Correlation of high-throughput pregnane X receptor (PXR) transactivation and binding assays

Pregnane X receptor (PXR) transactivation and binding assays have been developed into high-throughput assays, which are robust and reproducible (Z' > 0.5). For most compounds, there was a good correlation between the results of the transactivation and binding assays. EC(50) values of compounds in the transactivation assay correlated reasonably well with their IC(50) values in the binding assay. However, there were discrepancies with some compounds showing high binding affinity in the binding assay translated into low transactivation. The most likely cause for these discrepancies was an agonist-dependent relationship between binding affinity and transactivation response. In general, compounds that bound to human PXR and transactivated PXR tended to be large hydrophobic molecules.     

Aequorin functional assay for characterization of G-protein-coupled receptors: Implementation with cryopreserved transiently transfected cells

Assay technologies that measure intracellular Ca²⁺ release are among the predominant methods for evaluation of GPCR function. These measurements have historically been performed using cell-permeable fluorescent dyes, although the use of the recombinant photoprotein aequorin (AEQ) as a Ca²⁺ sensor has gained popularity with recent advances in instrumentation. The requirement of the AEQ system for cells expressing both the photoprotein and the GPCR target of interest has necessitated the labor-intensive development of cell lines stably expressing both proteins. With the goal of streamlining this process, transient transfections were used to either (1) introduce AEQ into cells stably expressing the GPCR of interest or (2) introduce the GPCR into cells stably expressing the AEQ protein, employing the human muscarinic M₁ receptor as a model system. Robust results were obtained from cryopreserved cells prepared by both strategies, yielding agonist and antagonist pharmacology in good agreement with literature values. Good reproducibility was observed between multiple transient transfection events. These results indicate that transient transfection is a viable and efficient method for production of cellular reagents for use in AEQ assays.     

孕烷X受体研究进展

孕烷X受体(pregnane X receptor,PXR)是核受体超家族成员之一,以同名内源性配体孕烷命名,主要表达在肝脏、小肠、胃、肾脏等组织,在机体异源性/内源性物质的代谢及排泄过程中起重要的调节作用。近年的研究表明,PXR还可以通过调节其下游靶基因的表达,直接参与机体脂质、胆固醇和糖代谢,维持机体内环境的稳态。本文将就PXR的研究进展做一综述。     

孕烷X受体的研究进展

孕烷X受体(pregnane X receptor,PXR)属于核受体超家族(NRs)中的NR1I亚家族,主要在肝脏、小肠、胃、肾脏等组织中高表达。自该受体发现以来已相继克隆出小鼠、大鼠、猴及人等哺乳动物的PXR。PXR作为内源及外源物激活受体在机体的防御机制中发挥重要的生物调节作用和"解毒"功能。此外,大量研究还表明PXR通过调节下游靶基因的表达而广泛参与机体的物质及能量代谢,并在某些疾病的发生发展中发挥重要作用。本文就PXR的新近研究进展做一综述。     

Transmembrane motility assay of transiently transfected cells by fluorescent cell counting and luciferase measurement

Current in vitro assays used in assessing tumor motility could be improved by the development of a simple technique that would facilitate studies of the impact of specific genes on pharmacologically altered chemotaxis. We developed a technique that improves on the classic transwell assay by using fluorescence and luminescence to assess chemotaxis. In this transient transfection system, co-transfection of a reporter construct and a gene with an unknown impact on motility are coupled with biochemical assays to quantitate the number of cells that have received a transferred gene, which subsequently crosses the membrane. This assay was found to be less variable than the conventional transwell chamber and is easily adaptable to studies of cell motility or cell invasion. We also demonstrate that this assay can detect the effect of both genetic and pharmacological inhibition of motility alone and in combination. It therefore has the potential to reveal additive or synergistic effects.     

