Actions of vasopressin and isoprenaline on the ionic transport across the isolated frog skin in the presence and the absence of adenyl cyclase inhibitors MDL12330A and SQ22536.

1. The effects of both adenyl cyclase inhibitors (MDL12330A and SQ22536) have been studied on the ionic transport induced by vasopressin and isoprenaline across the frog skin. 2. MDL12330A inhibits the vasopressin action on the short-circuit current (SCC), confirming that this effect is cAMP-mediated. 3. On the other hand, isoprenaline action on the SCC is unaffected by MDL12330A. However, this lack of effect is not a sufficient argument against the role of cAMP in this action; in fact, as MDL12330A is also an inhibitor of cAMP phosphodiesterase, this action could mask the inhibitory effect of the drug on adenyl cyclase. 4. By using the other adenyl cyclase inhibitor (SQ22536), probably deprived of effect on the cAMP phosphodiesterase, we obtained a strong inhibition of isoprenaline action on the SCC. Thus we conclude that the actions of isoprenaline on the ionic transport across the frog skin are also cAMP-mediated.     

A specific alkaline phosphatase of amphibia integument levamisole effect on short circuit current (SCC).

Using the Ussing chamber technique we have measured the short-circuit current (SCC), and so the ion transport, in the ventral skin of samples of Rana esculenta complex. The animals were not exposed to experimental treatment, and on SCC we have observed the effect of levamisole, administered either on external or internal side. Levamisole 0.0025 mM was ineffective; higher concentrations (0.025 mM, 2.5 mM), which inhibit alPase activity in tissue extracts and sections, induced an increase in SCC measurements and the effect was proportional to the concentration. Levamisole 25 mM produced a rapid and transitory increase of SCC, followed by a very quick decrement of it. Because of the action of Levamisole, "specific inhibitor of alPase activity", on ion transport in Rana skin, we propose that the alPase enzyme is probably involved in ion cutaneous transport and thus in the adaptative osmoregulation in the integument of amphibia.     

The action of carbaryl and its metabolite alpha-naphthol on mitosis in V79 Chinese hamster fibroblasts. Indications of the involvement of some cholinester in cell division

Carbaryl (1-naphthyl-N-methylcarbamate) is a spindle-disturbing agent. A number of effects probably contribute to this activity. Carbaryl efficiently lowers the intracellular level of glutathione, thus endangering the integrity of the spindle. Carbaryl also causes lipid peroxidation. With anti-oxidant pretreatment, the frequency of c-mitotic cells is lowered which indicates that lipid peroxidation is a partial cause of the spindle-disturbing activity. At high concentrations of carbaryl, monopolar configurations in combination with cleavage are frequent and when tested, alpha-naphthol, which is thought to be formed from carbaryl in significant amounts at these concentrations, also gave monopolar configurations but with significantly lower frequencies of concomitant cleavage. Carbaryl inhibits cholinesterases and when tested, another cholinesterase inhibitor, diisopropylfluorophosphate, in combination with alpha-naphthol also increased the frequency of monopolar configuration in combination with cleavage. We therefore propose the involvement of some cholinester in the process of cell division.     

Inhibitory effect of sodium ursodeoxycholate on basal and stimulated short-circuit current across the isolated toad skin

The effect of sodium ursodeoxycholate (U) on short-circuit current (SCC), an index of basal and stimulated net ion transport across isolated skins of Bufo arenarum toads, was tested. U inhibited basal SCC when added to the epidermal side of the skins. The inhibitory effect was reversible after rinsing the preparation during 60 min. U also inhibited the natriferic response to oxytocin, db-cAMP and theophylline by 82%, 49% and 47%, respectively. Inhibition of SCC by exposure to U was reversed by the polyene antibiotic nystatin. In turn, SCC induced by nystatin in the amiloride-treated skin was insensitive to U and blocked by ouabain, a Na⁺, K⁺-ATPase inhibitor. These results strongly suggest that the effect of U is exerted at the apical membrane of sodium transporting cells, and rule out the existence of an additional site of inhibitory action of U.     

