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6. The pregnane X receptor (PXR) and the nuclear receptor corepressor 2 (NCoR2) modulate cell growth in head and neck squamous cell carcinoma.

Author

Rigalli, J.P., Reichel, M., Reuter, T., Tocchetti, G.N., Dyckhoff, G., Herold-Mende, C., Theile, D., Weiss, J., Rigalli, J.P., Reichel, M., Reuter, T., Tocchetti, G.N., Dyckhoff, G., Herold-Mende, C., Theile, D., and Weiss, J.

Abstract

Contains fulltext : 191354.pdf (publisher's version ) (Open Access), Head and neck squamous cell carcinoma (HNSCC) is the sixth most frequent cancer worldwide. The pregnane X receptor (PXR) is a nuclear receptor regulating several target genes associated with cancer malignancy. We here demonstrated a significant effect of PXR on HNSCC cell growth, as evidenced in PXR knock-down experiments. PXR transcriptional activity is more importantly regulated by the presence of coactivators and corepressors than by PXR protein expression. To date, there is scarce information on the regulation of PXR in HNSCC and on its role in the pathogenesis of this disease. Coactivator and corepressor expression was screened through qRT-PCR in 8 HNSCC cell lines and correlated to PXR activity, determined by using a reporter gene assay. All cell lines considerably expressed all the cofactors assessed. PXR activity negatively correlated with nuclear receptor corepressor 2 (NCoR2) expression, indicating a major role of this corepressor in PXR modulation and suggesting its potential as a surrogate for PXR activity in HNSCC. To test the association of NCoR2 with the malignant phenotype, a subset of three cell lines was transfected with an over-expression plasmid for this corepressor. Subsequently, cell growth and chemoresistance assays were performed. To elucidate the mechanisms underlying NCoR2 effects on cell growth, caspase 3/7 activity and protein levels of cleaved caspase 3 and PARP were evaluated. In HNO97 cells, NCoR2 over-expression decreased cell growth, chemoresistance and increased cleaved caspase 3 levels, caspase activity and cleaved PARP levels. On the contrary, in HNO124 and HNO210 cells, NCoR2 over-expression increased cell growth, drug resistance and decreased cleaved caspase 3 levels, caspase activity and cleaved PARP levels. In conclusion, we demonstrated a role of PXR and NCoR2 in the modulation of cell growth in HNSCC. This may contribute to a better understanding of the highly variable HNSCC therapeutic response.

Published
2018

21. PR08 NERVE TO MASSETER – THE KEY TO RELIABLE RESULTS IN FACIAL REANIMATION.

Author

Sharp, D. A., Theile, D. R., Theile, R., and Grinsell, D.

Subjects
*FACIAL nerve, *NEUROSURGERY, *TREATMENT of facial paralysis, *MAXILLOFACIAL surgery, *INNERVATION, *PLASTIC surgery, *SURGERY
Abstract

Purpose: Free muscle microvascular transfer has been the preferred procedure for reanimation of the face in young patients with facial palsy. Historically, the use of the contralateral facial nerve via a cross facial nerve graft has been the chosen method for innervation. However, this usually involves a two-stage procedure, precludes treatment of patients with bilateral facial paralysis and has had variable results with symmetry, tone and strength of voluntary movements. The unreliability of result has been greater in older patients. The nerve to masseter has been successfully shown to provide a reliable alternative for use in facial reanimation with both free muscle transfer and direct nerve transfer to the facial nerve. We present the results of cases using the nerve to masseter in both middle-aged adult and paediatric free gracilis transfer and also with direct innervation with the facial nerve in the elderly. Methodology: Nine patients with facial nerve paralysis underwent reanimation surgery utilising the nerve to masseter. Three adult and three paediatric patients received free gracilis muscle transfer. Three other elderly patients underwent transfer of the ipsilateral masseteric nerve to facial nerve through direct coaptation. Results: All patients have been able to good movement post-operatively with the earliest contractions noted at one month post surgery. All patients had significant movement by three months post surgery. A number of patients have also been able to achieve some amount of spontaneous movement. Conclusions: The nerve to masseter provides a highly reliable source of innervation for free muscle transfers and direct nerve transfer in older adults and children. [ABSTRACT FROM AUTHOR]

Published
2009
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23. Lack of CYP3A4 protein induction despite mRNA induction in primary hepatocytes exposed to rifabutin as a possible explanation for its low interaction risk in vivo.