The antiapoptotic role of pregnane X receptor in human colon cancer cells

The orphan nuclear receptor pregnane X receptor (PXR) plays an important role in the detoxification of foreign and endogenous chemicals, including bile acids. PXR promotes bile acid elimination by activating bile acid-detoxifying enzymes and transporters. Certain bile acids are known to promote colonic carcinogenesis by inducing colon cancer cell apoptosis. However, whether and how PXR plays a role in colon cancer apoptosis has not been reported. In this study, we showed that activation of PXR by genetic (using a constitutively activated PXR) or pharmacological (using PXR agonist rifampicin) means protected the PXR-overexpressing colon cancer HCT116 cells from deoxycholic acid-induced apoptosis. Interestingly, activation of PXR also protected HCT116 cells from adriamycin-induced cell death, suggesting that the antiapoptotic effect of PXR was not bile acid specific. Moreover, the antiapoptotic effect of PXR in HCT116 cells appeared to be independent of xenobiotic enzyme regulation, because these cells had little basal and inducible expression of bile acid-detoxifying enzymes. Instead, SuperArray analysis showed that PXR-mediated deoxycholic acid resistance was associated with up-regulation of multiple antiapoptotic genes, including BAG3, BIRC2, and MCL-1, and down-regulation of proapoptotic genes, such as BAK1 and TP53/p53. Treatment with rifampicin in colon cancer LS180 cells, a cell line known to express endogenous PXR, also inhibited apoptosis. Activation of PXR in transgenic mice inhibited bile acid-induced colonic epithelial apoptosis and sensitized mice to dimethylhydrazine-induced colonic carcinogenesis, suggesting that the antiapoptotic effect of PXR is conserved in normal colon epithelium. In summary, our results have established the antiapoptotic role of PXR in both human colon cancer cells and normal mouse colon epithelium.     

Utility of large-scale transiently transfected cells for cell-based high-throughput screens to identify transient receptor potential channel A1 (TRPA1) antagonists

Despite increasing use of cell-based assays in high-throughput screening (HTS) and lead optimization, one challenge is the adequate supply of high-quality cells expressing the target of interest. To this end, cell lines stably expressing targets are often established, maintained, and scaled up by cell culture. These steps require large investments of time and resources. Moreover, significant variability invariably occurs in cell yield, viability, expression levels, and target activities. In particular, stable expression of targets such as transient receptor potential A1 (TRPA1) causes toxicity, cell line degeneration, and loss of functional activity. Therefore, in an effort to identify TRPA1 antagonists, the authors used large-scale transiently transfected (LSTT) cells, enabling rapid establishment of assays suitable for HTS. LSTT cells, which could- be stored frozen for a long period of time (e.g., at least 42 weeks), retained TRPA1 protein expression and could be easily revived to produce robust and consistent signals in calcium influx and electrophysiological assays. Using cells from a single transfection, a chemical library of 700,000 compounds was screened, and TRPA1 antagonists were identified. The use of LSTT circumvented issues associated with stable TRPA1 expression, increased flexibility and consistency, and greatly reduced labor and cost. This approach will also be applicable to other pharmaceutical targets.     

Evolution of pharmacologic specificity in the pregnane X receptor

Background  

The pregnane X receptor (PXR) shows the highest degree of cross-species sequence diversity of any of the vertebrate nuclear hormone receptors. In this study, we determined the pharmacophores for activation of human, mouse, rat, rabbit, chicken, and zebrafish PXRs, using a common set of sixteen ligands. In addition, we compared in detail the selectivity of human and zebrafish PXRs for steroidal compounds and xenobiotics. The ligand activation properties of the Western clawed frog (Xenopus tropicalis) PXR and that of a putative vitamin D receptor (VDR)/PXR cloned in this study from the chordate invertebrate sea squirt (Ciona intestinalis) were also investigated.     

A vinblastine fluorescent probe for pregnane X receptor in a time-resolved fluorescence resonance energy transfer assay

The pregnane X receptor (PXR) regulates the metabolism and excretion of xenobiotics and endobiotics by regulating the expression of drug-metabolizing enzymes and transporters. The unique structure of PXR allows the binding of many drugs and drug leads to it, possibly causing undesired drug–drug interactions. Therefore, it is crucial to evaluate whether lead compounds bind to PXR. Fluorescence-based assays are preferred because of their sensitivity and nonradioactive nature. One fluorescent PXR probe is currently commercially available; however, because its chemical structure is not publicly disclosed, it is not optimal for studying ligand–PXR interactions. Here we report the characterization of BODIPY FL–vinblastine, generated by labeling vinblastine with the fluorophore 4,4-difluoro-5,7-dimethyl-4-bora-3a,4a-diaza-s-indacene (BODIPY FL), as a high-affinity ligand for human PXR with a K_d value of 673 nM. We provide evidence that BODIPY FL–vinblastine is a unique chemical entity different from either vinblastine or the fluorophore BODIPY FL in its function as a high-affinity human PXR ligand. We describe a BODIPY FL–vinblastine-based human PXR time-resolved fluorescence resonance energy transfer assay, which was used to successfully test a panel of human PXR ligands. The BODIPY FL–vinblastine-based biochemical assay is suitable for high-throughput screening to evaluate whether lead compounds bind to PXR.     

