IgE-mediated 14C-serotonin release from rat mast cells modulated by morphine and endorphins

The formaldehyde method was used to examine the interaction of PGE₁ with morphine, β-endorphin and Met-enkephalin on rat mast cells by their effects on IgE-mediated ¹⁴C-serotonin release. PGE₁ (2×10^?8?2×10^?5 M) caused a dose-related inhibition of the mediator release 1 min after an antigen challenge, and morphine (3×10^?7?3×10^?5 M) reversed this PGE₁ effect dose-dependently and stereospecifically; naloxone (2×10^?4 M) antagonized this action of morphine. β-Endorphin (3×10^?7?10^?5 M) and Met-enkephalin (3×10^?6?10^?4 M) mimicked this morphine action dose-dependently and were antagonized by naloxone (2×10^?4 M). These results suggest that morphine and endorphins modulate immunological mediator release from rat mast cells through opioid receptors.     

A serotonin sensitive guanylate cyclase associated with specific neurotransmitter binding sites on isolated synaptic membranes from mature rat brain.

Results from this study indicate that adult rat brain posesses guanylate cyclase activity sensitive to serotonin (5-HT) and localized in the synaptic plasma membrane. The enzyme appears to have multiple activation sites for 5-HT with specific activity maxima at the 5-HT concentrations of 5 × 10^?10M and 7 × 10^?8M respectively. The rates of guanosine-3′:5′-monophosphate (cyclic GMP) formation at these concentrations of 5-HT are, respectively, 170% and 307% above the endogenous or basal production rate of 2.7±0.3picomoles/minute/milligram of synaptosomal membrane protein. We have also been able to identify $\text{four}$ distinct types (Type #1, #2, #3, and #4) of high affinity, specific binding sites for 5-HT on isolated synaptosomal membranes from rat brain. Dissociation constants of 2.6 × 10^?10M, 2.5 × 10^?9M, 7.0 × 10^?9M, and 4.6 × 10^?8M, characterize the binding of 5-HT to our sites of Type #1 through Type #4 respectively. The specific, high affinity binding was saturated at 5-HT concentrations of 5 × 10^?10M for the Type #1 sites, 5 × 10^?9M for our Type #2 sites, 1 × 10^?8M for our Type #3 sites, and 7 × 10^?8M for our Type #4 sites. The 5-HT concentrations producing saturation of our specific binding sites of Type #1 and Type #4 are virtually identical to those that elicit the two maxima of 5-HT stimulated cyclic GMP production, indicating that a membrane-bound guanylase cyclase may be closely associated with certain 5-HT receptors and/or re-uptake sites.     

A serotonin sensitive adenylate cyclase in mature rat brain synaptic membranes

Results from this study have indicated serotonin-sensitive adenylate cyclase activity in adult rat brain. The enzyme is localized in the synaptosomal plasma membrane and apparently has multiple activation sites for serotonin with specific activity maxima occuring at serotonin concentrations of 5 × 10^?10, 5 × 10^?9, 1 × 10^?8, and 5 × 10^?8 moles/liter. The production of cyclic AMP at these sites appears to be unaffected by 1 × 10^?5M fluphenazine, while 1 × 10^?5M tryptamine, methysergide, and ergonovine decreased the stimulatory effect of 1 × 10^?8M 5-HT by 30 percent, 80 percent, and 57 percent respectively.     

Production of phenolic compounds in callus cultures of tea plant under the effect of 2,4-D and NAA

The effect of hormone-like compounds at different concentrations: 2,4-D (2 × 10^?6; 2 × 10^?5; and 2 × 10^?4M) and 1-NAA (2 × 10^?7; 2 × 10^?6; 2 × 10^?5; 4 × 10^?5, and 6 × 10^?5 M) on the growth and production of phenolic compounds, including flavans and lignin, was investigated in callus culture of tea plant (Camellia sinensis L., a highly productive strain IFR ChS-2). The growth of the culture was vigorous, and production of phenolic compounds therein was efficient in the medium containing 2 × 10^?5 M 2,4-D. Substitution of 1-NAA for 2,4-D in all the cases decelerated the growth of the culture. These changes were more pronounced when 2 × 10^?7 and 2 × 10^?6 M 1-NAA was used; in this case, biomass accumulation decreased by 1.5–2.0 times as compared with control material growing on the medium with 2 × 10^?5 M 2,4-D. In the presence of 1-NAA, the content of total soluble phenolic compounds and flavans in the calli rose by 30% on the average as compared with control material. Accumulation of lignin remained essentially the same. Therefore, the replacement of 2,4-D with 1-NAA in the nutrient medium used for the growing of highly productive strain of tea plant callus did not induce considerable changes in its ability to produce phenolic compounds.     

