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1

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Hydrophobic labeling of (sodium, potassium)-ATPase: further evidence that the .beta. subunit is embedded in the membrane bilayer (1983)

Girardet, M. ; Geering, K. ; Rossier, B. C. ; [et al.]

s.l. : American Chemical Society

Biochemistry 22 (1983), S. 2296-2300

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00278a037

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2

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Actions of aldosterone on polyadenylated ribonucleic acid and Na+ ion transport in the toad bladder (1976)

Wilce, P. A. ; Rossier, B. C. ; Edelman, I. S.

s.l. : American Chemical Society

Biochemistry 15 (1976), S. 4279-4285

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00664a022

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3

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Actions of aldosterone on rRNA and Na+ ion transport in the toad bladder (1976)

Wilce, P. A. ; Rossier, B. C. ; Edelman, I. S.

s.l. : American Chemical Society

Biochemistry 15 (1976), S. 4286-4292

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ISSN: 1520-4995

Source: ACS Legacy Archives

Topics: Biology , Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/bi00664a023

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4

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The amiloride receptor (1994)

Horisberger, J. -D. ; Puoti, A. ; Canessa, C. ; [et al.]

Springer

Journal of molecular medicine 72 (1994), S. 695-697

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ISSN: 1432-1440

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00212992

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5

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Thyroid hormone antagonizes an aldosterone-induced protein: A candidate mediator for the late mineralocorticoid response (1986)

Truscello, A. ; Gäggeler, H. P. ; Rossier, B. C.

Springer

The journal of membrane biology 89 (1986), S. 173-183

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ISSN: 1432-1424

Keywords: Bufo marinus ; triiodothyronine ; hormonal domain ; aldosterone ; sodium butyrate ; transepithelial sodium transport

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary In the urinary bladder of the toadBufo marinus, the basal rate of synthesis of a number of proteins was modulated in a bidirectional way (i.e., induced or repressed) by aldosterone and by triiodothyronine (T3). Each hormone was therefore characterized by a distinct domain of response. When both hormones were added simultaneously, the two domains consistently overlapped at least for one protein, termed AIP-1, or aldosterone-induced protein 1 (M r≈65 kilodaltons,p i=6.7, as analyzed by two-dimension gel electrophoresis). The physiological role of AIP-1 is unknown, but could be related to the late mineralocorticoid response. In five experiments, T3 (60nm, 18-hr incubation) consistently repressed AIP-1, while aldosterone-dependent sodium transport (late response) was significantly inhibited, as previously described. The repression of AIP-1 was also observed as early as 6 hr after aldosterone addition. In addition, sodium butyrate (3mm), which was previously shown to also selectively inhibit the late mineralocorticoid response, was also able to repress AIP-1. Our results suggest that AIP-1, is one of the proteins involved in the mediation of the late mineralocorticoid response.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01869713

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6

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Amiloride-sensitive sodium channels in confluent M-1 mouse cortical collecting duct cells (1995)

Letz, B. ; Ackermann, A. ; Canessa, C. M. ; [et al.]

Springer

The journal of membrane biology 148 (1995), S. 127-141

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ISSN: 1432-1424

Keywords: Epithelial sodium channel ; renal epithelial cell line ; cortical collecting duct ; amiloride ; single-channel recordings ; Xenopus laevis oocytes ; Northern blot analysis