Opposite actions of different doses of arginine-vasotocin and 1-deamino-arginine-vasotocin on sodium ion transport in skin of the frog Rana temporaria

Active transport of sodium ions across the isolated abdominal skin of the frog Rana temporaria after application of arginine-vasotocin (AVT) and 1-deamino-arginine-vasotocin (1dAVT) was studied by measurement of the short-circuit current (SCC). The maximal increase in the SCC values (26 and 19 microA/cm2) was observed after addition of 10 nM AVT or 100 nM 1dAVT, respectively, to the frog skin basal surface. An increase of concentration of AVT to 100 nM and of IdAVT to 1 microM terminated the sodium transport in the frog skin. A preliminary addition of an antagonist of arginine-vasopressin V1a-receptors to the Ringer's solution at the frog skin basal surface led to a rise in the SCC values in response to administration of ineffective doses of AVT or 1dAVT. V2-receptor antagonists did not affect the frog skin reaction to administration of these doses of AVT or IdAVT.     

Different sensitivity to amiloride of body and tail skins of Rana catesbeiana tadpoles during metamorphosis

Regional differences in potential difference and short-circuit current between the body (dorsal) and the tail skin during metamorphosis of Rana catesbeiana tadpoles were investigated. In body skin, the potential difference and the short-circuit current across the skin develop in two successive steps. At stage XX, the potential difference and the short-circuit current across the body skins were amiloride-insensitive (1st step). At stage XXII, however, amiloride-sensitive potential difference and the short circuit current appeared (2nd step). By contrast, in tail skin the potential difference and the short-circuit current remained amiloride-insensitive (1st step) even at stage XXIII. Since the tail regresses after stage XXIII, the appearance of the second step could not be followed in vivo. To determine whether or not the second step can be induced in the tail, tail skin was cultured under conditions where the skin survives for a much longer period than it does in normally developing tadpoles. Such cultured tail skin generated the amiloride-sensitive potential difference and the short-circuit current and cultured body skin also generated them. Therefore, development of the 2nd step in the tail skin may be delayed in vivo. To characterize the differences between body and tail skin, skins were mutally grafted between body and tail at stage XIII–XV. The body skin grafted on the tail underwent both the 1st and 2nd steps by stage XXII, whereas the tail skin grafted on the body only showed the 1st step by the same stage. These results suggest that the regional specificity of the skin is already established before the prometamorphic stage.Abbreviations CMFS Ca²⁺- and Mg²⁺-free saline - CTS charcoal-treated serum - EDTA ethylene diamine tetra-acetate - I current - PD potential difference - R skin resistance - SCC short-circuit current     

Acetylcholinesterase activity in the earthworm Eisenia andrei at different conditions of carbaryl exposure

Recent reports have stressed the need for a better understanding of earthworm biomarker responses. We aimed at investigating acethylcholinesterase (AChE) activity in the earthworm Eisenia andrei after exposure to carbaryl or its commercial formulation Zoril 5 under different in vitro and in vivo experiments. In addition, lysosome membrane stability was assessed by neutral red retention assay in the same experimental conditions. AChE basal Km and Vm values were about 0.16 mM and 41 nmol min(-1) mg protein(-1), respectively. Carbaryl dose-dependently decreased Vmax, while not affecting Km values. Carbaryl reduced earthworm AChE activity within 1 day of in vivo exposure to contaminated filter paper. Tested on soil, carbaryl inhibited AChE with the maximum effect after 3 days; in contrast, lysosome membrane stability of coelomocytes indicated a maximum toxicity after one day, followed by a recovery. AChE inhibition by Zoril 5 was highest after one day, while lysosome membrane stability declined progressively. In all cases, carbaryl dose-dependently decreased Vmax while not affecting Km values. In conclusion, E. andrei AChE activity assessed in vitro is dose-dependently inhibited by the carbamate compound carbaryl, which acts as a pure competitive inhibitor. In vivo experiments suggested that pure and co-formulated carbaryl have different time and/or dose dependent effects on earthworms. Our results further support the use of AChE inhibition as an indicator of pesticide contamination, to be included in a battery of biomarkers for monitoring soil toxicity.     

Effect of rat cardionatrin I (rat ANF 99-126) on the response of toad skin to angiotensin II

The atrial natriuretic peptide cardionatrin I (cardionatrin I is ANF 99-126) was used in studies directed to assess its effects on osmotic water permeability (Posm) and short-circuit current (SCC) in isolated toad skin. Results showed that ANF 99-126 (10(-7) M) added to the dermal side of the skin had no effect on basal Posm or SCC. However, ANF 99-126 (3.3 x 10(-8) M) was able to produce a 50% reversible inhibition of the maximal Posm response to angiotensin II (AII) (3.2 x 10(-8) M). These effects were seen when the skins were preincubated with ANF 99-126 for 10 min or less before the addition of AII. Longer preincubation appeared to inactivate ANF 99-126 through proteolysis. ANF 99-126(10(-7) M) failed to inhibit the SCC response to AII (10(-5) M) in toad skin. These results are compatible with a modulatory function for ANF on several systems including those involved in the regulation of extracellular fluid volume.     