Orphan nuclear receptor pregnane X receptor sensitizes oxidative stress responses in transgenic mice and cancerous cells

Efficient handling of oxidative stress is critical for the survival of organisms. The orphan nuclear receptor pregnane X receptor (PXR) is important in xenobiotic detoxification through its regulation of phase I and phase II drug-metabolizing/detoxifying enzymes and transporters. In this study we unexpectedly found that the expression of an activated human PXR in transgenic female mice resulted in a heightened sensitivity to paraquat, an oxidative xenobiotic toxicant. Heightened paraquat sensitivity was also seen in wild-type mice treated with the mouse PXR agonist pregnenolone-16alpha-carbonitrile. The PXR-induced paraquat sensitivity was associated with decreased activities of superoxide dismutase and catalase, enzymes that scavenge superoxide and hydrogen peroxide, respectively. Paradoxically, the general expression and activity of glutathione S-transferases, a family of phase II enzymes that detoxify electrophilic and cytotoxic substrates, was also induced in the transgenic mice. PXR regulates glutathione S-transferase expression in an isozyme-, tissue-, and sex-specific manner, and this regulation is independent of the nuclear factor-erythroid 2 p45-related factor 2/Kelch-like Ech-associated protein 1 pathway. In cell cultures, expression of activated human PXR sensitizes the cancerous colon and liver cells to the cytotoxic effect of paraquat, which is associated with an increased production of the reactive oxygen species. The current study reveals a novel function of PXR in the mammalian oxidative stress response, and this regulatory pathway may be implicated in carcinogenesis by sensitizing normal and cancerous tissues to oxidative cellular damage.     

Detection and quantification of apoptosis in transiently transfected adherent cells.

Apoptosis is a highly conserved form of cell death present in all eukaryotic cell types and controlled by multiple genes. Several methods have been developed to quantify apoptosis, but none is adapted for all cell types. It is particularly difficult to reliably assay apoptosis of adherent cells. We describe a new, rapid and reliable flow cytometric method which can be used for quantifiying apoptosis in a sub-population of transiently transfected adherent cells. This technique is based on the detection of transfected cells and the apoptotic sub-population by immunofluorescence and Annexin-V labelling, respectively.     

Purification of transiently transfected cells by magnetic affinity cell sorting

A method was developed to purify transiently transfected HeLa cells or African green monkey kidney CV-1 cells by magnetic affinity cell sorting. Monolayer cultures were transfected with mammalian expression vectors coding for either of two novel cell surface antigens, the Tac subunit of the human IL-2 receptor or vesicular stomatitis virus G protein. During the transient expression phase, cell populations were placed in suspension and mixed with monoclonal-antibody-coated magnetic particles in the presence of a sorting solution designed to minimize nonspecific cell/cell and cell/particle interactions. Transfected cells expressing the vector-encoded cell surface antigen were then isolated by application of a magnetic field. Reconstruction experiments indicated that IL-2 receptor-positive cells were bound about 100-fold more efficiently than receptor-negative cells. In transient transfection experiments, populations of greater than 90% antigen-positive cells were reproducibly obtained.     

Assessment of heterologous membrane protein polarity in transiently transfected MDCK cells

We have evaluated transient transfection of MDCK cells by the DEAE-dextran/chloroquine method as a rapid method for study of heterologous plasma membrane protein polarity. Transiently transfected cells reseeded onto permeable supports formed confluent monolayers with normal tight junctions and normal distribution of endogenous apical and basolateral surface markers. Transfected monolayers reseeded onto opaque polycarbonate filters attained cell heights 3 times greater than on transparent filters. Conventional and confocal immunofluorescence microscopy were used to assess polarity of transient expression of heterologous proteins previously defined in stably transfected cell lines as apical (DAF-CD55), basolateral (VSV-G), and nonpolarized (CD7) in distribution. Through each transiently expressed protein exhibited a polarity phenotype in most cells which resembled the stable phenotype, consistency of polarized localization was less than in stably transfected cells. Similar results were obtained by lipofection. We conclude that transient transfection of MDCK cells may be useful as a rapid screen, but is not sufficiently reliable for definitive assessment of heterologous membrane proein polarity.Abbreviations CD55-DAF CD55-Decay-accelearating factor - DMSO Dimethylsulfoxide - FBS Fetal bovine serum - FITC Fluorescein isothiocyanate - MDCK Madin Darby canine kidney cells - PBS Phosphate-buffered saline - TER Transepithelial resistance - VSVG Vesicular stomatis virus G protein     

