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ABSTRACT: The capacity for hepatic elimination of some compounds is different in males and females and differential expression of a number of sinusoidal and canalicular transporters exists. However, the specific events underlying the functional differences are not understood. To determine how sex influences sinusoidal and canalicular organic anion transport, bile duct-cannulated livers from mature Sprague-Dawley rats of both sexes were single-pass perfused with saline containing the model organic anions bromosulphophthalein (BSP), carboxyfluorescein (CF), carboxyfluorescein diacetate (CFDA) or 4,4'-diisothiocyanatostilbene-2,2'-disulphonic acid (DIDS). Assay of effluent perfusate anion concentration showed that BSP, but not DIDS, extraction was significantly higher in male versus female rats. At 20 min perfusion with 50 microM BSP the mean effluent concentration was 5.6 and 20.1 microM in, respectively, male and female rats. HPLC confirmed that the effluent perfusate concentration of BSP was higher in female as compared with male rats and was not contributed to by its glutathione conjugate. With 25 microM DIDS, the effluent concentration reached 7.3 (male) and 8.2 microM (female), indicating high extraction efficiency. In contrast to BSP and DIDS, CF extraction was very low (<20%) so that differences between male and females could not be assessed. Biliary BSP and CF excretion were, respectively, 3.5- and 4-fold higher in male rats. Neither sinusoidal efflux nor biliary excretion of CF was sex-dependent with a higher cytoplasmic load of CF (during CFDA perfusion). Our results suggest that differences in sinusoidal uptake are responsible for the sex-specific hepatic excretion of some organic anions.
Life Sciences 03/2008; 82(7-8):436-43. · 2.53 Impact Factor
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ABSTRACT: Inwardly rectifying K+ channels (Kir) comprise seven subfamilies that can be subdivided further on the basis of cytosolic pH (pHi) sensitivity, rectification strength and kinetics, and resistance to run-down. Although distinct residues within each channel subunit define these properties, heteromeric association with other Kir subunits can modulate them. We identified such an effect in the wild-type forms of Kir4.2 and Kir5.1 and used this to further understand how the functional properties of Kir channels relate to their structures. Kir4.2 and a Kir4.2-Kir5.1 fusion protein were expressed in HEK293 cells. Inward currents from Kir4.2 were stable over 10 min and pHi-insensitive (pH 6 to 8). Conversely, currents from Kir4.2-Kir5.1 exhibited a pHi-sensitive run-down at slightly acidic pHi. At pHi 7.2, currents in response to voltage steps positive to EK were essentially time independent for Kir4.2 indicating rapid block by Mg2+. Coexpression with Kir5.1 significantly increased the blocking time constant, and increased steady-state outward current characteristic of weak rectifiers. Recovery from blockade at negative potentials was voltage dependent and 2 to 10 times slower in the homomeric channel. These results show that Kir5.1 converts Kir4.2 from a strong to a weak rectifier, rendering it sensitive to pHi, and suggesting that Kir5.1 plays a role in fine-tuning Kir4.2 activity.
Biochimica et Biophysica Acta 12/2006; 1758(11):1837-45. · 4.66 Impact Factor
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ABSTRACT: Regulatory volume decrease and exocrine secretion studies suggest a functional relationship between K+ and organic anion efflux. To test the hypothesis that the expression of K+ channels and MRP1 is reciprocally related, we employed the patch clamp and RT-PCR techniques on weakly (H69) and strongly MRP1-expressing (H69AR) small cell lung cancer cells. H69AR cells do not express the time- and voltage-dependent delayed rectifying K+ current (Kv) reported earlier in H69 cells and confirmed here. About 80% of the Kv current in H69 cells inactivated at 0 mV, allowing us to identify other K+ currents present in these cells. Whole-cell currents from cells dialyzed and bathed in K-gluconate as the major ions exhibited inward rectification in both cell types. Inwardly rectifying (Kir) currents in both H69 and H69AR cells showed time-dependent activation and slow inactivation at large negative potentials. H69 cells also express a threefold larger Ca2+ -stimulated K+ -selective and iberiotoxin-sensitive current relative to H69AR cells. In excised inside-out patches exposed to 145 mM symmetrical K+ solutions, H69 cells expressed a voltage- and Ca2+ -sensitive large conductance (128 +/- 5 pS) K+ channel (MaxiK). MaxiK-like currents were not observed at the whole-cell or single-channel level in H69AR cells. RT-PCR identified MaxiKalpha transcripts in H69 but not H69AR cells. These results indicate that two K+ currents (MaxiK and Kv) and the organic anion transporter MRP1 are reciprocally expressed in H69 and H69AR cells.