Author

Nilles J, Theile D, Weiss J, Haefeli WE, and Ruez S

Subjects
Humans, Cells, Cultured, Cytochrome P-450 CYP3A Inducers pharmacology, ATP Binding Cassette Transporter, Subfamily B genetics, ATP Binding Cassette Transporter, Subfamily B metabolism, Enzyme Induction drug effects, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 genetics, Male, Tandem Mass Spectrometry, Rifabutin analogs & derivatives, Rifabutin toxicity, Hepatocytes drug effects, Hepatocytes metabolism, Cytochrome P-450 CYP3A metabolism, Cytochrome P-450 CYP3A genetics, Drug Interactions, RNA, Messenger metabolism, RNA, Messenger genetics, Rifampin pharmacology, Rifampin toxicity
Abstract

Rifampicin is a strong inducer of cytochrome P450 (CYP3A4) and P-glycoprotein (P-gp/ABCB1), leading to profound drug-drug interactions. In contrast, the chemically related rifabutin does not show such pronounced induction properties in vivo. The aim of our study was to conduct a comprehensive analysis of the different induction potentials of rifampicin and rifabutin in primary human hepatocytes and to analyze the mechanism of potential differences. Therefore, we evaluated CYP3A4/ABCB1 mRNA expression (polymerase chain reaction), CYP3A4/P-gp protein expression (immunoaffinity-liquid chromatography-mass spectrometry, IA-LC-MS/MS), CYP3A4 activity (testosterone hydroxylation), and considered intracellular drug uptake after treatment with increasing rifamycin concentrations (0.01-10 µM). Furthermore, rifamycin effects on the protein levels of CYP2C8, CYP2C9, and CYP2C19 were analyzed (IA-LC-MS/MS). Mechanistic analysis included the evaluation of possible suicide CYP3A4 inhibition (IC 50 shift assay) and drug impact on translational efficiency (cell-free luminescence assays). Rifabutin accumulated 6- to 15-fold higher in hepatocytes than rifampicin, but induced CYP3A4 mRNA comparably to rifampicin (e. g. rifampicin 61-fold vs. rifabutin 44-fold, 72 h). While rifampicin for example enhanced protein (10 µM: 21-fold) and activity levels considerably (53-fold), rifabutin only slightly increased CYP3A4 protein expression (10 µM: 3.3-fold) or activity (11-fold) compared to rifampicin after 72 h. Both rifamycins similarly influenced expression of other eliminating proteins. A potential CYP3A4 suicide inhibition by a specific rifabutin metabolite or disruption of ribosome function were excluded experimentally. In conclusion, the lack of protein enhancement, could explain rifabutin's weaker induction-related drug-drug interaction risk in vivo., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2024
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24. The differences in drug disposition gene induction by rifampicin and rifabutin are unlikely due to different effects on important pregnane X receptor (NR1I2) splice variants.

Author

Nilles J, Weiss J, Masin M, Tuffs C, Strowitzki MJ, Haefeli WE, Ruez S, and Theile D

Subjects
Humans, Pregnane X Receptor, Rifabutin, Anti-Bacterial Agents, RNA, Messenger, Cytochrome P-450 CYP3A, Rifampin pharmacology, Receptors, Steroid genetics, Receptors, Steroid metabolism
Abstract

Rifampicin and rifabutin can activate the pregnane X receptor (PXR, NR1I2), thereby inducing pharmacokinetically important genes/proteins and reducing exposure to co-administered drugs. Because induction effects vary considerably between these antibiotics, differences could be due to unequal rifamycin-induced activation or tissue expression of the three major NR1I2 splice variants, PXR.1 (NM_003889), PXR.2 (NM_022002), and PXR.3 (NM_033013). Consequently, PXR activation (PXR reporter gene assays) and mRNA expression levels of total NR1I2, PXR.1, PXR.2, and PXR.3 were investigated by polymerase chain reaction in colon and liver samples from eleven surgical patients, in LS180 cells, and primary human hepatocytes. Compared to the colon, total NR1I2 mRNA expression was higher in the liver. Both tissues showed similar expression levels of PXR.1 and PXR.3, respectively. PXR.2 was not quantifiable in the colon samples. Rifampicin and rifabutin similarly enhanced PXR.1 and PXR.2 activity when transfected into LS180 cells, while PXR.3 could not be activated. In LS180 cells, rifampicin (10 μM) reduced total NR1I2 and PXR.3 expression 2-fold after 24 h, while rifabutin (10 μM) increased total NR1I2, PXR.1, PXR.2, and PXR.3 mRNA by approx. 50% after 96-h exposure. In primary human hepatocytes, rifampicin (10 μM) suppressed total NR1I2, PXR.1, and PXR.3 after 48-h exposure, and rifabutin (10 μM) had no significant impact on total NR1I2 or any of the splice variants studied. In conclusion, both antibiotics activated the studied PXR splice variants similarly but modified their expression differently. While rifampicin can suppress mRNA of PXR forms, rifabutin rather increases their expression levels., (© 2023. The Author(s).)

Published
2024
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25. RNA is a pro-apoptotic target of cisplatin in cancer cell lines and C. elegans.

