Effect of acetylcholine on ion transport in the frog skeletal muscle

1. The effect of acetylcholine (ACh) on the ion transport of frog (Rana esculenta) sartorius muscles was studied. ACh was applied in bathing solution, Na influx and K efflux were measured using 24Na and 42K isotopes. 2. Na influx of sartorius muscles was increased by 1 mmol/1 ACh 2-10 fold depending on the experimental arrangement. The increase was greater if Na influx was measured at the beginning of ACh depolarization. During ACh treatment the Na influx took about the same time course as the depolarization recorded extracellularly. This type of recording approximately reflects the depolarization proceeding on the sartorius muscle fibres. 3. The presence of 31 nmol/l tetrodotoxin (TTX) did not modify the degree of increase of Na influx. 4. Rate coefficients for K efflux were increased 2-5 fold by ACh. The maximum rate coefficients were obtained in the first minute of ACh treatment. 5. Increase in K loss evolves also in the presence of 31 nmol/l TTX. The increase in rate coefficients was found to be about 30% less than without TTX in the first minute of ACh action. 6. The results indicate that in the presence of ACh the observed increase in Na influx and K efflux is brought about mainly by changes in Na and K conductance induced by ACh at the end-plates rather than by the action potentials accompanying ACh depolarization.     

Structure-activity relationships of trans-cinnamic acid derivatives on alpha-glucosidase inhibition

trans-Cinnamic acid and its derivatives were investigated for the alpha-glucosidase inhibitory activity. 4-Methoxy-trans-cinnamic acid and 4-methoxy-trans-cinnamic acid ethyl ester showed the highest potent inhibitory activity among those of trans-cinnamic acid derivatives. The presence of substituents at 4-position in trans-cinnamic acid altered the alpha-glucosidase inhibitory activity. Increasing of bulkiness and the chain length of 4-alkoxy substituents as well as the increasing of the electron withdrawing group have been shown to decrease the inhibitory activity. 4-Methoxy-trans-cinnamic acid was a noncompetitive inhibitor for alpha-glucosidase, whereas, 4-methoxy-trans-cinnamic acid ethyl ester was a competitive inhibitor. These results indicated that trans-cinnamic acid derivatives could be classified as a new group of alpha-glucosidase inhibitors.     

Drug and ion effects in frog muscle

Procaine, cocaine, pyribenzamine, antistine, and phosphate decrease the uptake of water by frog sartorii in a Ringer solution in which potassium has been substituted for sodium; all but the last two leave the swelling in hypotonic Ringer practically unaltered. They also decrease the depolarizing action of potassium. These effects are considered indicative of reduced membrane permeability to potassium.     

Mechanism of inhibition of net ion transport across frog corneal epithelium by calcium channel antagonists

Summary In the isolated bullfrog cornea, three calcium channel antagonists had dose-dependent inhibitory effects on the Cl-originated short-circuit current (SCC). Their order of decreasing potency was bepridil, verapamil and diltiazem. One millimolar diltiazem inhibited the SCC by 98% and subsequent incubation with the calcium ionophore A23187 had no restorative effect. Increasing the bathing solution Ca concentration from 0.05 to 15mm, however, decreased diltiazem's inhibitory efficacy. This antagonist depolarized the intracellular potential differenceV _m from –54 to –18 mV (tear: reference) and the voltage divider ratioFR ₀ decreased from 0.58 to 0.30, suggesting an increase in basolateral membrane electrical resistance. Additional indication of a basolateral membrane effect by the drug was that preincubation with 10⁵ m amphotericin B in Cl-free Ringer's did not eliminate the inhibitory effect of the drug on the Na- and K-elicited SCC. In the absence of amphotericin B in Cl-free Ringer's (SCC=0), 1 ×10³ m diltiazem depolarized theV _m from –78 to –9 mV suggesting that the increase in basolateral membrane resistance was due to K channel blockade. Diltiazem (1×10³ m) significantly decreased cyclic AMP content; however, isoproterenol in the presence of the drug increased cyclic AMP fourfold without having any restorative effect on the inhibited SCC. Therefore, the inhibition of the Cl-originated SCC resulting from an increase in basolateral membrane K resistance is not caused by a decline in cyclic AMP content. In plasma membrane-enriched fractions prepared from broken cell preparations of bovine corneal epithelium, 1×10³ m diltiazem had no inhibitory effects on either Na,K-ATPase or Ca,Mg-ATPase activities. These latter effects further point to the selectivity of diltiazem as an inhibitor of K-channel activity, but do not preclude a Ca-channel blocker effect by the drug in the micromolar range.     

