Karen I. Hirsch-Ernst

Induction of mdr1b mRNA and P-glycoprotein expression by tumor necrosis factor alpha in primary rat hepatocyte cultures.

Mammalian liver exhibits expression of members of the family of multidrug resistance (mdr) transporters (P‐glycoproteins). P‐glycoprotein isoforms encoded by mdr1 genes participate in extrusion of an array of xenobiotics into the bile. Induction of mdr1b mRNA expression has been shown to occur in rat hepatocytes in response to hepatotrophic growth factors. As the cytokine tumor necrosis factor alpha (TNF‐α) is known to exert a direct mitogenic effect on hepatocytes, its influence on mdr1b expression was investigated. In primary rat hepatocytes cultured in the absence of TNF‐α, a time‐dependent increase in basal expression of mdr1b mRNA and in immunodetectable P‐glycoprotein was observed. In cells treated with TNF‐α (4,000 U/ml) for 3 days, expression of mdr1b mRNA and of immunodetectable P‐glycoprotein was induced approximately twofold. Moreover, intracellular steady‐state levels of the mdr1 substrate rhodamine 123 were decreased in cells pretreated with TNF‐α in comparison to controls, indicating an increase in functional transporter(s) mediating dye extrusion. Treatment of hepatocytes with antioxidants (1 mM ascorbic acid and 2% dimethyl sulfoxide) for 3 days markedly suppressed mdr1b mRNA and P‐glycoprotein expression both in cells cultured in the presence of TNF‐α and in the absence of the cytokine, but did not fully abolish mdr1b mRNA induction by TNF‐α, supporting the notion that reactive oxygen species participate in regulation of basal mdr1b gene expression during hepatocyte culture. In conclusion, the present data indicate that by inducing mdr1b expression in hepatocytes, TNF‐α may affect the capacity of the liver for extrusion or detoxification of endogenous or xenobiotic mdr1 substrates. J. Cell. Physiol. 176:506–515, 1998.

PPARα‐dependent induction of the energy homeostasis‐regulating nuclear receptor NR1i3 (CAR) in rat hepatocytes: Potential role in starvation adaptation

A tight hormonal control of energy homeostasis is of pivotal relevance for animals. Recent evidence suggests an involvement of the nuclear receptor NR1i3 (CAR). Fasting induces CAR by largely unknown mechanisms and CAR‐deficient mice are defective in fasting adaptation. In rat hepatocytes CAR was induced by WY14643, a PPARα‐agonist. A DR1 motif in the CAR promoter was necessary and sufficient for this control. The PPARα‐dependent increase in CAR potentiated the phenobarbital‐induced transcription of the prototypical CAR‐dependent gene CYP2B1. Since free fatty acids are natural ligands for PPARα, a fasting‐induced increase in free fatty acids might induce CAR. In accordance with this hypothesis, CAR induction by fasting was abrogated in PPARα‐deficient mice.

Inhibitors of mdr1-dependent transport activity delay accumulation of the mdr1 substrate rhodamine 123 in primary rat hepatocyte cultures

P-glycoproteins (P-gps) encoded by mdr1 (multidrug resistance) genes mediate extrusion of numerous lipophilic xeno- and endobiotics through the plasma membrane. Rhodamine 123 (Rh123), a fluorescent dye which is accumulated by mitochondria, is a mdr1 substrate and a well-established tool to study mdr1 transport activity. Inhibitors of mdr1-dependent transport such as verapamil or cyclosporin A have been found to decrease Rh123 efflux from mdr1-expressing cells. Mdr1b gene expression increases with time in primary rat hepatocyte culture. In hepatocytes cultured for 4 days and expressing high levels of P-gp, intracellular Rh123 accumulation was enhanced in the presence of mdr1 inhibitors (cyclosporin A, 8 and 80 microM, verapamil, 8 and 80 microM, or triton X-100, 8 microM). Surprisingly, in hepatocytes expressing low levels of P-gp (after 1 day of culture), time-dependent Rh123 accumulation was not enhanced, but delayed by cyclosporin A, verapamil or triton X-100. In these cells orthovanadate (50 microM), an inhibitor of P-glycoprotein ATPase activity, suppressed Rh123 accumulation, while tetraethylammonium (200 microM), an organic cation transporter (OCT) substrate, had no effect. The paradoxical delay in Rh123 accumulation by verapamil and cyclosporin A occurred eventhough these compounds decreased dye extrusion from Rh123 pre-loaded cells. These observations suggest that a hitherto unknown mechanism which is sensitive to modulators of mdr1-activity contributes to Rh123 uptake or accumulation in primary rat hepatocytes.

Physiological oxygen tensions modulate expression of the mdr1b multidrug-resistance gene in primary rat hepatocyte cultures.