Effects of papaverine on basal and on isoproterenol-stimulated renin secretion from rat kidney slices

Papaverine inhibited the basal renin secretion of rat kidney slices incubated in a physiological salt solution at 37°C. Inhibition was concentration-dependent; secretion was 99 ± 0.2 % inhibited by 5 × 10^?4 M papaverine, and 8 × 10^?5 M was the estimated ED₅₀. In contrast, 2 × 10^?4 M IBMx (3-isobutyl-1-methyl-xanthine) increased the rate of secretion from 215 ± 17 to 366 ± 30 ng hr^?1mg^?1/20 min (p < 0.001). Isoprotenol (4 × 10^?7, 8 × 10^?7, and 5 × 10^?6 M) stimulated renin secretion in a concentration-dependent manner; the stimulatory effects were antagonized by papaverine but unaffected by IBMx. Thus, two known inhibitors of phosphodiesterase--IBMx and papaverine--produce sharply contrasting effects on basal and on isoproterenol-stimulated renin secretion from rat kidney slices.     

The secretory response in dissociated acini from the rat submandibular gland

Rat submandibular gland was dissociated by enzymatic digestion with collagenase and hyaluronidase, followed by mild mechanical shearing and filtration through a nylon mesh. The dissociated cell populations contained predominantly groups of acinar cells which maintained their acinar arrangement. The morphological and functional viability of the cells was confirmed by electron microscopic examination and a normal secretory response to β-adrenergic or cholinergic stimulation was observed. Both isoproterenol (IPR) and carbachol caused the fusion of secretory granules into large vacuoles which were also continuous with the lumen, and into which the secretory product was released. Secretion was assessed quantitatively from the incorporation of ¹⁴C-glucosamine into the acinar cells and its subsequent release into the culture medium as labelled glycoprotein. IPR stimulated secretion to 125% of untreated controls in the concentration range 5 × 10^?5 to 5 × 10^?7 M, and to 110% of controls at 5 × 10^?8 M, after 40 min incubation. Carbachol stimulated secretion to 131% of controls at 5 × 10^?5 M and to 115% at 5 × 10^?6 M but had no effect at 5 × 10^?7 or 5 × 10^?8 M. The secretory response was blocked by the respective β-adrenergic and cholinergic antagonists, propranolol and atropine. These findings show that dissociated rat submandibular acinar cells provide a useful in vitro model for the study of mucus synthesis and secretion.     

Kinetics of phosphate uptake in excised maize root

The short term uptake of phosphate involving 10 min absorption followed by 5 min desorption, both at 30 °C, in the concentration range 1.0×10^?9 to 7.5×10^?2 M KH₂PO₄ by fresh and washed maize (Zea mays L. cv. Ganga Safed-2) roots can be described by a single isotherm having five phases (0 and I–IV) with regularly spaced kinetic constants. Almost identical kinetics were observed in both fresh and washed maize roots. The kinetics of phase 0 in the concentration range 1.0×10^?9–3.0×10^?5 M. was sigmoidal in fresh maize roots, however, in washed tissue exhibited 2 phases termed here as 0a and 0b. 0a covered the concentration range 1.0×10^?9–5.0×10^?6 M and 0b 6.0×10^?6–3.0×10^?5 M. In the concentration range 1.0×10^?4–7.5×10^?2 M four distinct phases, termed as I, II, III and IV were evident in both fresh and washed maize roots. Each phase obeyed Michaelis—Menten kinetics. The values of K_m and V_max have been estimated for each phase. The uptake isotherm was accompanied by discontinuous transitions.     

Acetylcholine potentiation of field stimulated rat vas deferens: A pre-synaptic muscarinic mechanism?