Journal of Cellular Physiology 12/2006; 209(2):535-41. · 3.87 Impact Factor
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ABSTRACT: Hepatocellular Cl- flux is integral to maintaining cell volume and electroneutrality in the face of the many transport and metabolic activities that describe the multifaceted functions of these cells. Although a significant volume-regulated Cl- current (VRAC) has been well described in hepatocytes, the Cl- channels underlying the large resting anion conductance have not been identified. We used a combination of electrophysiological and molecular approaches to describe potential candidates for this conductance. Anion currents in rat hepatocytes and WIF-B and HEK293T cells were measured under patch electrode-voltage clamp. With K+-free salts of Cl- comprising the major ions externally and internally, hyperpolarizing steps between -40 and -140 mV activated a time-dependent inward current in hepatocytes. Steady-state activation was half-maximal at -63 mV and 28-38% of maximum at -30 to -45 mV, previously reported hepatocellular resting potentials. Gating was dependent on cytosolic Cl-, shifting close to 58 mV/10-fold change in Cl- concentration. Time-dependent inward Cl- currents and a ClC-2-specific RT-PCR product were also observed in WIF-B cells but not HEK293T cells. All cell types exhibited typical VRAC in response to dialysis with hypertonic solutions. DIDS (0.1 mM) inhibited the hepatocellular VRAC but not the inward time-dependent current. Antibodies against the COOH terminus of ClC-2 reacted with a protein between 90 and 100 kDa in liver plasma membranes. The results demonstrate that rat hepatocytes express a time-dependent inward Cl- channel that could provide a significant depolarizing influence in the hepatocyte.
AJP Gastrointestinal and Liver Physiology 03/2005; 288(2):G221-9. · 3.43 Impact Factor
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ABSTRACT: The capacity for hepatic elimination of some compounds is different in males and females and differential expression of a number of sinusoidal and canalicular transporters exists. However, the specific events underlying the functional differences are not understood. To determine how sex influences sinusoidal and canalicular organic anion transport, bile duct-cannulated livers from mature Sprague–Dawley rats of both sexes were single-pass perfused with saline containing the model organic anions bromosulphophthalein (BSP), carboxyfluorescein (CF), carboxyfluorescein diacetate (CFDA) or 4,4'-diisothiocyanatostilbene-2,2′-disulphonic acid (DIDS). Assay of effluent perfusate anion concentration showed that BSP, but not DIDS, extraction was significantly higher in male versus female rats. At 20 min perfusion with 50 µM BSP the mean effluent concentration was 5.6 and 20.1 µM in, respectively, male and female rats. HPLC confirmed that the effluent perfusate concentration of BSP was higher in female as compared with male rats and was not contributed to by its glutathione conjugate. With 25 µM DIDS, the effluent concentration reached 7.3 (male) and 8.2 µM (female), indicating high extraction efficiency. In contrast to BSP and DIDS, CF extraction was very low (< 20%) so that differences between male and females could not be assessed. Biliary BSP and CF excretion were, respectively, 3.5- and 4-fold higher in male rats. Neither sinusoidal efflux nor biliary excretion of CF was sex-dependent with a higher cytoplasmic load of CF (during CFDA perfusion). Our results suggest that differences in sinusoidal uptake are responsible for the sex-specific hepatic excretion of some organic anions.
Life Sciences.