P-Glycoprotein transporters encoded by mdr1 (multidrug resistance) genes mediate extrusion of an array of lipophilic xenobiotics from the cell. In rat liver, mdr transcripts have been shown to be expressed mainly in hepatocytes of the periportal region. Since gradients in oxygen tension (pO(2)) may contribute towards zonated gene expression, the influence of arterial and venous pO(2) on mRNA expression of the mdr1b isoform was examined in primary rat hepatocytes cultured for up to 3 days. Maximal mdr1b mRNA levels (100%) were observed under arterial pO(2) after 72 h, whereas less than half-maximal mRNA levels (40%) were attained under venous pO(2). Accordingly, expression of mdr protein and extrusion of the mdr1 substrate rhodamine 123 were maximal under arterial pO(2) and reduced under venous pO(2). Oxygen-dependent modulation of mdr1b mRNA expression was prevented by actinomycin D, indicating transcriptional regulation. Inhibition of haem synthesis by 25 microM CoCl(2) blocked mdr1b mRNA expression under both oxygen tensions, whereas 80 microM desferrioxamine abolished modulation by O(2). Haem (10 microM) increased mdr1b mRNA levels under arterial and venous pO(2). In hepatocytes treated with 50 microM H(2)O(2), mdr1b mRNA expression was elevated by about 1.6-fold at venous pO(2) and 1.5-fold at arterial pO(2). These results support the conclusion that haem proteins are crucial for modulation of mdr1b mRNA expression by O(2) in hepatocyte cultures and that reactive oxygen species may participate in O(2)-dependent signal transduction. Furthermore, the present study suggests that oxygen might be a critical modulator for zonated secretion of mdr1 substrates into the bile.

Subcellular localization of rat Abca5, a rat ATP-binding-cassette transporter expressed in Leydig cells, and characterization of its splice variant apparently encoding a half-transporter

Several transporters belonging to the ABCA subfamily of ABC (ATP-binding cassette) proteins are involved in lipid trafficking. Human ABCA5 and its rat orthologue, rAbca5, represent recently identified subfamily members whose substrate spectrum remains to be defined. The elucidation of (sub)cellular rAbca5 distribution would be expected to provide a basis for optimization of functional analyses. In the present study, we applied in situ hybridization to examine rAbca5 mRNA distribution within sections of rat testis, a tissue expressing high levels of rAbca5 mRNA. We found rAbca5 mRNA to be predominantly expressed in interstitial Leydig cells, which are major sites of testosterone synthesis. To investigate rAbca5 subcellular localization, we constructed expression vectors yielding rAbca5 fused either to EGFP (enhanced green fluorescent protein) or to a peptide bearing the viral V5 epitope. During rAbca5 cDNA cloning, we discovered a splice variant sequence (rAbca5 V20+16), predicted to give rise to a truncated, half-size transporter, which was highly homologous with a human splice variant described by us previously. Quantitative RT (reverse transcription)-PCR demonstrated that the rAbca5 splice variant was expressed in numerous tissues (including testis, brain and lungs), its cDNA amounting to 2.6-11.2% of total rAbca5 cDNA. Transfection of individual rAbca5-EGFP, rAbca5 splice variant-EGFP or transporter-V5 expression plasmids along with organelle marker plasmids into HEK-293 cells (human embryonic kidney 293 cells) revealed that both rAbca5 and splice variant fusion proteins co-localized with marker protein for the Golgi apparatus. Expression of rAbca5 mRNA in Leydig cells, intracellular localization of rAbca5-EGFP/rAbca5-V5 and involvement of rAbca5-related proteins in lipid transport suggest that rAbca5 may participate in intracellular sterol/steroid trafficking.

Induction of cytochrome P-4502B1-related mouse cytochrome P-450 and regulation of its expression by epidermal growth factor/transforming growth factor α in primary hepatocyte culture

Phenobarbital-dependent induction of mouse cytochrome P-450 (Cyp) orthologous to rat CYP2B1 and its modulation by hepatotrophic growth factors were examined in primary hepatocyte cultures. Compared to rat hepatocytes, induction in mouse hepatocytes was more rapid and effective. Ligands of the EGF receptor, epidermal growth factor, and transforming growth factor alpha inhibited induction on the basis of protein expression and CYP2B-associated 7-pentoxyresorufin-O-depentylase activity. Furthermore, EGF led to repression of accumulation of corresponding mRNA under phenobarbital, an effect not blocked by inhibition of protein synthesis under cycloheximide. Ligands of the EGF receptor may contribute towards the decrease in hepatic CYP expression observed during (pre)neoplastic development and regeneration.

Functional characterization of a -100_-102delAAG deletion-insertion polymorphism in the promoter region of the HTR3B gene.