Acetylcholine (ACh) was found to markedly enhance the nerve stimulation induced twitch response of isolated, field-stimulated rat vas deferens (RVD). The ED₂₀₀ (concentration which enhances the twitch response to 200% of control) for this potentiation was 6 × 10^?6M with the maximum twitch response being increased by more than 3 fold (325 ± 30%). Carbachol (ED₂₀₀ = 8.5 × 10^?7M) showed identical results. With each drug the potentiation was competitively antagonized by atropine (10^?7?10^?5M). Physostigmine 10^?8?10^?6M) both enhanced the basal twitch response (215 ± 8% of control at 10^?5M) and the sensitivity of the RVD to ACh (ED₂₀₀ = 3.3 × 10^?7M) but not to carbachol. Atropine, on the other hand reduced the basal twitch response by 18 ± 3% at 10^?5M. Hemicholinium (10^?4M) also reduced the basal twitch responses by 23 ± 5%. ACh (10^?7M?10^?5M) did not modify the responses of unstimulated RVD to norepinephrine or KCl suggesting a pre-synaptic site of action. Taken together these results are compatible with the presence of a pre-junctional, excitatory muscarinic mechanism in the field stimulated RVD. That this cholinergic system may be of physiological significance is supported by the observations that atropine and hemicholinium depress while physostigmine enhances the twitch response in the absence of exogenous ACh.     

Effects of some steroid hormones on head-to-head association in bovine spermatozoa

In the presence of 2 × 10^?6 M Ca²⁺ in Tris-buffered medium 0.5 × 10^?6 M, oestradiol-17β or corticosterone significantly increased the head-to-head association of washed bull spermatozoa; in the same concentration, testosterone and 5α-dihydrotestosterone had no significant effects, whereas progesterone significantly dissociated the associated spermatozoa. At 8 × 10^?6 M Ca²⁺ in the same medium, all five hormones increased the association to about the same level. In Tyrode solution with a Ca²⁺ concentration of 1.4 × 10^?3 M, oestradiol-17β and corticosterone acted as above, whereas progesterone and the two testosterones effected dissociation. In Tyrode solution each of the dissociating hormones was combined with oestradiol-17β. In each case a sum of the effects of the two hormones was obtained without any stimulation or inhibition. All five hormones still produced significant effects at 5 × 10^?7 M in Tyrode solution. A corresponding value for ATP was found at 1 × 10^?5 M.     

Selective inhibition of serotonin uptake by trazodone,a new antidepressant agent

The inhibitory effect of trazodone, a non tricyclic antidepressant, on 5-HT and catecholamine uptake into the synaptosomal preparation from the rat brain was compared with that of chlorimipramine. The inhibition of 5-HT uptake by trazodone is competitive with a K_i of 1.6 × 10^?6 M. Trazodone inhibits ³H-5-HT, ³H-NE and ³H-DA uptake with an IC₅₀ of 1.4 × 10^?6, 3.1 × 10^?4 and 5.2 × 10^?4 M, respectively. Therefore trazodone is 220 and 370 times more potent in inhibiting 5-HT than NE and DA uptake, respectively. The respective IC₅₀ values of chlorimipramine were 0.9 × 10^?7, 3.6 × 10^?6 and 4.0 × 10^?6 M for ³H-5-HT, ³H-NE and ³H-DA.     

Noncompetitive Amine Uptake Inhibition by the New Antidepressant Pridefine

Abstract: Pridefine (AHR-1118) is a pyrrolidine derivative with clinically established antidepressant efficacy. Previous work from this laboratory indicates that pridefine is a reuptake blocker of catecholamines and serotonin with weak releasing activity. This study characterized the mode of amine uptake inhibition by pridefine as noncompetitive. The uptake experiments were performed utilizing ouabain instead of zero-degree controls to differentiate between the passive and active components of uptake. Furthermore, the passive component was resolved into diffusion and binding of substrate. Correction was made for the effects of ouabain on binding. Kinetic constants determined from Lineweaver-Burk plots were: K_m= 3 × 10^?7 M for NE, K_m= 9 × 10^?8 M for DA, and K_m= 3 × 10^?8 M for 5-HT. Dixon analyses of uptake at various pridefine concentrations indicated noncompetitive inhibition with K_i= 2.5 × 10^?6 M for NE uptake, K_i= 2.0 × 10^?6 M for DA uptake, and K_i= 1 × 10^?5 M for 5-HT uptake. These constants compare well with IC₅₀ values for the same transmitters: NE, IC₅₀= 2.4 × 10^?6 M; DA, IC₅₀= 2.8 × 10^?6 M; 5-HT, IC₅₀= 1.0 × 10^?5 M. The in vitro results indicate that pridefine is relatively specific as a catecholamine uptake blocker. It differs from tricyclic antidepressants which are reportedly competitive inhibitors of monoamine uptake. The possible mechanisms by which pridefine acts as a noncompetitive inhibitor are discussed.     