Transport of monosaccharides in model systems: inhibition of sugar transport in frog muscle fibers, treated with glutaraldehyde

The entry of D-xylose, a permeable non-metabolizing glucose analog, in the frog muscle fibers was examined. The sugar transport system activity was established in the frog muscle fibers treated by 0.3% glutaraldehyde. The basal transport as well as insulin activated D-xylose transport was seen preserved. Sugar transport inhibitors, phlorizin, phloretin and cytochalasine B reduce the rate of D-xylose transport in this "glutar model" of a muscle fiber. A long treatment by glutaraldehyde (3.5 hours at 4 degrees C, and 1 hour at 20 degrees C) leads to a 40% decline in the entry rate of D-xylose.     

Structure-activity relationships and enzyme inhibition of pantothenamide-type pantothenate kinase inhibitors

A set of novel pantothenamide-type analogues of the known Staphylococcus aureus pantothenate kinase (SaPanK) inhibitors, N-pentyl, and N-heptylpantothenamide, was synthesized in three series. The first series of analogues (1-3) were designed as molecular probes of the PanK binding site to elucidate important structure-activity relationships (SAR). The second series of analogues (4-16) were designed using structural information obtained from the Escherichia coli PanK (EcPanK) structure by targeting the pantothenate binding site and the adjacent phenylalanine-lined lipophilic pocket. Insight into the antimicrobial effect of N-pentylpantothenamide (N5-Pan) through its conversion to the antimetabolite ethyldethia-CoA and further incorporation into an inactive acyl carrier protein analogue drove the development of the third series of analogues (17-25) to enhance this effect using substrate-like substitutions. Each of the analogues was screened for enzyme inhibition activity against a panel of pantothenate kinases consisting of EcPanK, Aspergillus nidulans (AnPanK), SaPanK, and the murine isoform (MmPanK1alpha). Series 1 demonstrated only modest inhibitory activity, but did reveal some important SAR findings including stereospecific binding. Series 2 demonstrated a much higher inhibition rate for the entire series and significant inhibition was seen with analogues containing alkyl substituents. Series 3 demonstrated the most preferential inhibition profile, with the highest inhibitory activity against the SaPanK and MmPanK1alpha. The MmPanK1alpha protein was inhibited by a broad spectrum of the compounds, whereas the E. coli enzyme showed greater selectivity. The overall activity data from these analogues suggest a complex and non-enzyme specific SAR for pantothenamide substrate/inhibitors of the different PanK enzymes.     

Structure-activity relationships for inhibition of prostaglandin cyclooxygenase by phenolic compounds

Sixty-three phenolic compounds were examined for their ability to inhibit sheep vesicular gland prostaglandin cyclooxygenase. Examination of structure-activity relationships for these compounds indicated that inhibition was increased by ring substituents which were electron donating and by substituents which were hydrophobic. Inhibition was decreased by steric masking of the phenolic hydroxyl. The most potent inhibitors possessed a two aromatic ring structure connected by a short bridge. In these inhibitors, one ring was apolar, the other ring contained a phenolic hydroxyl ortho to the bridge, and the bridge contained a Lewis base such that the compounds could form bidentate metal chelates. Compounds with [I]₅₀ values of less than 10 uM included 2,4,6-trimethyl phenol, 7.2 uM; 2-(2-hydroxyphenyl)benzothiazole, 7.0 uM; 2-benzyloxyphenol, 5.2 uM; and 2-hydroxybenzophenone, 3.8 uM.Inhibition of arachidonate induced platelet aggregation was examined for three of the more potent inhibitors. 2-Benzyloxyphenol and 2,4,6-trimethylphenol were more potent than indomethacin when assayed using a 2 min preincubation of inhibitor with platelets.     

