Comparison of K-Cl cotransport expression in high and low K dog erythrocytes.

K-Cl cotransport plays a crucial role in regulatory volume decrease of erythrocytes. K-Cl cotransport activities in dog erythrocytes with an inherited high Na-K pump activity (HK) and normal erythrocytes (LK) were compared. Nitrite (NO(2)) stimulated K-Cl cotransport activity in HK cells around 14-fold at 2.4 mM, and it also increased the Km value of this cotransporter. Real-time PCR and western blot analysis revealed that K-Cl cotransporter 1 was dominant, and that the quantity of K-Cl cotransporter 1 protein was comparable between HK and LK erythrocytes. These results suggest that the difference in cotransport activity was not caused by the amount of K-Cl cotransport protein but by a difference in the regulation system, which is susceptible to oxidant.

Plasma concentration of vitamin C in dogs with a portosystemic shunt.

Most mammals, including dogs, synthesize vitamin C in the liver. We measured the plasma concentration of vitamin C to assess the body vitamin C status in 15 dogs with a portosystemic shunt (PSS). The plasma biochemical parameters indicated liver abnormalities in all the dogs. In contrast, the plasma concentration of vitamin C ranged from 2.21 to 9.03 mg/L in the 15 dogs and was below the reference range (3.2 to 8.9 mg/L) in only 2 dogs. These findings suggest that vitamin C status is not impaired in dogs with PSS.

Overexpression of LaMDR2, a novel multidrug resistance ATP-binding cassette transporter, causes 5-fluorouracil resistance in Leishmania amazonensis.

The ATP-binding cassette (ABC) proteins play an important role in drug resistance and detoxification in various organisms. Here we isolated LaMDR2, a new member of the multidrug resistance (MDR) subfamily of ABC proteins in Leishmania amazonensis. LaMDR2 exhibited 47% amino acid identity to its most closely related protein, LaMDR1, which was previously isolated from the same species. Promastigotes that overexpressed LaMDR2 showed significant resistance to 5-fluorouracil (5-FU), but not to LaMDR1 substrates. Expression of LaMDR2 in the transfectants was relatively higher in the log phase than the stationary phase, and a lower accumulation of [(3)H]5-FU was observed in the log-phase cells. These results suggest that LaMDR2 is involved in extrusion of xenobiotics, but functionally different from LaMDR1.

Molecular identification of K-CL cotransporter in dog erythroid progenitor cells.

KCC1 cDNA was cloned in dog erythroblasts that had differentiated from peripheral mononuclear cells. The size of the cDNA was 3,258 bp, the same as in pigs, but 3 bp longer than in humans and rodents. The dog KCC1 cDNA encodes for 1,086 amino acid residues with a calculated molecular mass of 120 kDa. The 560 bp cDNA fragment from position 679 to 1,238 in the full length cDNA from the dog erythroblasts was 100% identical to that in the kidney. Hydropathy analysis showed that the structure of dog KCC1 was similar to in other species; 12 trans membrane domains, four glycosylation sites in loop 5, and 17 consensus phosphorylation sites in the cytosol. However, there were variations in dog KCC1 compared to in other species; there was one CK2 phosphorylation site that was found only in dog KCC1. There were also substitutions of amino acids that affect pH sensitivity (His) and change acidic/basic residues or charged residues. In HEK 293 cells transfected with dog KCC1 cDNA (HEK-dKCC1), the Rb influx, which was ouabain-resistant, Cl-dependent, N-ethyl maleimide (NEM)- stimulative and Na-independent, was measured as for K-Cl cotransport, and the influx was found to be increased approximately 3 fold in HEK-dKCC1 compared to in the control. This ouabain-resistant Cl-dependent Rb influx was also volume-sensitive in hyposmotic medium, and the volume-sensitive component was inhibited by furosemide. Thus, the KCC1 cDNA cloned in dog erythroblasts encodes a volume-sensitive K-Cl cotransporter.

$3,3',4,4',5$ -Pentachlorobiphenyl Inhibits Drug Efflux Through P-Glycoprotein in KB-3 Cells Expressing Mutant Human P-Glycoprotein.