Electrophysiology of newt skin: responses to salt-depletion, aldosterone, arginine vasotocin and epinephrine

1. Newts (Taricha granulosa), salt-depleted by 3 weeks' immersion in distilled water, showed significantly higher in vitro integumental short-circuit current (SCC) than control newts immersed in dilute saline. 2. Isolated, in vitro preparations of newt skin responded to aldosterone (10(-6) M), arginine vasotocin (10(-9)-10(-8) M), and epinephrine (10(-7)-10(-5) M) by increasing SCC. 3. The hormonal response of the skin of this salamandrid urodele, as judged from in vitro (Ussing chamber) measurements, is similar to that seen in classical anuran ("frog skin") preparations.     

Electrophysiological responses of frog skin to the peptides bombesin, caerulein, and physalaemin

Isolated skins from the frog Rana pipiens were mounted on Ussing-type chambers and bathed with Amphibian Ringer's solution on both sides. Electrical potential difference, resistance, and short-circuit current (SCC) were measured by using calomel electrodes, Ag-AgCl electrodes, Ringer's-agar bridges, and Tektronix digital multimeters. Under the conditions employed, SCC is a measure of net Na+ transport. The frog skin peptides bombesin, caerulein, and physalaemin were administered to the serosal side at concentrations of 0.5, 5.0, and 50 ng/ml. Control electrophysiological parameters were: potential difference, 23 +/- 2 mV; resistance, 738 +/- 59 ohms cm2; and SCC 32 +/- 3 microA/cm2. Although bombesin and caerulein had no significant, reversible effect on potential difference, resistance, or SCC, physalaemin significantly, and reversibly, depressed SCC by 22%. Caerulein did significantly depress SCC, but the response was not reversible.     

Effect of sodium taurocholate and sodium cholate on short-circuit current on amphibian membranes

The effects of the bile salts, sodium taurocholate (NaTc) and sodium cholate (NaCh), and toad bile gallbladder (bile) on short-circuit current (SCC) across isolated skin, and sodium taurocholate (NaTc) on isolated bladder of Bufo arenarum toads were tested. Sodium taurocholate (NaTc), sodium cholate (NaCh) and toad bile gallbladder (bile) promoted an increase in SCC, when added to the external side. The stimulatory effect was reversible after rinsing the preparation for 60 min. Implications on in vivo renal function of these results are discussed.     

The metabolism of the insecticide carbaryl (1-naphthyl N-methylcarbamate) by fat body of the blowfly larva Calliphora erythrocephala

1. Carbaryl is metabolized more rapidly by fat body of the blowfly larva than by gut, muscle, cuticle or haemolymph. 2. Metabolism of carbaryl by the fat body is affected by the age of the larva, the pH of the incubation medium, and the concentration of magnesium chloride in the incubation medium. 3. Chloramphenicol, 2,4-dinitrophenol and 5-dimethylamino-6-nitro-1,3-benzodioxole (a carbaryl synergist) inhibit carbaryl metabolism by the fat body. 4. Subcellular fractionation of the fat body indicates that the pellet sedimenting at 30000g is the most reactive with carbaryl. 5. Probable metabolites of carbaryl formed by the fat body include the 4- and 5-hydroxy derivatives, and, possibly, the N-hydroxymethyl and 5,6-dihydrodihydroxy derivatives.     

Papaverine reduces the sodium permeability of the apical membrane and the Potassium permeability of the basolateral membrane in isolated frog skin