Structure-activity relationships of monomeric and dimeric synthetic ACTH fragments in perifused frog adrenal slices

The effect of synthetic monomeric and dimeric ACTH fragments on spontaneous and ACTH(1-39)-evoked steroidogenesis in frog interrenal tissue was studied in vitro. Infusion of ACTH fragment 11-24 (10(-6) M) or its dimeric conjugates, attached either by their N-terminal, Glu(11-24)2, or their C-terminal amino acid, (11-24)2Lys, had no effect on the spontaneous release of corticosteroids. The monomer ACTH(11-24) and the dimer Glu(11-24)2 were also totally devoid of effect on the steroidogenic response to ACTH(1-39) (10(-9)M). In contrast, the (11-24)2Lys conjugate (10(-6)M) significantly decreased ACTH-induced stimulation of corticosterone and aldosterone (-63 and -62%, respectively). The dimeric conjugate of the fragment ACTH(7-24), linked through the C-terminal ends, (7-24)2Lys (10(-6)M), was also completely devoid of effect on basal steroidogenesis but caused a marked decrease of ACTH-evoked corticosterone and aldosterone release (-72 and -80%, respectively). Conversely, infusion of the dimer (1-24)2Lys gave rise to a dose-related stimulation of corticosterone and aldosterone release. The time-course of the steroidogenic response to the dimer was similar to that of ACTH(1-24). The 1-24 conjugate was 70 times less potent than the monomers ACTH(1-24) and ACTH(1-39). These results suggest that amphibian adrenocortical cells contain only one class of ACTH receptor which recognizes the 11-24 domain of ACTH with an affinity which depends on the presence of a strong potentiator segment, located at the N-terminus end of ACTH(1-39). Since the ACTH-dimers are thought to induce cross-linking of the receptors, our results suggest that aggregation of ACTH receptors causes a down-regulation of the receptors.     

Role of active ion transport in reception of the generator potential of the isolated frog muscle spindle

The effect of complete replacement of sodium ions by lithium ions in Ringer's solution and of 10⁻⁴ M ouabain on the receptor potential of the isolated frog muscle spindle was investigated. Initially, under the influence of lithium ions and ouabain, the hyperpolarization phase of this potential diminished and disappeared, and later the same fate befell the static and dynamic part of its depolarization phase. The rise time of the receptor potential was increased in a solution containing lithium ions but in the solution with ouabain it remained the same as initially. No appreciable changes were found in the rate of fall of the dynamic part of the depolarization phase. On rinsing the muscle spindle in normal Ringer's solution in the experiment with lithium ions recovery was incomplete, and in the experiments with ouabain the receptor responses were not restored.     

Benzodiazepines stimulate sodium ion transport in frog skin epithelium

Benzodiazepine binding sites are present in a variety of non-neuronal tissues including the kidney where they are localized to distal nephron segments. It is postulated that renal binding sites are involved in modulating ion transport. This study examined the effects of two benzodiazepines on sodium transport in frog skin epithelium, a model system for sodium transport in renal collecting duct. Treatment of short-circuited frog skin with diazepam (a non-selective benzodiazepine agonist) stimulated amiloride-sensitive short-circuit current, reflecting stimulation of active sodium transport. The diazepam response was equally effective with either serosal or mucosal application of the drug. Maximal stimulation of the current (42 +/- 8%) was achieved with 10 microM diazepam (serosal). Short-circuit current was similarly augmented by serosal or mucosal addition of Ro5-4864, a benzodiazepine agonist with selective activity at peripheral (non-neuronal) receptors. The natriferic response to diazepam was additive to that of vasopressin or cyclic AMP suggesting that the mode of action of benzodiazepines is probably distinct from the cyclic AMP pathway. Thus, frog skin appears to be a useful model to examine the epithelial effects of benzodiazepines. Whether stimulation of sodium transport, however, involves peripheral-type benzodiazepine receptors in this tissue requires further studies.     

Furosemide-sensitive cation transport in frog skeletal muscle fibers

Furosemide-inhibitable components in unidirectional cation fluxes have been identified in frog skeletal muscle. In sodium loaded muscles, placed in sodium-free rubidium lithium media, furosemide (1 mM) inhibits partially rubidium and lithium influxes as well as potassium and sodium outfluxes. The furosemide-inhibitable components were found to depend on the presence of ouabain. They were greatly diminished in sodium-free magnesium media and were present in chloride-free nitrate containing media. The dependence of furosemide-inhibitable sodium efflux on internal sodium content was also described.     

Structure-activity relationships in platelet activating factor. 9. From PAF-antagonism to PLA2 inhibition

Many important mediators of inflammation result from the liberation of free arachidonic acid from phospholipid pools, which arise from the action of phospholipase A₂ (PLA2). Therefore the inhibition of this enzyme would be an important treatment in many inflammatory disease states. Starting from a series of compounds which are known as PAF-antagonists, we have synthesized new molecules. These new compounds inhibited various secretory PLA₂s, with IC₅₀'s in the μmol range. This allowed us to analyze the structure-activity relationships for PLA₂ inhibition. The results showed that inhibition of secretory PLA₂ depends on the length of the alkyl chain, with an optimum for 13 to 17 carbons, which is in agreement with X-ray crystallographic and nuclear magnetic resonance (NMR) studies on the active site of PLA₂s, and that a free nitrogen on the piperazine ring is required to ensure a good inhibitory potency.     

Odd behaviour of Li+ in frog skin ion transport

1. Frog skin epithelium has basolateral K+ channels that normally define the basolateral membrane potential between 80 and 100 mV. 2. The membrane mentioned also has almost silent chloride channels and a [Na+, K+, 2Cl-] cotransport, the latter probably maintains the high Cl- in the capital (also called syncytium) cells. 3. If the K+ channels are blocked by Ba2+ (or Li+) it is possible to demonstrate potential gating of the chloride channels of the basolateral membrane. 4. When the normal K+ channels are blocked, a potential-dependent K+ conductance slowly emerges. 5. If Li+ is substituted for outside Na+ the skin shows potential oscillations of about 40 mV at a frequency of about six per hour. 6. The anion channel inhibitor Indacrinone stops these oscillations. 7. The role of Cl- and K+ channels in these oscillations is discussed. 8. The transepithelial inward transport of Li+ requires the presence of Na+ and seems to be due to exchange of cellular Li+ against inside Na+ via the basolateral Na+/H+ exchanger.     

Quantitative structure-activity relationships of cardiotonic steroids using empirical molecular electrostatic potentials and semiempirical molecular orbital calculations

Empirical molecular electrostatic potentials and a rigid receptor H atom model are used to calculate differences in the interaction energy of cardiotonic steroids with the digitalis receptor. An attempt is made to map the receptor H binding sites for two different steroid conformations with respect to 17 beta side-chain orientation. The calculated interaction energies using single-crystal X-ray structure data indicate linear relationships with the Na+, K+-ATPase inhibitory activity. On the basis of these correlations, the activity of 8 so far pharmacologically not investigated steroids containing C = O in 17 beta substituents are estimated with the help of structural data determined by means of the semiempirical CNDO molecular orbital theory.     

The effect of ethanol on ion transport in frog skin

Frog skin has been used as a model epithelial sodium-transporting system to study the effect of ethanol on ion transport. Treatment of the outside of frog skin with ethanol decreased the net sodium transport due to inhibition of ²²Na⁺ influx. Ethanol did not alter sodium outflux when bathing the outside of the skin. The inhibition was in proportion to the concentration of ethanol, 0.25 M resulting in 50% inhibition. The chloride permeability of the skin was increased several-fold when the skin was exposed to ethanol in either bathing solution. With 0.4 M ethanol in the inner bathing solution, all the unidirectional fluxes of Na⁺ and Cl^? were increased. The movement of Cl^? was evaluated by comparison of Cl^? flux with urea flux, since urea is thought to move passively across frog skin via an extracellular (shunt) pathway. Chloride flux was increased to a greater extent than urea flux. These experiments indicate that ethanol affects chloride permeability beyond an increase in extracellular ion flow and independent of its effect on Na⁺ transport.     

The comparison of seed proteins of several representatives of the genusPisum with respect to their relationships An immunological comparison

Using immunochemical methods a comparison was made of a complex of water soluble (albumins) and salt soluble (globulins) seed proteins, especially vicilin and legumin, in selected species of the genusPisum, to determine the degree of their taxonomic relationship. Within the genusPisum the interspecific differences betweenP. abyssinicum, P. cinereum,P. elatius, P. fulvum, P. sativum, andP. syriacum are much smaller, and thus the taxonomic distances are shorter than is the casee.g. in the genusPhaseolus. In spite of this fact one may state thatPisum sativum, P. elatius andP. syriacum constitute a definite group, whereasP. abys-sinicum, P. cinereum and P.fulvum have longer taxonomic distances.     

Bioelectric properties and ion transport in the isolated frog lung

The aim of the study is the comparison of the basic features of the isolated amphibians lungs (R. temporaria with B. marinus and R. catesbeiana) and the evaluation of this preparation as a model of the chloride transport. Measurements of the bioelectric properties of the isolated lungs were performed according to Ussing. Chloride unidirectional fluxes were measured in chambers described by Helman according to Gatzy. The spontaneous potential difference of the lung was of the range of milivots. The short circuit current was of the order of microampers. The net flux of chloride was directed to the mucosal side. The current-voltage relationship was linear in the range of the +/- 30 microampers. The measured functions were stable during the study only when ambient temperature was about 10 degrees C.