The effects on the drug efflux of $3,3',4,4',5$ -pentachlorobiphenyl (PCB-126), the most toxic of all coplanar polychlorinated biphenyls (Co-PCBs), were examined in KB-3 cells expressing human wild-type and mutant P-glycoprotein in which the 61st amino acid was substituted for serine or phenylalanine ( ${\text{KB3 - Phe}};{61} $ ). In the cells expressing P-glycoproteins, accumulations of vinblastine and colchicine decreased form 85% to 92% and from 62% to 91%, respectively, and the drug tolerances for these chemicals were increased. In ${\text{KB3 - Phe}};{61} $, the decreases in drug accumulation were inhibited by adding PCB-126 in a way similar to that with cyclosporine A: by adding 1 $\mu$ M PCB-126, the accumulations of vinblastine and colchicine increased up to 3.3- and 2.3-fold, respectively. It is suggested that PCB-126 decreased the drug efflux by inhibiting the P-glycoprotein in ${\text{KB3 - Phe}};{61} $. Since there were various P-glycoproteins and many congeners of Co-PCBs, this inhibition has to be considered a new cause of the toxic effects of Co-PCBs.

Transepithelial transport and cellular accumulation of steroid hormones and polychlorobiphenyl in porcine kidney cells expressed with human P-glycoprotein.

Endocrine disrupters such as sex hormone-like chemicals and the non-physiological ligands for aryl hydrocarbon receptor (AhR) exert many adverse biological effects. The ligands for AhR disturb gene expression downstream of the gene induced by estrogen receptor at a very low concentration. Thus, transepithelial transport and cellular accumulation of cortisol (COR) and estrogen as congeners of sex hormone-like chemicals, and 3,3',4,4'-tetrachlorobiphenyl (TeCB) as one of the ligands for AhR were examined in a monolayer of porcine kidney cells transfected with human P-glycoprotein (LLC-COL). The net basal-to-apical transport of COR increased in LLC-COL compared to that in the wild type cells (LLC-PKI) the same as in vinblastine, whereas the net transport of estradiol (EST) was not detected in either cell group. Though the diffusion transports of EST for both directions, basal-to-apical and apical-to-basal, were higher than that of COR, cellular accumulation of EST was higher than that of COR. Transepithelial transport of TeCB was very low and the net basal-to-apical transport was not detected, while it was highly accumulated in the epithelial cells. The accumulation was slightly higher in LLC-COL than in LLC-PKI at high dose.

Effect of PCB-126 on intracellular accumulation and transepithelial transport of vinblastine in LLC-PK1 and its transformant cells expressing human P-glycoprotein.

The effects of 3, 3', 4, 4', 5-pentachlorobiphenyl (PCB-126), which is the most toxic congener of coplanar polychlorinated biphenyls (Co-PCBs), on intracellular accumulation and transepithelial transport of vinblastine were examined in porcine kidney cells, LLC-PK1, and its transformant cells expressing human P-glycoprotein (LLC-MDR1). The accumulation decreased less than one-tenth in LLC-MDR1 compared to LLC-PK1. In both cells, the accumulation increased with the addition of PCB-126 and cyclosporine A (CYA), which are P-glycoprotein modulators, though the magnitudes were different in these two cell groups as well as for these two chemicals. Thus, PCB-126 might inhibit extrusion of vinblastine through the drug extrusion system as does CYA. In both the cells, there might be an endogenous drug extrusion system other than P-glycoprotein that was inhibited by CYA or PCB-126. The net basal-to-apical transepithelial transport of vinblastine increased 1.7-fold more in LLC-MDR1 than in LLC-PK1. By adding PCB-126 on the apical side, the transport was greatly decreased by -76% in the monolayer of both cells. By adding PCB-126 and CYA on the basal side in LLC-MDR1 monolayer, the transports increased -1.7-fold, so that PCB-126 might inhibit the extrusion of vinblastine on both the apical and basal sides. One of the causes to be considered for the adverse effects of Co-PCBs, in addition to the binding with an aryl hydrocarbon receptor, might be the modification of drug transport by its interaction with the drug transport system.

Effects of chitin and chitosan on collagen synthesis in wound healing.

Collagen synthesis was evaluated by measuring prolyl hydroxylase (PHL) activity induced within rat granulation tissue by a polyester non-woven fabric (NWF, 1 x 1 cm, 0.6 mm in thickness) impregnated with a chitin or chitosan suspension ranging in concentration from 0.1 to 10 mg/ml. In addition, PHL activity induced in rat granulation tissue by a NWF impregnated with a phosphate buffer solution was examined as a control. The PHL activity in each group remained low until 4 days post-implantation (Day 4). However, in the 10 mg chitin group, the PHL activity increased rapidly without scatter of the data at Day 7 and remained at a plateau until Day 14. In other groups, PHL activity increased linearly until Day 14. The data varied widely at Day 7. Compared to chitosan, chitin at the higher concentration was found to induce stable collagen synthesis in the early wound healing process.