The antagonistic effect of dexamethasone and insulin on alpha-fetoprotein secretion by cultured H4-II-E-C3 cells derived from the Reuber H-35 hepatoma.

Non-confluent monolayers of H4-II-E-C3 cells were maintained in serum-free media. Dexamethasone alone (5 × 10^?7M) stimulated α-fetoprotein secretion 2- to 4-fold while insulin alone (8.7 × 10^?8M) inhibited α-fetoprotein secretion by 20%. When dexamethasone (5 × 10^?7 to 5 × 10^?9M) and insulin (8.7 × 10^?8 to 8.7 × 10^?11M) were added simultaneously, insulin diminished the stimulatory effect of dexamethasone. When α-fetoprotein secretion was elevated by dexamethasone and the medium was replaced by media containing either insulin or no hormones, the rate of α-fetoprotein secretion diminished more rapidly with the insulin-supplemented medium. Alone or in combination, insulin and dexamethasone had little effect on albumin secretion.     

Inhibition of AChE by malathion and some structurally similar compounds

Inhibition of bovine erythrocyte acetylcholinesterase (free and immobilized on controlled pore glass) by separate and simultaneous exposure to malathion and malathion transformation products which are generally formed during storage or through natural or photochemical degradation was investigated. Increasing concentrations of malathion, its oxidation product malaoxon, and its isomerisation product isomalathion inhibited free and immobilized AChE in a concentration-dependent manner. K_I, the dissociation constant for the initial reversible enzyme inhibitor-complex, and k₃, the first order rate constant for the conversion of the reversible complex into the irreversibly inhibited enzyme, were determined from the progressive development of inhibition produced by reaction of native AChE with malathion, malaoxon and isomalathion. K_I values of 1.3 × 10^{? 4} M^{? 1}, 5.6 × 10^{? 6} M^{? 1} and 7.2 × 10^{? 6} M^{? 1} were obtained for malathion, malaoxon and isomalathion, respectively. The IC₅₀ values for free/immobilized AChE, (3.7 ± 0.2) × 10^{? 4} M/(1.6 ± 0.1) × 10^{? 4}, (2.4 ± 0.3) × 10^{? 6}/(3.4 ± 0.1) × 10^{? 6} M and (3.2 ± 0.3) × 10^{? 6} M/(2.7 ± 0.2) × 10^{? 6} M, were obtained from the inhibition curves induced by malathion, malaoxon and isomalathion, respectively. However, the products formed due to photoinduced degradation, phosphorodithioic O,O,S-trimethyl ester and O,O-dimethyl thiophosphate, did not noticeably affect enzymatic activity, while diethyl maleate inhibited AChE activity at concentrations > 10 mM. Inhibition of acetylcholinesterase increased with the time of exposure to malathion and its inhibiting by-products within the interval from 0 to 5 minutes. Through simultaneous exposure of the enzyme to malaoxon and isomalathion, an additive effect was achieved for lower concentrations of the inhibitors (in the presence of malaoxon/isomalathion at concentrations 2 × 10^{? 7} M/2 × 10^{? 7} M, 2 × 10^{? 7} M/3 × 10^{? 7} M and 2 × 10^{? 7} M/4.5 × 10^{? 7} M), while an antagonistic effect was obtained for all higher concentrations of inhibitors. The presence of a non-inhibitory degradation product (phosphorodithioic O,O,S-trimethyl ester) did not affect the inhibition efficiencies of the malathion by-products, malaoxon and isomalathion.     

Cerebral microvessels contain a beta 2-adrenergic receptor

Cerebral microvessels isolated from cat forebrain contain a specific β-adrenergic-sensitive adenylate cyclase. Among various compounds tested, the most potent activator of enzyme activity is isoproterenol (k_a = 1.4 × 10^?7M), followed in order by epinephrine (k_a= 1.5 × 10^?6M), norepinephrine (k_a= 1.4 × 10^?5M) and phenylephrine (k_a> 3 × 10^?4M). Isoproterenol-stimulated enzyme activity is blocked by propranolol (k_i= 2.4 × 10^?9M, IPS 339 (k_i= 4 × 10^?9M), H35/25 (k_i = 1.2 × 10^?7M), atenolol (k_i= 5.9 × 10^?6M) and practolol (k_i= 1.8 × 10^?5M). These agonist and antagonist properties are quite similar to those demonstrated by β₂-adrenergic receptors and β₂-stimulated adenylate cyclase present in other tissues and indicate that the majority of adenylate cyclase-associated adrenergic receptors in cerebral microvessels are β₂. The findings are relevant to physiological studies of cerebral blood flow and vascular permeability.     

