 3, P = 0.01) of control. Both beta-TPA and mezerein had little effect on the Km of transport and had EC50 values of approx. 100 mM when a 20-min treatment period was used. The maximum effects of both were reached at approx. 20 min and could be blocked with staurospine. The beta-TPA effect was stereospecific, as alpha-TPA did not alter platelet 5-HT uptake. Although the PKC activators may have altered transmembrane ion-gradients for Na+ and Cl-, which are co-transported with 5-HT, minimizing ion-gradient changes had little effect on the observed reductions in transport. The PKC activators also had little or no effect on platelet 5-HT release or on the number (Bmax) of 5-HT transporters expressed at the platelet surface. The data indicate that PKC activation may down-regulate the activity of the 5-HT transporter in platelets. Apparently, most of this effect is mediated through mechanisms other than changes in ion-gradients, reductions in the number of available transporters, or increased 5-HT release. The apparent regulation of 5-HT transport by PKC may have important implications in platelet and neuronal functioning.

Regulation of ion transport in porcine distal colon: effects of putative neurotransmitters

Porcine distal colon epithelium was mounted in Ussing chambers and bathed with porcine Ringer's solution. The effects of vasoactive intestinal polypeptide, norepinephrine, and carbamylcholine on Na and Cl fluxes and transepithelial electrical parameters were determined after their serosal administration. Vasoactive intestinal peptide increased the Cl-dependent component of the short-circuit current with a half-maximal effect at 115 nmol/L. Transepithelial Na and Cl flux studies demonstrated that the increase in current was caused by stimulation of Cl secretion. Norepinephrine also stimulated Cl secretion and increased the serosal-to-mucosal Na flux, producing a half-maximal effect at 1.6 mumol/L. Selective blockade of alpha 1 adrenoceptors by 0.5 mumol/L prazosin produced an eightfold decrease in norepinephrine potency. Carbamylcholine produced a significant increase in Cl secretion and decreased absorption of both Na and Cl with a concentration of 10 mumol/L producing a half-maximal effect. The muscarinic cholinoceptor blocker atropine (0.1 mumol/L) produced a 22-fold decrease in carbamylcholine potency. The effects of all three transmitter substances were unaffected after pretreatment of tissues with the neuronal conduction-blocker tetrodotoxin or an inhibitor of arachidonic acid metabolism. These results indicate that (a) vasoactive intestinal polypeptide stimulates Cl secretion without affecting Na absorption; (b) norepinephrine acting through alpha 1 adrenoceptors stimulates net Cl secretion and activates a serosal-to-mucosal Na transport mechanism; and (c) carbamylcholine acting through muscarinic receptors stimulates Cl secretion and inhibits Na and Cl absorption.

Cholinergic neurons and muscarinic receptors regulate anion secretion in pig distal jejunum

The neurotransmitter acetylcholine is thought to modulate epithelial ion transport in the mammalian small intestine. In this study, the non-selective acetylcholine agonist, carbachol, produced rapid changes in short-circuit current (Isc), an electrical measure of active anion secretion, across isolated sheets of the distal jejunal mucosa-submucosa from swine. The potency of carbachol in elevating Isc was decreased 26-fold in the presence of 10 nM atropine, but remained unchanged by 1-100 microM hexamethonium or 0.1 microM tetrodotoxin. The acetylcholine antagonists produced little or no decrease in spontaneous Isc, whereas tetrodotoxin decreased Isc by 54 microA/cm2. [3H]Quinuclidinyl benzilate (QNB), a muscarinic acetylcholine receptor blocker, bound to a single species of sites within the mucosa-submucosa with a KD = 38 pM and Bmax = 94 fmol/mg protein. Selective muscarinic acetylcholine receptor blockers competed with [3H]QNB for this site with a rank order of affinity indicative of an interaction with a M3-muscarinic acetylcholine receptor. Specific [3H]QNB binding sites were autoradiographically localized in the jejunal wall to the epithelium, submucosa and muscularis propria. Transmural electrical stimulation (3-600 pulses/10 s, 0.5 ms, 60 V) of the mucosa-submucosa produced increases in Isc which were dependent upon the number of impulses delivered and did not undergo tachyphylaxis upon repeated stimulation. Responses to electrical transmural stimulation were inhibited by atropine and hexamethonium, as well as the respective neuronal Na+ and Ca2+ channel blockers tetrodotoxin and omega-conotoxin GVIA, suggesting that electrical transmural stimulation depolarizes submucosal cholinergic neurons which terminate on ion-transporting epithelial cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Modulation of Na+, Cl- and HCO3- transport by carbachol in pig distal jejunum

Acetylcholine and cholinomimetics such as carbachol are potent stimulants of epithelial Cl- secretion in the small and large intestines of several mammalian species. In this study, the effects of carbachol were characterized in vitro on active ion transport in sheets of submucosa-mucosa from the distal jejunum of swine. Carbachol (10 microM) produced an increase in serosa-positive short-circuit current (Isc) in this tissue after its serosal, but not luminal administration. The Na(+)-K(+)-Cl- transport blocker bumetanide (10 microM) produced a 50% decrease in the carbachol-induced Isc elevation after its serosal administration. Peak increases in Isc evoked by carbachol were significantly reduced by 60-85% in tissues bathed in media lacking Cl-, HCO3-, or both anions. The initial drug-induced increase in net charge transfer from serosa to lumen was dependent upon both HCO3- and Cl-, whereas sustained elevations in charge transfer were dependent upon extracellular Cl- only. Radiotracer flux analyses revealed that the drug decreased net Na+ absorption and increased Cl- secretion. In the absence of HCO3-, carbachol decreased Cl- absorption. The effects of carbachol on HCO3- transport were examined by pH-stat titration. The drug rapidly alkalinized the luminal medium immediately after its serosal administration. These results suggest that carbachol stimulates electrogenic anion secretion in the mucosa of the porcine distal jejunum. Furthermore, the ability of carbachol to inhibit spontaneous Na+ absorption is dependent upon extracellular HCO3-.