Author

Rose F, Köberle B, Honnen S, Bay C, Burhenne J, Weiss J, Haefeli WE, and Theile D

Subjects
Animals, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Toll-Like Receptor 3 genetics, Toll-Like Receptor 3 metabolism, RNA, Double-Stranded genetics, RNA, Double-Stranded pharmacology, Apoptosis, Cell Line, Tumor, DNA, Cisplatin pharmacology, Neoplasms drug therapy, Neoplasms genetics
Abstract

Cisplatin not only targets DNA but also RNA. However, it is largely unknown whether platinated RNA (Pt-RNA) causes apoptosis and thus contributes to the cytotoxic effects of cisplatin. Consequently, cellular RNA was isolated from HepG2 and LS180 cells, exposed to cisplatin, and the resulting Pt-RNA (20 ng Pt/µg RNA) was transfected into these cancer cell lines or used to treat an apoptosis reporter Caenorhabditis elegans (C. elegans) strain (MD701, expressing CED-1::GFP). Cellular and molecular effects of Pt-RNA were evaluated by luminogenic caspase 3/7 assays, PCR array analysis, and fluorescence microscopy-based quantification of apoptosis in C. elegans gonads. Assuming RNA cross-linking (pseudo double-stranded RNA), the contribution of the Toll-like receptor 3 (TLR3, a sensor of double-stranded RNA) to apoptosis induction in cancer cell lines was investigated by pharmacological TLR3 inhibition and overexpression. In contrast to controls, Pt-RNA significantly enhanced apoptosis in C. elegans (2-fold) and in the cancer cell lines (2-fold to 4-fold). TLR3 overexpression significantly enhanced the pro-apoptotic effects of Pt-RNA in HepG2 cells. TLR3 inhibition reduced the pro-apoptotic effects of Pt-RNA and cisplatin, but not of paclitaxel (off-target control). Gene expression analysis showed that Pt-RNA (but not RNA) significantly enhanced the mRNA levels of nuclear factor kappa B subunit 2 and interleukin-8 in HepG2 cells, suggesting that Pt-RNA is a damage-associated molecular pattern that additionally causes pro-inflammatory responses. Together, this data suggests that not only DNA but also cellular RNA is a functionally relevant target of cisplatin, leading to pro-apoptotic and immunogenic effects., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published
2024
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26. Rifabutin but not rifampicin can partly out-balance P-glycoprotein induction by concurrent P-glycoprotein inhibition through high affinity binding to the inhibitory site.

Author

Phondeth L, Kamaraj R, Nilles J, Weiss J, Haefeli WE, Pávek P, and Theile D

Subjects
Rhodamine 123 metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, Molecular Docking Simulation, Rifampin pharmacology, Rifabutin pharmacology
Abstract

Physiology-based pharmacokinetic modeling suggests that rifabutin can out-balance P-glycoprotein (P-gp) induction by concurrent P-gp inhibition. However, clinical or experimental evidence for this Janus-faced rifabutin effect is missing. Consequently, LS180 cells were exposed to a moderately (2 µM) and strongly (10 µM) P-gp-inducing concentration of rifampicin or rifabutin for 6 days. Cellular accumulation of the fluorescent P-gp substrate rhodamine 123 was evaluated using flow cytometry, either without (induction only) or with adding rifamycin drug to the cells during the rhodamine 123 efflux phase (induction + potential inhibition). Rhodamine 123 accumulation was decreased similarly by both drugs after 6-day exposure (2 µM: 55% residual fluorescence compared to non-induced cells, P < 0.01; 10 µM: 30% residual fluorescence compared to non-induced cells, P < 0.001), indicating P-gp induction. Rhodamine 123 influx transporters mRNA expressions were not affected, excluding off-target effects. Acute re-exposure to rifabutin, however, considerably re-increased rhodamine 123 accumulation (2 µM induction: re-increase by 55%, P < 0.01; 10 µM induction: 49% re-increase, P < 0.001), suggesting P-gp inhibition. In contrast, rifampicin only had weak effects (2 µM induction: no re-increase; 10 µM induction: 16% re-increase; P < 0.05). Molecular docking analysis eventually revealed that rifabutin has a higher binding affinity to the inhibitor binding site of P-gp than rifampicin (ΔG (kcal/mol) = -11.5 vs -5.3). Together, this study demonstrates that rifabutin can at least partly mask P-gp induction by P-gp inhibition, mediated by high affinity binding to the inhibitory site of P-gp., (© 2023. The Author(s).)

Published
2024
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27. Persister cell phenotypes contribute to poor patient outcomes after neoadjuvant chemotherapy in PDAC.

Author

Zhou X, An J, Kurilov R, Brors B, Hu K, Peccerella T, Roessler S, Pfütze K, Schulz A, Wolf S, Hohmann N, Theile D, Sauter M, Burhenne J, Ei S, Heger U, Strobel O, Barry ST, Springfeld C, Tjaden C, Bergmann F, Büchler M, Hackert T, Fortunato F, Neoptolemos JP, and Bailey P

Subjects
Humans, