Na transport across frog skin at low external Na concentrations

Isolated frog skin was bathed with a dilute solution containing 1 mm NaCl on the outside and with normal Ringer’s solution on the inner surface. Net Na flux was determined by simultaneous measurement of unidirectional fluxes with Na²² and Na²⁴ and intracellular electrical potentials were examined with microelectrodes. There was a net inward transport of Na under both open-circuit and short-circuit conditions. The short-circuit current was approximately 15% greater than the net Na flux; the discrepancy could be accounted for by a small outward flux of Cl. The electrical potential profile did not differ greatly from that observed in skins bathed on the outside with normal Ringer’s solution. Under open-circuit conditions, there were usually several potential steps and under short-circuit conditions the cells were negative relative to the bathing solutions. Estimates of epithelial Na concentrations utilizing radioactive Na suggested that if all epithelial Na were in a single compartment, an active entry step would be necessary to allow a net inward Na transport. The results could also be explained by a series arrangement of Na compartments without necessarily postulating an active Na entry. The behavior of the potential profile suggested that this latter alternative was more likely.     

Observations on the development of unusual melanization of leopard frog ventral skin

The ontogeny of ventral pigmentation of two species of leopard frog, Rana pipiens and R. chiricahuensis, was examined by light microscopy and transmission electron microscopy to reveal how the unusual melanistic ventral pigmentation of R. chiricahuensis is achieved at the cellular level. Ventral skin of R. pipiens is always white. Ventral skin of adult R. chiricahuensis is white when frogs are background-adapted to a white substrate, but ventral skin becomes nearly as dark colored as the dorsal skin when frogs darken in response to a black background. Skin samples from tadpoles of both species, newly metamorphosed frogs, and adult frogs were analyzed for chromatophore composition and distribution. Ventral skin of R. pipiens larvae, newly metamorphosed frogs, and adults and of R. chiricahuensis larvae was white due to abundant iridophores and no melanophores. Melanophore density in the ventral integument of R. chiricahuensis was 9.1 ± 2.8/mm² in newly metamorphosed frogs and 87.0 ± 4.8/mm² in adult frogs. Pigment within ventral melanophores migrated during physiological color change during background adaptation. © 1993 Wiley-Liss, Inc.     

The Effects of Alkali Metal Cations and Common Anions on the Frog Skin Potential

The effects on the potential difference across isolated frog skin (R. catesbeiana, R. pipiens) of changing the ionic composition of the bathing solutions have been examined. Estimates of mean values and precision are presented for the potential changes produced by substituting other alkali metal cations for Na at the outside border and for K at the inside border. In terms of ability to mimic Na at the outside border of bullfrog skin, the selectivity order is Li > Rb, K, Cs; at the outside border of leopard frog skin, Li > Cs, K, Rb. In terms of ability to mimic K at the inside border of bullfrog and leopard frog skin: Rb > Cs > Li > Na. Orders of anion selectivity in terms of sensitivity of the potential for the outside border of bullfrog skin are Br > Cl > NO₃ > I > SO₄, isethionate and of leopard frog skin are Br, Cl > I, NO₃, SO₄. An effect of the solution composition (ionic strength?) on the apparent Na-K selectivity of the outside border is described. The results of the investigation have been interpreted and discussed in terms of the application of the constant field equation to the Koefoed-Johnsen-Ussing frog skin model. These observations may be useful in constructing and testing models of biological ionic selectivity.     

Coupled sodium-chloride influx across brush border of flounder intestine

Summary Measurements of the unidirectional influxes of Na and Cl from the mucosal solution into the epithelium (J _me ) of flounder intestine under short-circuit conditions reveal the presence of a coupled NaCl influx process at the brush border membrane which appears to be essential for the absorption of these ions.J _me ^Cl andJ _me ^Na were inhibited by replacing Na or Cl, respectively, in the bathing media with nontransported ions which also reduced the short-circuit current (I _sc) to near-zero values. Addition of furosemide to the mucosal solution alone inhibited theI _sc and reducedJ _me ^Cl andJ _me ^Na under control conditions, but not in the absence of Na or Cl, respectively. The reductions inJ _me ^Cl andJ _me ^Na elicited by ion replacement or furosemide were approximately equal, suggesting that the coupled influx mechanism mediates a one-for-one entry of these ions into the cell from the mucosal solution. Furosemide inhibited Cl absorption by reducing the unidirectional Cl flux from mucosa to serosa, consistent with its inhibition of the influx process. As in other epithelia, coupled NaCl influx is inhibited by cyclic AMP, which accounts for the decrease in Cl absorption elicited by cyclic nucleotides. These results support the notion thattranscellular NaCl transport is a neutral process and that the serosa-negative transepithelial electrical potential difference and preponderance of Cl over Na absorption under short-circuit conditions result from dissimilar permeabilities of the paracellular pathway to Na and Cl.     

Induced pacemaker activity on toad skin

The electrical transients produced on the isolated abdominal skin obtained from Bufo arenarum Hensel, under the influence of inward current pulses of constant intensity have been studied. When both faces of the skin are bathed with Ringer''s solution, short pulses of inward current give rise to transient variations of the potential difference between both faces of the skin with "all-or-nothing" characteristics (action potentials, AP). When the outer face is bathed with a modified Ringer solution with low sodium content (2.4 mM), the transients are longer and they are only evident when the pulse is several hundred milliseconds long. With even longer pulses (several seconds) a repetitive activity can be elicited, with the electrical characteristics of a "pacemaker" activity. In all these "excitability" phenomena Na⁺ may be replaced by Li⁺ in the outer solution. The logarithm of the duration of AP''s is inversely related to the logarithm of the increase in concentration of Na⁺ or Li⁺ in the solution bathing the external face of the skin. The duration of AP''s is increased when the Ca⁺⁺ concentration in the outer solution is raised. This effect is more evident with low sodium concentration on the outside. The evolution of the slope conductance during repetitive activity has been determined. The site and mechanisms of the "excitable" behavior of the skin and the induced repetitive activity are discussed. Under the experimental conditions employed the behavior of the skin is compared with that of normally excitable plasma membranes.     

Testicular and androgen dependence of skin gland morphology in the anurans,Xenopus laevis and Rana pipiens

In anuran amphibians, there is increasing evidence that exocrine glands dispersed throughout the general integument are secondary sex characters (SSC). Following the recent discovery of sexually dimorphic “breeding glands” in the dorsum of male Rana pipiens, we studied the effects of castration and testosterone treatment on the dorsal skin glands of male Xenopus laevis and R. pipiens to determine whether the dorsal breeding glands, or any other dorsal skin glands, are androgen dependent. The dorsal skin glands of X. laevis were unaffected by androgen status. By contrast, in R. pipiens, breeding, mucous, and seromucous glands responded to testosterone stimulation. Mucous glands were significantly (P < 0.05) larger in testosterone-treated frogs than in castrates. There was a large, but statistically insignificant, increase in the size of the dorsal breeding glands. Testosterone treatment also increased the epithelial cell height of breeding and seromucous glands (P < 0.05). In the skins of castrated and testosterone-treated frogs, there was a reciprocal relationship between the abundance of seromucous and breeding glands: in castrates, seromucous glands were abundant and breeding glands virtually absent, whereas in testosterone-treated frogs, breeding glands were abundant and seromucous glands less common. The total number of the two gland types was similar in both treatment groups. Glands that appeared to be intermediate in form between seromucous and breeding glands were observed in some frogs. These data suggest that seromucous glands may be the regressed form of breeding glands in the dorsal skin of R. pipiens and that the dorsal skin of R. pipiens is a SSC. © 1993 Wiley-Liss, Inc.     

Photoperiod acclimation and 24-hour variations in the critical thermal maxima of a tropical and a temperate frog

Summary The effect of photoperiod on the upper thermal tolerance of two species of frogs was studied by using the critical thermal maximum (CTM) as the end point. Both species are heliotropic and from temperate climates, but Hyla labialis lives under a near constant tropical photoperiod while Rana pipiens lives under a varying temperatezone photoperiod. The CTM of both species was studied over a 24-hour period to determine if a rhythm of temperature tolerance exists. In all but one of the acclimatization conditions used, the CTM of R. pipiens was higher than that of H. labialis. This agrees with what is known of their thermal ecology. Photoperiod significantly affects the CTM of both species. For Rana pipiens long (LD 16:8) photoperiods result in significantly higher thermal tolerance than short (LD 8:16) or moderate (LD 12:12) photoperiods at both 15 and 25° C. H. labialis shows a different pattern, having highest CTM at 25°C, LD 12:12 and lowest at 15°C, LD 12:12. When acclimated to a short (LD 8:16) photoperiod certain aspects of the frogs' tolerance of high temperatures are altered. At the same acclimatization the CTM of R. pipiens is higher than that of H. labialis, except under a combination short light regime and low temperature, and H. labialis at LD 8:16 shows no thermal acclimation between 15 and 25°C. Significant variation in the CTM over a 24-hour period occurred in H. labialis acclimatized at 25°C, LD 12:12 and R. pipiens at 25°C, LD 8:16 and 15°C, LD 12:12. For both species the 24-hour rhythm of temperature tolerance, when it occurs at LD 12:12, might be of adaptive value. Times of highest thermal tolerance are in the late morning or early afternoon and lowest tolerance is during the dark period. For R. pipiens under the unnatural combination of 25°C, LD 8:16, the pattern is reversed. When all three significant cycles are phase shifted so that the times of highest tolerance coincide, the pattern of the curves is very similar.     

Mechanism of stimulation by epinephrine of active transepithelial Cl transport in isolated frog cornea

Summary In the isolated frog cornea, the effects of 0.1mm epinephrine were measured on both the transepithelial and intracellular electrical parameters. Epinephrine increased the short-circuit current (I _sc) and transepithelial electrical conductance (g _t) by 176 and 96%, respectively. The effective electromotive driving force for active transepithelial Cl transport (E _Cl) was 45 mV and agrees with the value forE _Cl calculated by a different technique in the isolated rabbit corneal epithelium (Klyce, S.D., Wong, R.K.S., 1977,J. Physiol. (London) 266: 777). With respect to the tear-side bathing solution, epinephrine caused the intracellular potential difference of shortcircuited frog corneas to decrease from –54 to –50 mV (P>0.05). The fractional resistance of the apical membrane {F(R _o)=(R_o/R_o+R_i)} whereR _o andR _i represent the resistances of the apical and basolateral membranes, respectively, decreased from 0.38±0.06 to 0.23±0.03. Using these values ofF(R _o) and the cellular conductances, the calculated Cl resistances ofR _o andR _i decreased 4.3- and 2.3-fold, respectively. However, the value forE _Cl calculated from the intracellular electrical measurements (48 mV) did not appear to change since this value was in close agreement with the value forE _Cl calculated from the effects of epinephrine on the transepithelial electrical parameters. Thus, the effects of epinephrine onI _sc andg _t can be accounted for by increases in the Cl conductance of both the apical and basolateral membranes. Epinephrine caused the potential difference across the basolateral membrane to hyperpolarize by 9 mV. All of these results are consistent with the notion that the steps in transepithelial Cl transport include uphill movement into the cell across the basolateral membrane followed by downhill movement across the apical membrane into the tear-side bathing solution.     

Landscape genetics reveal broad and fine‐scale population structure due to landscape features and climate history in the northern leopard frog (Rana pipiens) in North Dakota

Prehistoric climate and landscape features play large roles structuring wildlife populations. The amphibians of the northern Great Plains of North America present an opportunity to investigate how these factors affect colonization, migration, and current population genetic structure. This study used 11 microsatellite loci to genotype 1,230 northern leopard frogs (Rana pipiens) from 41 wetlands (30 samples/wetland) across North Dakota. Genetic structure of the sampled frogs was evaluated using Bayesian and multivariate clustering methods. All analyses produced concordant results, identifying a major east–west split between two R. pipiens population clusters separated by the Missouri River. Substructuring within the two major identified population clusters was also found. Spatial principal component analysis (sPCA) and variance partitioning analysis identified distance, river basins, and the Missouri River as the most important landscape factors differentiating R. pipiens populations across the state. Bayesian reconstruction of coalescence times suggested the major east–west split occurred ~13–18 kya during a period of glacial retreat in the northern Great Plains and substructuring largely occurred ~5–11 kya during a period of extreme drought cycles. A range‐wide species distribution model (SDM) for R. pipiens was developed and applied to prehistoric climate conditions during the Last Glacial Maximum (21 kya) and the mid‐Holocene (6 kya) from the CCSM4 climate model to identify potential refugia. The SDM indicated potential refugia existed in South Dakota or further south in Nebraska. The ancestral populations of R. pipiens in North Dakota may have inhabited these refugia, but more sampling outside the state is needed to reconstruct the route of colonization. Using microsatellite genotype data, this study determined that colonization from glacial refugia, drought dynamics in the northern Great Plains, and major rivers acting as barriers to gene flow were the defining forces shaping the regional population structure of R. pipiens in North Dakota.     

Effect of oxytocin on transepithelial transport of water and Na+ in distinct ventral regions of frog skin (Rana catesbeiana)

Thoracic, abdominal, and pelvic fragments of ventral skin of Rana catesbeiana were analysed regarding the effect of oxytocin on: (1) transepithelial water transport; (2) short-circuit current; (3) skin conductance and electrical potential difference; (4) Na⁺ conductance and electrical potential difference; (4) Na⁺ conductance, the electromotive force of Na⁺ transport mechanism, and shunt conductance; (5) short-circuit current responses to fast Na⁺ by K⁺ replacement in the outer compartment, and (6) epithelial microstructure. Unstimulated water and Na⁺ permeabilities were low along the ventral skin. Hydrosmotic and natriferic responses to oxytocin increased from thorax to pelvis. Unstimulated Na⁺ conductance was greater in pelvis than in abdomen, the other electrical parameters being essentially similar in both skin fragments. Contribution of shunt conductance to total skin conductance was higher in abdominal than in pelvic skin. Oxytocin-induced increases of total skin conductance, Na⁺ conductance, and shunt conductance in pelvis were significantly larger than in abdomen. An oscillatory behaviour of the short-circuit current was observed only in oxytocin-treated pelvic skins. Decrease of epithelial thickness and increase of mitochondria-rich cell number were observed from thorax to pelvis. Oxytocin-induced increases of interspaces were more conspicuous in pelvis and abdomen than in thorax.Abbreviations E _Na electromotive force of sodium transport mechansim - G _KCI skin conductance with external KCI Ringer - G _Na sodium conductance (series conductance) - G _shunt shunt pathway conductance - G _total total skin conductance - J _v water flux (in units of volume per area per time) - MRC mitochondria-rich cells - PD potential difference across skin - R _shunt resistance of the shunt pathway - SCC short-circuit current     

The ebb and flow of antimicrobial skin peptides defends northern leopard frogs (Rana pipiens) against chytridiomycosis

Many amphibian species are threatened with extinction by the emerging infectious disease, chytridiomycosis, caused by the fungus Batrachochytrium dendrobatidis. This unprecedented global crisis threatens to reduce the biodiversity of the entire amphibian class. The fungus invades the skin and impairs the uptake and retention of essential ions leading to cardiac arrest. Antimicrobial peptides (AMPs) secreted into the mucus of some amphibians are thought to be an important defense against chytridiomycosis. However, little is known about the quantities of AMPs secreted under natural conditions, whether they are sufficient to protect against this pathogen, and how they interact with commensal microbes. To understand how defensive peptides and skin microbes may interact, it is essential to know the precise quantities of AMPs present under natural conditions. Using matrix‐assisted laser desorption time‐of‐flight mass spectrometry and growth inhibition assays, we show that northern leopard frogs (Rana pipiens) at rest constitutively release low amounts of AMPs that inhibit B. dendrobatidis in vitro, and AMP defenses are elevated following a simulated predator attack. Using a synthetic peptide analogue of brevinin‐1Pb as an external control, we quantified the amounts of four previously described AMPs (brevinin 1Pa, brevinin‐1Pb, brevinin‐1Pd, and ranatuerin‐2P) at several time points after secretion. Once secreted onto the skin, the peptides are most active for 15 min, and small quantities persist for at least 2 h. Taken together, our data suggest that small amounts of AMPs are rapidly available and quite stable on the skin of R. pipiens. They are effective inhibitors of B. dendrobatidis at these low constitutive concentrations but degrade within 2 h, protecting the integrity of the skin and commensal bacteria.     

Electrophysiologic changes associated with potassium depletion of frog skin

Summary Skins from the frogRana pipiens pipiens were studied under short-circuited conditions during the course of removing and replacing potassium in the inner bathing media in 14 experiments. The intracellular potential (V _SC), fractional resistance (FR), short-circuit current (I _SC) and total tissue conductance (g _T) were constantly monitored during impalements of the epithelial cells. The mean value (±se) forV _SC was –79 (±3) mV under baseline conditions. Removal of potassium from the inner bathing solution transiently stimulated the short-circuit current and hyperpolarized the basolateral membrane; with sufficiently long incubations, the basolateral membrane was eventually depolarized. Restoration of potassium to the inner solution within 43 min after initiating the perfusion with K⁺-free solution depolarized the basolateral membrane. However, restoration of potassium after at least 11/2 hr of incubation hyperpolarized the membrane. Ouabain consistently depolarized the basolateral membrane, even after extended periods of potassium depletion as long as 320 min. In the presence of ouabain, restoration of potassium depolarized the basolateral membrane. The data provide further evidence for the concept that the Na–K exchange pump of frog skin is rheogenic. Furthermore, the results suggest that the pump continues to be active even during prolonged periods of potassium depletion, reaccumulating potassium which has leaked out of the epithelial cells.     

Electrophysiological investigation of the amino acid carrier selectivity in epithelial cells fromXenopus embryo

Summary The electrical responses induced by external applications of neutral amino acids were used to determine whether different carriers are expressed in the membrane of embryonic epithelial cells ofXenopus laevis. Competition experiments were performed under voltage-clamp conditions at constant membrane potential.Gly,l-Ala,l-Pro,l-Ser,l-Asn andl-Gln generate electrical responses with similar apparent kinetic constants and compete for the same carrier. They are [Na] _o and voltage-dependent, insensitive to variations in [Cl] _o and [HCO₃] _o , inhibited by pH _o changes, by amiloride and, for a large fraction of the current, by MeAIB. The increase in [K] _o at constant and negative membrane potential reduces the response, whereas lowering [K] _o augments it. l-Leu,l-Phe andl-Pro appear to compete for another carrier. They generate electrogenic responses insensitive to amiloride and MeAIB, as well as to alterations of membrane potential, [Na] _o and [K] _o . Lowering [Cl] _o decreases their size, whereas increasing [HCO₃] _o at neutral pH _o increases it.It is concluded that at least two and possibly three transport systems (A, ASC and L) are expressed in the membrane of the embryonic cells studied. An unexpected electrogenic character of the L system is revealed by the present study and seems to be indirectly linked to the transport function. l-Pro seems to be transported by system A or ASC in the presence of Na and by system L in the absence of Na. MeAIB induces an inward current.     

Inwardly rectifying potassium current in rabbit osteoclasts: A whole-cell and single-channel study

Summary Ionic conductances of rabbit osteoclasts were investigated using both whole-cell and cell-attached configurations of the patch-clamp recording technique. The predominant conductance found in these cells was an inwardly rectifying K⁺ conductance. Whole-cell currents showed an N-shaped current-voltage (I–13;V) relation with inward current activated at potentials negative to E_K. When external K⁺ was varied, I-V curves shifted 53 mV/10-fold change in [K⁺]_out, as predicted for a K⁺-selective channel. Inward current was blocked by Ba²⁺ and showed a time-dependent decline at negative potentials, which was reduced in Na⁺-free external solution. Inward single-channel currents were recorded in the cell-attached configuration. Single-channel currents were identified as inward-rectifier K⁺ channels based on the following observations: (i) Unitary I-V relations rectified, with only inward current resolved. (ii) Unitary conductance () was 31 pS when recorded in the cell-attached configuration with 140 mm K⁺ in the pipette and was found to be dependent on [K⁺]. (iii) Addition of Ba²⁺ to the pipette solution abolished single-channel events. We conclude that rabbit osteoclasts possess inwardly rectifying K⁺ channels which give rise to the inward current recorded at negative potentials in the whole-cell configuration. This inwardly rectifying K⁺ current may be responsible for setting the resting membrane potential and for dissipating electrical potential differences which arise from electrogenic transport of protons across the osteoclast ruffled border.This work was supported by The Arthritis Society and the Medical Research Council of Canada. M.E.M.K. was supported by a fellowship, S.J.D. a development Grant and S.M.S. a scholarship from the Medical Research Council. We thank Dr. Zu Gang Zheng for help with scanning microscopy.     

Chloride secretion by canine tracheal epithelium: II. The cellular electrical potential profile

Summary We used intracellular microelectrode techniques to study the mechanisms responsible for Cl secretion by canine tracheal epithelium. Tissues were treated with indomethacin (10^–6 m, added to the mucosal solution) to reduce the baseline rate of Cl secretion and then stimulated by addition of epinephrine (10^–6 m) or prostaglandin E₁ (10^–6 m) to the submucosal solution.Three conclusions emerged from our findings: First, secretagogues enhance the rate of transepithelial Cl transport primarily by increasing apical membrane Cl permeability, since: (i) stimulation of secretion produced parallel decreases in transepithelial resistance (R _t) and the membrane resistance ratioR _a/R_b, whereR _a andR _b refer to the resistances of the apical and basolateral membranes; (ii) there was an inverse relation between the short-circuit current andR _a/R_b; (iii) secretagogues depolarized the electrical potential difference across the apical membrane (_a) and produced an equivalent hyperpolarization of the transepithelial electrical potential difference (₁) so that, in the steady-state, the basolateral membrane potential (_b) was unchanged; and (iv) substitution of sulfate or gluconate for Cl in the bathing solutions prevented secretagogue-induced changes inR _t, R_a/R_b, (_a) and (₁).Second, Cl entry into the cell across the basolateral membrane appears to be electrically-neutral since omission of Cl from the submucosal solution had no effect on (_b) and did not decreaseR _a/R_b as would be expected if Cl entered the cell by a conductive process.Third, secretagogues decreaseR _b. Approximately 20 sec after the onset of the secretory responseR _a/R_b underwent a secondary increase whileR _t continued to fall. The decrease inR _b may reflect an increase in basolateral membrane K permeability.     

The satellite cells of normal anuran skeletal muscle

Population counts and size measurements of satellite cell nuclei and myonuclei were carried out on the normal gastrocnemius muscles of adult Rana pipiens and Rana clamitans. Satellite cell profiles occurred with an observed frequency of about 1.3% in the muscles of the R. pipiens, and with an observed frequency of about 1.6% in the muscles of the R. clamitans. These frequencies were not found to be significantly different. The observed frequencies were corrected for the sampling bias introduced by the difference in the mean size of the satellite cell nuclei and myonuclei. This correction suggests that R. pipiens and R. clamitans both have a true satellite cell frequency of approx 2.7%. Analysis of these data indicates that the satellite cells of the normal anuran gastrocnemius occur in sufficient numbers to account for the regeneration seen after injury to this muscle.     

Effects of nutrition and density in Culex pipiens

Mosquito larvae face numerous biotic and abiotic challenges that affect their development and survivorship, as well as adult fitness. We conducted two experiments under semi‐natural conditions to evaluate the effects of intraspecific competition, nutrient limitation and sub‐lethal doses of malathion on individual life history traits in adult Culex pipiens (Diptera: Culicidae). In the first experiment, larvae of Cx. pipiens were reared at different intraspecific densities and exposed to sub‐lethal doses of malathion. In the second experiment, different intraspecific densities of Cx. pipiens larvae were reared under conditions of low or high larval nutrients, and subsequent adults were fed on either water or 10% sucrose solution. Malathion treatment had relatively minor effects compared with density, which had significant negative effects on development rate, survivorship to adulthood, body size (wing length) and longevity. As larval density increased, a sex ratio distortion in survivorship to adulthood emerged, in which a bias towards males was apparent. Nutrient‐rich larval environments alleviated, in part, the effects of increasing density and extended the lifespan of mosquitoes fed on water and 10% sucrose. Density‐dependent alterations in adult longevity attributable to the larval environment are complex and show contrasting results depending on interactions with other environmental factors. This study suggests that larval resource availability and competition influence Cx. pipiens population growth correlates and have lasting effects on traits that relate to a mosquito's ability to vector pathogens.     