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Abstract Confluent M-1 cells show electrogenic Na+ absorption and possess an amiloride-sensitive Na+-conductance (Korbmacher et al., J. Gen. Physiol. 102:761–793, 1993). In the present study, we further characterized this conductance and identified the underlying single channels using conventional patch clamp technique. Moreover, we isolated poly(A)+ RNA from M-1 cells to express the channels in Xenopus laevis oocytes, and to check for the presence of transcripts related to the epithelial Na+ channel recently cloned from rat colon (Canessa et al., Nature 361:467–470, 1993). Patch clamp experiments were performed in 6–13-day-old confluent M-1 cells at 37°C. In whole-cell experiments application of 10−5 m amiloride caused a hyperpolarization of 24.9, sem±2.2 mV (n = 35) and a reduction of the inward current by 107±10 pA (n = 51) at a holding potential of -60 mV. Complete removal of bath Na+ had similar effects, indicating that the amiloride-sensitive component of the inward current is a Na+ current. The effect of amiloride was concentration-dependent with half-inhibition at 0.22 μm. The Na+ current saturated with increasing extracellular Na+ concentrations with an apparent K m of 24 mm. Na+ replacement for Li+ demonstrated a higher apical membrane conductance for Li+ than for Na+. In excised inside-out (i/o) or outside-out (o/o) patches from the apical membrane, we observed single-channels which showed slow kinetics and were reversibly inhibited by amiloride. Their average conductance for Na+ was 6.8±0.5 pS (n = 15) and for Li+ 11.2±1.0 pS (n = 14). They had no measurable conductance for K+. In o/o patches, channel activity was slightly voltage dependent with an open probability (NP o ) of 0.46±0.14 and 0.16±0.05 at a holding potential of -100 and 0 mV, respectively (n = 8, P〈0.05). Using the two-microelectrode voltage-clamp technique, we assayed defolliculated stage V–VI Xenopus oocytes for an amiloride-sensitive inward current 1–6 days after injection with H2O or with 20–50 ng of M-1 poly(A)+ RNA. In poly(A)+ RNA-injected oocytes held at -60 or -100 mV application of amiloride (2 μm) reduced the Na-inward current by 25.5±4.6 nA (n = 25) while it had no effect in H2O-injected oocytes (n = 19). Northern blot analysis of M-1 poly(A+) RNA revealed the presence of transcripts related to the three known subunits of the rat colon Na+ channel (Canessa et al., Nature 367:463–467, 1994). We conclude that the channel in M-1 cells is closely related to the amiloride-sensitive epithelial Na+ channel in the rat colon and that the M-1 cell line provides a useful tool to investigate the biophysical and molecular properties of the corresponding channel in the cortical collecting duct.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00207269

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7

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Role of RNA in the action of aldosterone on Na+ transport (1978)

Rossier, B. C.

Springer

The journal of membrane biology 40 (1978), S. 187-197

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Recent data describing the effects of aldosterone on the induction of messenger RNA (=mRNA) and ribosomal RNA (=rRNA) are reviewed. In the urinary bladder of the toad, aldosterone induces a few specific polyadenylatedmRNAs (=poly(A)(+)mRNA) during the latent period, i.e., 30 to 60 min after hormone addition. Later, i.e., 90 to 240 min after aldosterone addition, 18S and 28S cytoplasmicrRNA subunits are also induced. The effect on poly(A)(+)mRNA is mineralocorticoid-specific and correlates well with the aldosterone-dependent Na+ transport. Actinomycin D which inhibits both poly(A)(+)mRNA and nonpolyadenylatedmRNA (=poly(A)(−)mRNA) totally abolishes the response to aldosterone on Na+ transport. 3′deoxyadenosine (cordycepin), which inhibits poly(A)(+)mRNA but not poly(A)(−)mRNA, only inhibits 50 to 60% of the physiological response. These differential effects suggest that an intact poly(A)(−)mRNA pathway is also an important factor in mediating the action of aldosterone. In contrast, 3′deoxycytidine, which inhibitsrRNA but notmRNA, does not impair the mineralocorticoid response, at least during the first 3 hr of aldosterone action.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02026005

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8

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Isolation and separation of toad bladder epithelial cells (1979)

Rossier, M. ; Rossier, B. C. ; Pfeiffer, J. ; [et al.]

Springer

The journal of membrane biology 48 (1979), S. 141-166

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary The epithelium of the urinary bladder ofBufo marinus is composed of 5 cell types, i.e., granular (Gr), mitochondria-rich (MR) and goblet (G) cells which face the urinary lumen, microfilament-rich (MFR) and undifferentiated cells (Un) located basally. The epithelium was dissociated by collagenase and EGTA treatment. Fractionation of dispersed cells by isopycnic centrifugation on dense serum albumin solutions yielded 4 fractions: (i) a very light fraction ( $$\bar \rho \simeq 1.025$$ ) enriched in MR and MFR cells; (ii) a light fraction ( $$\bar \rho \simeq 1.045$$ ) enriched in vacuolated Gr cells; (iii) a heavy fraction ( $$\bar \rho \simeq 1.065$$ ) composed essentially of aggregated Gr cells, and (iv) a pellet ( $$\bar \rho \simeq 1.085$$ ) enriched in G and undifferentiated cells. Recoveries were based on cell counts and DNA measurements. DNA content per cell was 13.2 pg±0.9 (n=37). From 1 g fresh tissue, 62±5×106 (n=10) cells were recovered before isopycnic centrifugation of which about 70% excluded Trypan blue. After centrifugation, 90 to 95% of the cells excluded the vital dye and ∼39×106 cells were recovered from the gradient. Cell metabolism in each fraction was estimated by oxygen consumption measurements in absence or presence of ouabain, acetazolamide, and dinitrophenol. The consumption was threefold higher in the very light and light fractions when compared to the heavy and pellet fractions. Ouabain sensitive oxygen consumption (QO2) represented 12 to 35% of the total O2 consumption depending on the cell fraction, and acetazolamide sensitive QO2 varied from −0.8% in the heavy fractions to 20% in the lighter fractions. DNP increased QO2 in all fractions by 20 to 50%. Finally, the cells were able to reaggregate and form junctional complexes upon addition of calcium to the medium.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01872856