Enhancement of cytokine expression in transiently transfected cells by magnetoliposome mediated hyperthermia

We investigated the enhancement of cytokine expression by heat treatment in transiently transfected glioma cells. The cells were transfected with plasmid bearing the interferon (IFN)-β gene under control of the MMTV promoter, which is inducible by glucocorticoid (dexamethasone). Then magnetite particles (10 nm diameter) as intracellular heating material were incorporated to the cells as the form of magnetoliposome. After 5 hours of incorporation, alternative magnetic field (384Oe, 118kHz) was applied for intracellular heating. IFN-β secreted in the medium was assayed and its concentration was compared to the extracellular heating induced expression, both in the presence and absence of dexamethasone. Higher IFN-β concentration was detected in intracellular heating even at lower temperature, 39 °C, than 43 °C in extracellular heating. The IFN-β expression level reached in the presence of dexamethasone was about three times higher than in the absence of inducer. In intracellular heating of 60 min, the surviving cell number reduced until 20%. This revised version was published online in June 2006 with corrections to the Cover Date.     

SEAP expression in transiently transfected mammalian cells grown in serum-free suspension culture

A transient transfection process was established using a novel 'in-house' developed transfection reagent, Ro-1539. It allows rapid production of large quantities of various recombinant proteins. Here we describe the transient expression of the secreted human placental alkaline phosphatase (SEAP) by HEK293EBNA and CHO cells in serum-free suspension culture. Unexpectedly, high expression levels of SEAP (150 μg/ml) were found 3–4 days post-transfection when placental alkaline phosphatase (AP) was used as the reference enzyme. To confirm these data, an SDS–PAGE analysis was performed and the visible SEAP protein band (MW of 65 kDa) was compared with co-migrated purified placental AP protein as reference. The scanning analysis of the gel showed that SEAP, a truncated form of AP, has a higher specific activity than the purified placental AP. A correction factor was introduced permitting a direct comparison of placental AP activity with the expression levels of SEAP. Scale-up of the transfection system from spinner flask to bioreactor was simple and straightforward, resulting in similar yields of SEAP. Finally, the effectiveness of Ro-1539 was compared to that of other transfection reagents. This revised version was published online in July 2006 with corrections to the Cover Date.     

Activation of pregnane X receptor disrupts glucocorticoid and mineralocorticoid homeostasis

The pregnane X receptor (PXR) was isolated as a xenobiotic receptor that regulates responses to various xenobiotic agents. In this study, we show that PXR plays an important endobiotic role in adrenal steroid homeostasis. Activation of PXR by genetic (transgene) or pharmacological (ligand, such as rifampicin) markedly increased plasma concentrations of corticosterone and aldosterone, the respective primary glucocorticoid and mineralocorticoid in rodents. The increased levels of corticosterone and aldosterone were associated with activation of adrenal steroidogenic enzymes, including cytochrome P450 (CYP)11a1, CYP11b1, CYP11b2, and 3beta-hydroxysteroid dehydrogenase. The PXR-activating transgenic mice also exhibited hypertrophy of the adrenal cortex, loss of glucocorticoid circadian rhythm, and lack of glucocorticoid responses to psychogenic stress. Interestingly, the transgenic mice had normal pituitary secretion of ACTH and the corticosterone-suppressing effect of dexamethasone was intact, suggesting a functional hypothalamus-pituitary-adrenal axis despite a severe disruption of adrenal steroid homeostasis. The ACTH-independent hypercortisolism in the PXR-activating transgenic mice is reminiscent of the pseudo-Cushing's syndrome in patients. The glucocorticoid effect appears to be PXR specific, as the activation of constitutive androstane receptor in transgenic mice had little effect. We propose that PXR is a potential endocrine disrupting factor that may have broad implications in steroid homeostasis and drug-hormone interactions.     

异源物代谢核受体PXR与肿瘤多药耐药相关性的研究进展

肿瘤的多药耐药性是临床化疗中迫切需要解决的问题.孕烷X受体(pregnane X receptor,PXR)为配体活化的转录因子,其下游靶基因均为主司异源性药物/毒物生物转化功能的I相、II相代谢酶及III相转运蛋白,可对药物代谢动力学过程产生重要的影响,故有可能成为逆转肿瘤多药耐药的新的药物作用靶点.本文总结了PXR在肿瘤多药耐药中的作用及机制、新型PXR配体类药物研发等方面的研究进展.