Induction of metamorphosis of pediveliger larvae of the mussel Mytilus galloprovincialis Lamarck, 1819 using neuroactive compounds,KCl, NH4Cl and organic solvents

Pediveliger larvae of Mytilus galloprovincialis were subjected to a series of bioassays to investigate the induction of metamorphosis using neuroactive compounds, K⁺, NH₄ ⁺ and organic solvents. Growth and survival of post-larvae obtained using ethanol and methanol were also observed. Epinephrine, phenylephrine, clonidine and metanephrine induced larval metamorphosis at 10^?6 to 10^?4 M in both 24-h and continuous exposure assays. In 24-h exposure assays, α-methyldopa at 5×10^?5 M and methoxyphenamine at 5×10^?5?10^?4 M induced 55?94% metamorphosis. Similarly, excess K⁺ at 3×10^?2 M induced 39% metamorphosis and NH₄ ⁺ at 1?5×10^?2 M induced 63–78% metamorphosis. The EC50s of seven organic solvents ranged from 0.04 to 0.82 M. Post-larvae that metamorphosed using ethanol and methanol survived as juveniles and grew at the same rate as those from microbial biofilm. Thus, the above compounds can be useful inducers of metamorphosis for antifouling studies using larvae and juveniles of M. galloprovincialis.     

Differential in vitro inhibition of polyphenoloxidase from a wild edible mushroom Lactarius salmonicolor

The polyphenol oxidase (LsPPO) from a wild edible mushroom Lactarius salmonicolor was purified using a Sepharose 4B-L-tyrosine-p-amino benzoic acid affinity column. At the optimum pH and temperature, the K_M and V_Max values of LsPPO towards catechol, 4-methylcatechol and pyrogallol were determined as 0.025 M & 0.748 EU/mL, 1.809 × 10^{? 3} M & 0.723 EU/mL and 9.465 × 10^{? 3} M & 0.722 EU/mL, respectively.

Optimum pH and temperature values of LsPPO for the three substrates above ranged between the pH 4.5–11.0 and 5–50°C. Enzyme activity decreased due to heat denaturation with increasing temperature. Effects of a variety of classical PPO inhibitors were investigated opon the activity of LsPPO using catechol as the substrate. IC₅₀ values for glutathione, p-aminobenzenesulfonamide, L-cysteine, L-tyrosine, oxalic acid, β-mercaptoethanol and syringic acid were determined as 9.1 × 10^{? 4}, 2.3 × 10^{? 4} M, 1.5 × 10^{? 4} M, 3.8 × 10^{? 7} M, 1.2 × 10^{? 4} M, 4.9 × 10^{? 4} M, and 4 × 10^{? 4} M respectively. Thus L-tyrosine was by far the most effective inhibitor. Interestingly, sulfosalicylic acid behaved as an activator of LsPPO in this study.     

Presynaptic Control of the Synthesis and Release of Dopamine from Striatal Synaptosomes: A Comparison Between the Effects of 5-Hydroxytryptamine, Acetylcholine, and Glutamate