Metamorphic changes in localization of sugars in skin of the leopard frog,Rana pipiens

A lectin histochemical study was carried out to determine the distribution of specific sugars in glycoconjugates within an important osmoregulatory organ, amphibian skin. Paraffin sections were made of Rana pipiens skin from dorsal and ventral regions of aquatic larvae in representative developmental stages as well as from several body regions of semiaquatic adult frogs. Sections were incubated with horseradish peroxidase (HRP)‐conjugated lectins, which bind to specific terminal sugar residues of glycoconjugates. Such sites were visualized by DAB‐H₂O₂. The following HRP‐lectins were used: UEA‐1 for α‐L ‐fucose, SBA for N‐acetyl‐D ‐galactosamine, WGA for N‐acetyl‐β‐D ‐glucosamine, PNA for β‐galactose, and Con A for α‐mannose. We found that lectin binding patterns in larvae change during metamorphic climax as the skin undergoes extensive histological remodeling; this results in adult skin with staining patterns that are specific for each lectin and are similar in all body regions. Such findings in R. pipiens provide additional insight into the localization of molecules involved in osmoregulation in amphibian skin. J. Morphol., 2008. © 2008 Wiley‐Liss, Inc.     

Net CI− flux in short-circuited skin of Rana pipiens: Ouabain sensitivity and Na+ + K+ dependence

Skin of Rana pipiens, like many other species, is considered to actively trassport only Na⁺ when bathed in Ringer's solution on both sides. However, net CI^? influx was previously described by us in short-circuited skin of Rana pipiens, in the summer season. The skins were of low PD (5–30 mV) and high CI^? conductance. Comparison of these findings with other series indicated inverse seasonal variation between PD and CI^? conductance. It was postulated that active CI^? transport exists at all CI^?-conductance levels but at higher PD is too small to be be easily detected. This report evaluates CI^? transport across skins of higher PD (and lower conductance) in winter and further characterizes the system. Net CI^? influx was demonstrated over a wide PD range under short-circuit conditions and was inversely related to the magnitude of the open-circuit PD. It was inhibited by ouabain and dependent upon Na⁺ in the outside medium and K⁺ in the inside medium. It is concluded that this is the same system present in skin of Leptodactylus ocellatus and may not be unique to these two species. It appears to be distinctly different from the acetazolamide-sensitive influx system seen in “low-CI^?” solutions in skins of numerous species. The findings are discussed in terms of (1) parallel Na⁺ and CI^? active transport mechanisms and (2) a neutral NaCI-pump model, recently proposed by Rehm.     

Compartments and Fluxes of K, NA, and CL in Avena Coleoptile Cells

By the compartmental analysis method of MacRobbie and Dainty, and Pitman, estimates of K⁺, Na⁺, and Cl⁻ concentrations and fluxes were obtained for the cytoplasm and vacuole of coleoptile cells of oat, Avena sativa L. cv. Victory. Double labeling was used in experiments with ⁴²K plus ²²Na and with ⁴²K plus ³⁶Cl in a complete nutrient solution. At the plasmalemma, according to the Ussing-Teorell flux ratio equation, Na⁺ is pumped out and Cl⁻ is actively transported inward. The results with K⁺ are less conclusive, but it is probably pumped in. At the tonoplast there is an active inward transport of Na⁺ and probably of K⁺, but the status of Cl⁻ is uncertain, depending upon whether there is an electrical potential difference between the cytoplasm and vacuole. The results suggest that ion selectivity resides mostly in the plasmalemma. Possible errors in the estimates and interpretations are discussed.