Objective The HTR3B gene encodes the B-subunit of the type 3 serotonin receptor (5-HT3). A -100_-102delAAG deletion in the promoter region has been associated with poor response to antiemetic medication and susceptibility to bipolar affective disorders. The molecular mechanisms underlying these associations, however, remained unclear. Methods We performed electrophoretic mobility shift and luciferase reporter gene assays to elucidate the effect of this polymorphism on the HTR3B promoter activity in PC-12 and HEK293 cells. The reporter constructs carried a 2171 bp fragment of the native HTR3B promoter or 30 bp of the polymorphic locus in tandem triplication upstream of the thymidine kinase minimal promoter. Results Deletion mapping indicated that the sequence around the -100_-102delAAG polymorphism had significant promoter activity. Electrophoretic mobility shift assays indicated differential binding of nuclear proteins to the polymorphic DNA region with stronger binding to the insertion than to the deletion allele. The activity of the native promoter carrying the deletion allele was 25% higher in PC-12 (P=0.016) and 40% higher in HEK cells (P=0.016) compared with the respective insertion construct. Constructs carrying the deletion allele in tandem triplicates showed 43% (PC-12 cells, P=0.002) and 28% (HEK293 cells, P=0.015) higher activity than those carrying the insertion allele. The polymorphism was not linked with known amino acid substitutions in HTR3A and HTR3B. Conclusions The -100_-102delAAG 3 bp deletion increases the HTR3B promoter activity in vitro. The consequences of this for the structure and the function of the resulting 5-HT3 receptors remain to be elucidated.

Cloning of human and rat ABCA5/Abca5 and detection of a human splice variant ☆

We presently report the cloning of cDNA sequences encoding the novel rat ATP-binding cassette (ABC) transporter Abca5 and the orthologous human transporter, recently designated as ABCA5. Furthermore, the existence of a novel non-translated exon of the ABCA5 gene, previously assigned to an ABCA gene cluster in the chromosomal region 17q24.2-3, is demonstrated. Abca5 and ABCA5 cDNAs are predicted to give rise to proteins of 1642 amino acids which exhibit the typical domain arrangement of ABC full transporters and share 90% identity within the amino acid sequences. A cDNA representing an ABCA5 mRNA splice variant was cloned which would result in a truncated protein equivalent to an ABC half transporter. Northern blot analyses revealed expression of ABCA5 or Abca5 mRNA in several tissues, but particularly high Abca5 mRNA expression was observed in rat testis. Up-regulation of Abca5 mRNA expression during culture of primary rat hepatocytes suggests that hepatocyte cultures should provide a basis for investigation of Abca5 gene regulation and elucidation of Abca5 function.

Monitoring of cytochrome P-450 1A activity by determination of the urinary pattern of caffeine metabolites in Wistar and hyperbilirubinemic Gunn rats.

Various studies suggest that induction of cytochrome P-450 1A (CYP1A) might be a valuable therapeutic modality for reducing the hyperbilirubinemia of infants with Crigler-Najjar syndrome type I (CNS-I), a severe form of congenital jaundice. To evaluate inducers of CYP1A as possible tools in the treatment of hyperbilirubinemia, a novel assay was established, based on the analysis of the urinary pattern of caffeine metabolites in rats. Wistar rats received [1-Me-(14)C]-caffeine (10 mg/kg i.p.), before and 48h after administration of the potent CYP1A inducer 5,6-benzoflavone (BNF) (80 mg/kg, i.p.). A substantial increase in the fractions of the terminal caffeine metabolites 1-methyluric acid (1-U), 1-methylxanthine (1-X), and a concomitant decrease in the caffeine demethylation product 1,7-dimethylxanthine (1,7-X) was observed after application of BNF. The ratio of the caffeine metabolites (1-U+1-X)/1,7-X may serve as an index of CYP1A activity in rats in vivo. Hyperbilirubinemic, homozygous (jj) Gunn rats are an accepted model for human CNS-I. In male jj Gunn rats treated with BNF or with indole-3-carbinol (I3C, 80 mg/kg, oral gavage), the inducing effect of BNF and 13C on CYP1A activity was confirmed by the urinary pattern of caffeine metabolites, and was parallelled by a decrease in plasma bilirubin levels. These data demonstrate the usefulness of the established caffeine assay for the evaluation of inducers of CYP1A as tools for reducing hyperbilirubinemia and further confirm the potential value of I3C in the treatment of CNS-I.

Increased expression of α6-integrin receptors and of mRNA encoding the putative 37 kDa laminin receptor precursor in pancreatic carcinoma

The expression of alpha6-integrin receptors (VLA-alpha6) and of mRNA encoding the putative 37 kDa laminin receptor precursor (37 LRP) was determined in ductal pancreatic adenocarcinoma and normal pancreatic tissue from the same patient. VLA-alpha6 expression was enhanced and redistributed in pancreatic carcinoma, and 37 LRP mRNA levels were elevated in carcinomatous pancreatic tissue as well as in five pancreatic tumor cell lines. The molecular weight of the major RNA species detected was higher in carcinoma tissue (1.9 kb) as opposed to cell lines (1.2 kb), possibly reflecting alternative splicing of 37 LRP mRNA in the primary tumor.