The effects of 5-HT and glutamate on dopamine synthesis and release by striatal synaptosomes were investigated and compared with the action of acetylcholine, which acts presynaptically on this system. 5-HT inhibited (28%) synthesis of [¹⁴C]dopamine from L-[U-¹⁴C]tyrosine, at 10-⁵M and above. This contrasts with the action of acetylcholine, which stimulated [¹⁴C]-dopamine synthesis by 24% at 10-⁴ M. Tissue levels of GABA were unaffected by either 5-HT or acetylcholine up to concentrations of 10-⁴ M. The inhibitory action of 5-HT (5 × 10^?5 M and 2 × 10^?4 M) on [¹⁹C]dopamine synthesis was completely abolished by methysergide (2 × 10^?6 M). Higher concentrations of methysergide (10^?4 M) or cyproheptadine (10^?5 M) inhibited [¹⁴C]dopamine synthesis by 28% and 25%, respectively, when added alone to synaptosomes. However, only methysergide prevented the further inhibition of synthesis caused by 5-HT. At concentrations of 2 × 10^?5 M and above, 5-HT stimulated [¹⁴C]dopamine release. This releasing action differed from that of acetylcholine, which occurred at lower concentrations (e.g., 10^?6 M). Methysergide (up to 10^?4 M) or cyproheptadine (2 × 10^?4 M) did not reduce the 5-HT (5 × 10^?5 M)-induced release of [¹⁴C]dopamine, but methysergide (10^?4 M) showed a potentiation (49%) of this increased release. The stimulatory effects of 5-HT (2 × 10^?5 M) and K⁺ (56 mM) on [¹⁴C]dopamine release were additive, indicating that two separate mechanisms were involved. However, when both agents were present the stimulatory effect of K⁺ (56 mM) on [¹⁴C]dopamine synthesis was not seen above the inhibitory effect of 5-HT. Glutamate (0.1-5 mM) did not affect [⁴C]dopamine release or its synthesis from L-[U-¹⁴C]tyrosine. It is concluded that 5-HT modulates the synthesis of dopamine in striatal nerve terminals through a presynaptic receptor mechanism, an action antagonised by methysergide. The releasing action of 5-HT apparently occurs through a separate mechanism which is also distinct from that involved in the response to K⁺ depolarisation.     

Revealing binding interaction between seven drugs and immobilized β2‐adrenoceptor by high‐performance affinity chromatography using frontal analysis

The development of new approaches to study the affinity between ligands and G‐protein‐coupled receptors proves to be of growing interest for pharmacologists, chemists, and biologists. The aim of this work was to determine the binding of seven drugs to β₂‐adrenoceptors by frontal analysis using immobilized receptor stationary phase. The dissociation constants (K_d) were determined to be (3.16 ± 0.09) × 10^?4 M for salbutamol, (4.29 ± 0.12) × 10^?4 M for terbutaline, (6.19 ± 0.16) × 10^?4 M for methoxyphenamine, (2.11 ± 0.07) × 10^?4 M for tulobuterol, (1.82 ± 0.11) × 10^?4 M for fenoterol, (9.75 ± 0.24) × 10^?6 M formoterol, and (9.84 ± 0.26) × 10^?5 M for clenbuterol. These results showed a good correlation with the data determined by radioligand binding assay. Further investigations revealed that the dissociation constant mainly attributed to the number of hydrogen bonds in the structures of ligands. This study indicates that affinity chromatography using immobilized receptor stationary phase can be used for the direct determination of drug‐receptor binding interactions and has the potential to become a reliable alternative for quantitative studies of ligand–receptor interactions. Copyright © 2013 John Wiley & Sons, Ltd.     

Selective depression of dopamine-induced depolarization by morphine and enkephalins in snail neurons

Morphine, met-enkephalin, and leu-enkephalin in a concentration of 1×10^?5 M depress rapidly and reversibly the amplitude of depolarization induced by dopamine application toHelix pomatia neurons; the effect is naloxone-dependent. The amplitudes of dopamine-induced hyperpolarization and also of the depolarization and hyperpolarization responses to acetylcholine application are unchanged under these circumstances. The hypothesis of blocking of chemosensitive sodium channels by enkephalins is discussed. It is suggested that this hypothesis is true for high concentrations of morphine and enkephalins (1×10^?4 to 1×10^?3 M). In lower concentrations (1×10^?5 M) morphine and enkephalins lead to modulation of the reponses to the action of neurotransmitters, evidently through their influence on the cyclic nucleotide system.     

Activation and inhibition of the action potential Na+ ionophore of cultured rat muscle cells by neurotoxins.

Both myoblasts and myotubes in cultures of clonal rat muscle cells have action potential Na⁺ ionophore activity. The ionophore is activated by batrachotoxin (K_0.5 = 3 to 5 × 10^?7 M) and veratridine (K_0.5 = 4 to 6 × 10^?5 M) which compete for the same activation site. As in denervated rat muscle, the ionophore of cultured muscle is 100 fold more resistant to inhibition by tetrodotoxin (K_0.5 = 1.5 to 3 × 10^?6 M) and 20 fold more resistant to inhibition by saxitoxin (K_0.5 = 1.5 to 3 × 10^?7 M) than in nerve, innervated muscle, or cultured neuroblastoma cells.