The effect of antidiuretic hormone on Na movement across frog skin

Cereijido, Marcelino; Rotunno, Catalina A.

doi:10.1113/jphysiol.1971.sp009372

Cited by 28 publications

(18 citation statements)

References 35 publications

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“…The difficulty in detecting the inhibitory effects of amiloride when using high outside concentrations of sodium is in keeping with other findings where neither ouabain (Biber, 1971) nor antidiuretic hormone (Cereijido & Rotunno, 1971) can be shown to affect the uptake at high sodium concentrations though both change sodium uptake at low sodium concentrations. This could be due to problems associated with the correction for extracellular space, problems which make the quantification of an inhibitory response difficult.…”

mentioning

confidence: 71%

Sodium uptake by frog skin and its modification by inhibitors of transepithelial sodium transport

Erlij¹,

Smith²

1973

The Journal of Physiology

111

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SUMMARY1. The suitability of inulin and mannitol as markers of the diffusional space that exists between the surface of frog skin and the outer barrier to sodium transport has been compared in experiments designed to measure the rapid uptake of sodium.2. Inulin and mannitol both equilibrate finally with the same space at the outer surface of the frog skin, but the rate at which this equilibration occurs is considerably faster for mannitol.3. The dependence of the rapid uptake of sodium on the concentration of sodium in the external medium, using mannitol to correct for extracellular sodium, can be described by simple saturation kinetics with an apparent Km for sodium entry of 24 mm and a maximal rate of uptake of 1-28 ,uequiv/cm2. hr.4. The effect of amiloride is to inhibit sodium uptake, the degree of inhibition depending both on the concentration of sodium in the external medium and on the level of transepithelial transport normally maintained by the skin.5. Ouabain inhibits sodium uptake when the tissue has been preincubated in sodium containing medium. It has no effect on sodium uptake if the pre-incubation takes place in sodium free medium.6. A short-circuit current and potential difference can be elicited across frog skin in the presence of ouabain, by increasing the concentration of sodium bathing the outside surface. This potential and short-circuit current is abolished by the presence of amiloride.7. These results provide direct evidence that amiloride acts to stop entry of sodium into the transport compartment and suggest that the * Work carried out during the tenure of an Overseas Fellowship, Churchill College, Cambridge. Present address:

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mentioning

confidence: 71%

Sodium uptake by frog skin and its modification by inhibitors of transepithelial sodium transport

Erlij¹,

Smith²

1973

The Journal of Physiology

111

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“…The skin is then immersed into a thermos flask containing liquid nitrogen (--196 ~ The central part of the skin is cut into several transverse sections, each representing a certain uptake time of tracer. In previous papers (Rotunno et al, 1970;Cereijido & Rotunno, 1971) . After a period of preincubation in the desired Ringer's solution, the chambers are emptied.…”

Section: Unidirectional Flux Outside -- Epithelium ( J12 )mentioning

confidence: 97%

Barriers to sodium movement across frog skin

et al. 1973

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Summary. The aim of this paper is to obtain information on the number, nature and location of the barriers to Na movement across the frog skin, and on the size and location of the Na-pool that might be contained between these barriers. On the basis that Na penetrates passively across an outer barrier, and is actively extruded across an inner barrier which is impermeable to passive movements of Na, we expected to detect at least the Na-pool of a single cell layer containing some 10 -8 moles per cm 2 of epithelium (i.e., in a cell layer 5 g thick and with 21 mM Na). Yet no Na-pool with these characteristics was found. The method employed could have detected a Na-pool at least an order of magnitude smaller than the one expected. It is concluded that either a Na-pool does not exist (except for the Na bound to the mechanisms operating the translocation), or else that the Na-pool is contained between barriers with different characteristics than the ones assumed above. In the first case, Na transport across the epithelium would consist of a translocation across a single asymmetrical functional "barrier". In the second case, the experimental results would require that ouabain either directly (by inhibiting an active step) or indirectly (through a mediated decrease of the Na permeability of the outer barrier) prevents Na penetration at the outer border.

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“…The frogs, Rana temporaria and Rana esculenta, were kept under running tap water at room temperature prior to the experiments. The arrangement used for measuring the uptake of Na from the epithelial side was similar to that described by Rotunno et aL [27] and Cereijido et al [9]. The isolated skin was mounted on a rectangular frame, exposing an area of 7.5 cm 2 (5 cm high and 1.5 cm wide) which was then inserted into a lucite Ussingtype chamber.…”

Section: Materials and Apparatusmentioning

confidence: 99%

Influx and efflux of sodium at the outer surface of frog skin

1975

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The unidirectional Na influx j12, and Na efflux, j12, at the epithelial surface of the frog skin were determined under various experimental conditions. The j21 was taken as the difference between j12 and the simultaneously measured shortcircuit current (SCC). Errors in j12 determination originating from various transport rates within the skin were kept to a minimum using a normalization procedure. Under control conditions, j12 (1.20 muEquiv/cm-2. hr) was found to be only slightly larger than the SCC (1.10 MUEquiv/cm-2. hr). After inhibition of the transepithelial Na transport by amiloride, ouabain, low temperature and low Na concentration, the reduction of j12 and SCC was almost identical, indicating that the entrance of Na into the epithelium is rate limiting for the transepithelial transport. Compared to the control, j21 remained unchanged after amiloride and ouabain, but was insignificantly reduced at low temperature and significantly reduced at low Na concentration. These data are consistent with the assumption that the Na efflux follows mainly an extracellular pathway.

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The effect of antidiuretic hormone on Na movement across frog skin

Cited by 28 publications

References 35 publications

Sodium uptake by frog skin and its modification by inhibitors of transepithelial sodium transport

Sodium uptake by frog skin and its modification by inhibitors of transepithelial sodium transport

Barriers to sodium movement across frog skin

Influx and efflux of sodium at the outer surface of frog skin

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