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Microfilament-rich cells in the toad bladder epithelium (1979)

Kraehenbuhl, J. P. ; Pfeiffer, J. ; Rossier, M. ; [et al.]

Springer

The journal of membrane biology 48 (1979), S. 167-180

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ISSN: 1432-1424

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Basal cells of the bladder epithelium ofBufo marinus have been found heterogenous and consist of microfilament-rich cells (MFR-cell) and undifferentiated cells (Un-cell). The MFR-cell, which represents approximately 20% of the epithelial cell population, lies between the epithelial layer lining the urinary space and the basement membrane; it extends under several epithelial cells by processes of varying widths and lengths which contact, via desmosomes, other MFR-cells, as well as cells in the superficial layer, i.e., granular and mitochondria-rich cells. The cytoplasm of MFR-cell is filled with intermediate filaments arranged in bundles which run parallel to the plane of the epithelium and no dense granules, typical of granular cells, have been detected. Strong immunofluorescence for actin is associated with cells which occupy the same basal position as MFR-cells. Undifferentiated cells have no contact via desmosomes with adjacent cells and their cytoplasm is filled with free ribosomes; they lack bundles of intermediate filaments and posses no specialized organelles. After a 4-hr pulse of3H-thymidine, 1.5% of epithelial cells incorporate thymidine into nuclear DNA, out of which 3/4 are basally 1/4 are apically located. Identification of cell types by electron microscopy reveals that ∼10% of undifferentiated basal cells are labeled, whereas less than 0.1% of granular cells and no MFR-cells incorporate3H-thymidine into DNA. When dissociated from the epithelium and separated by isopycnic centrifugation, MFR-cells possess a mean buoyant density of approximately 1.025, cosediment with mitochondria-rich cells and exhibit a strong immunofluorescence for actin. The function of MFR-cells remains unknown; however, they may play a role in cell coupling and responses to hormonal and physical factors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01872857

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Effects of thyromimetric drugs on aldosterone-dependent sodium transport in the toad bladder (1984)

Geering, K. ; Gaeggeler, H. P. ; Rossier, B. C.

Springer

The journal of membrane biology 77 (1984), S. 15-23

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ISSN: 1432-1424

Keywords: aldosterone ; triidothyronine ; thyromimetic drugs ; sodium transport ; toad bladder ; Bufo marinus

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Chemistry and Pharmacology

Notes: Summary Aldosterone increases transepithelial Na+ transport in the urinary bladder ofBufo marinus. The response is characterized by 3 distinct phases: 1) a lag period of about 60 min, ii) an initial phase (early response) of about 2 hr during which Na+ transport increases rapidly and transepithelial electrical resistance falls, and iii) a late phase (late response) of about 4 to 6 hr during which Na+ transport still increases significantly but with very little change in resistance. Triiodothyronine (T3, 6nm) added either 2 or 18 hr before aldosterone selectively antagonizes the late response. T3 per se (up to 6nm) has no effect on base-line Na+ transport. The antagonist activity of T3 is only apparent after a latent period of about 6 to 8 hr. It is not rapidly reversible after a 4-hr washout of the hormone. The effects appear to be selective for thyromimetic drugs since reverse T3 (rT3) is inactive and isopropyldiiodothyronine (isoT2) is more active than T3. The relative activity of these analogs corresponds to their relative affinity for T3 nuclear binding sites which we have previously described. Our data suggest that T3 might control the expression of aldosterone by regulating gene expression, e.g. by the induction of specific proteins, which in turn will inhibit the late mineralocorticoid response, without interaction with the early response.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01871096

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