Summary The effect of papaverine, an inhibitor of the phosphodiesterase responsible for breakdown of cAMP, on the transepithelial sodium transport across the isolated frog skin was investigated.Serosal addition of papaverine caused initially an increase in the short-circuit current (SCC), a doubling of the cellular cAMP content and a depolarization of the intracellular potential under SCC conditions (V _scc).The initial increase in the SCC was followed by a pronounced decrease both in the SCC and in the natriferic action of antidiuretic hormone (ADH), but papaverine had no inhibitory effect on the ability of ADH to increase the cellular cAMP content. As SCC declines, no hyperpolarization was observed.The I/V relationship across the apical membrane during the inhibitory phase, revealed that papaverine reduces the sodium permeability of the apical membrane (P _Na ^a )as well as intracellular sodium concentration. These observations and the previously noted effect of papaverine on V _scc indicates that papaverine must have an effect on the cellular Cl or K permeability.The basolateral Na,K,2Cl cotransporter was blocked with bumetanide, which should bring the cellular chloride in equilibrium. Bumetanide had no effect on basal SCC and V _scc. When papaverine was added to skins preincubated with bumetanide, the effect of papaverine on SCC and V _scc was unchanged. Therefore, the depolarization of V _scc, observed during the papaverine induced inhibition of the SCC, must be due to a reduction in the cellular K permeability.In conclusion, it is suggested that papaverine reduces the sodium permeability of the apical membrane and the potassium permeability of the basolateral membrane of the frog skin epithelium.     

Eledoisin and Kassinin, but not Enterokassinin, stimulate ion transport in frog skin

In frog skin, tachykinins stimulate the ion transport, estimated by measuring the short-circuit current (SCC) value, by interacting with NK1-like receptors. In this paper we show that Kassinin (NK2 preferring in mammals) increases the SCC, while Enterokassinin has no effect. Therefore, either 2 Pro residues or 1 Pro and 1 basic amino acid must be present in the part exceeding the C-terminal pentapeptide. Eledoisin (NK3 preferring in mammals) stimulation of SCC is reduced by CP99994 and SR48968 (NK1 and NK2 antagonists) and not affected by SB222200 (NK3 antagonist). None of the three antagonists affects Kassinin stimulation of SCC.     

The in vivo electrical parameters of toad skin

Open-circuit voltage (PD) and short-circuit current (SCC) across toad skin were studied in in vivo conditions. An improved technique for fastening a lucite chamber on the abdominal region of the animal was developed. Saline bridges (230 mM NaCl in 4% agar solution) were placed subcutaneously to make the connections between the extracellular fluid and the half-cells. A clear relationship was observed between the electrical parameters and sodium transport by the skin, since PD and SCC were related to the sodium concentration of the bathing solution, and abolished by the presence of amiloride--a specific sodium transport inhibitor in epithelia. The initial control values of SCC in vivo were higher than those in vitro, which was attributed to hormonal stimulation. However, these high initial control values of SCC in vivo fell with time, reaching steady levels after a 2 hr period. Vasopressin failed to increase SCC in vivo when the external sodium concentration was 115 mM, being effective only when the sodium concentration was low (5 mM). On the other hand, in isolated preparations vasopressin significantly promoted an increase in both PD and SCC.     

Role of Ca2+ and prostaglandin in regulation of active Na+ transport in frog skin

1. The role of prostaglandins and intracellular Ca2+ in regulation of active transepithelial sodium transport in frog skin were studied by examinations of effects of the calcium ionophore A23187 on short-circuit current (SCC) and intracellular voltage. 2. A23187 and arachidonic acid induced a marked increase in both SCC and prostaglandin E2 synthesis. 3. In indomethacin treated skins A23187 did not stimulate but on the contrary inhibited the basal SCC. 4. The A23187-induced increase in SCC was associated with a decrease in the fractional resistance of the apical membrane and a depolarization of the cells. 5. In skins pretreated with indomethacin, the A23187 induced inhibition of SCC coincided with a slight hyperpolarization of the cellular potential and an increase in fractional resistance of the apical membrane.     

Oppositely directed actions of different doses of arginine-vasotocin and 1-deamino-arginine-vasotocin on sodium ion transport in skin of the frog <Emphasis Type="Italic">Rana temporaria</Emphasis>

Active transport of sodium ions across the isolated abdominal skin of the frog Rana temporaria after application of arginine-vasotocin (AVT) and 1-deamino-arginine-vasotocin (1dAVT) was studied by measurement of the short-circuit current (SCC). The maximal increase in the SCC values (26 and 19 mk/cm²) was observed after addition of 10 nM AVT or 100 nM 1dAVT, respectively, to the frog skin basal surface. An increase of concentration of AVT to 100 nM and of 1dAVT to 1 μM terminated the sodium transport in the frog skin. A preliminary addition of an antagonist of arginine-vasopressin Vi_a-receptors to the Ringer’s solution at the frog skin basal surface led to a rise in the SCC values in response to administration of ineffective doses of AVT or 1dAVT. V₂-receptor antagonists did not affect the frog skin reaction to administration of these doses of AVT of 1dAVT.     

Sister-chromatid exchanges and thioguanine resistance in V79 Chinese hamster cells after treatment with the aneuploidy-inducing agent carbaryl +/- S9 mix

Carbaryl induced sister-chromatid exchanges (SCEs) but no thioguanine resistance in V79 Chinese hamster cells. Addition of S9 from Aroclor-pretreated rats, or glutathione, reduced the toxic effects of carbaryl. Glutathione or S9 mix reduced the effect of carbaryl on SCE. However, the latter result indicates that carbaryl's effect may be enhanced at a certain compound/S9 ratio. Since treatment with microsomes alone, but not S9 mix, was clastogenic it cannot be excluded that this enhancement of SCE was due to perturbations in the S9 mix by carbaryl rather than to formation of some particular SCE-inducing metabolite from the compound. The effects of carbaryl on chromosomes and chromosomal distribution are comparable to those sometimes reported for TPA. This, in conjunction with the weak indications on carcinogenic activity of carbaryl, makes it of interest that the compound be tested for promotion or co-carcinogenicity in vivo.     

Effects of Pb<Superscript>2+</Superscript> ions on Na<Superscript>+</Superscript> transport in the isolated skin of the toad <Emphasis Type="Italic">Pleurodema thaul</Emphasis>

The effects induced by lead ions on the short-circuit current (SCC) and on the potential difference (V) of the toad Pleurodema thaul skin were investigated. Pb²⁺ applied to the outer (mucosal) surface increased SCC and V and when applied to the inner (serosal) surface decreased both parameters. The stimulatory effect, but not the inhibitory action, was reversible after washout of the metal ion. The amiloride test showed that the increase was due principally to stimulation of the driving potential for Na⁺ (V-E_Na+) and that inhibition was accompanied by a reduction in the V-E_Na+ and also by a significant decrease in skin resistance indicating possible disruption of membrane and/or cell integrity. The effect of noradrenaline was increased by outer and decreased by inner administration of Pb²⁺. The results suggest that mucosal Pb²⁺ activates toad skin ion transport by stimulating the V-E_Na+ and that serosal Pb²⁺, with easier access to membrane and cellular constituents, inactivates this mechanism, revealing greater toxicity when applied to the inner surface of the skin. Abbreviations: SCC – short-circuit current; V – potential difference; V-E_Na+– driving potential for Na⁺; ENaC – epithelial sodium channel; R_Na+– active sodium resistance; RS – passive or shunt resistance; G_Na– active sodium conductance; GS – passive or shunt conductance; Gmax – total conductance; EC₅₀– half-maximal excitatory concentration; IC₅₀– half maximal inhibitory concentration; NA – noradrenaline.     

Vasotocin has the potential to inhibit basolateral Na<Superscript>+</Superscript>/K<Superscript>+</Superscript>-pump current across isolated skin of tree frog in vitro<Emphasis Type="Italic">,</Emphasis> via its V<Subscript>2</Subscript>-type receptor/cAMP pathway

Adult frog skin transports Na⁺ from the apical to the basolateral side across the skin. Antidiuretic hormone (ADH) is involved in the regulation of Na⁺ transport in both mammals and amphibians. We investigated the effect of arginine vasotocin (AVT), the ADH of amphibians, on the short-circuit current (SCC) across intact skin and on the basolateral Na⁺/K⁺-pump current across apically nystatin-permeabilized skin of the tree frog, Hyla japonica, in which the V₂-type ADH receptor is expressed in vitro. In intact skin, 1 pM AVT had no effect on the SCC, but 10 nM AVT was sufficient to stimulate the SCC since 10 nM and 1 μM of AVT increased the SCC 3.2- and 3.4-fold, respectively (P > 0.9). However, in permeabilized skin, AVT (1 μM) decreased the Na⁺/K⁺-pump current to 0.79 times vehicle control. Similarly, 500 μM of 8Br-cAMP increased the SCC 3.2-fold, yet 1 mM of 8Br-cAMP decreased the Na⁺/K⁺-pump current to 0.76 times vehicle control. Arachidonic acid (10⁻⁵ M) tended to decrease the Na⁺/K⁺-pump current. To judge from these in vitro experiments, AVT has the potential to inhibit the basolateral Na⁺/K⁺-pump current via the V₂-type receptor/cAMP pathway in the skin of the tree frog.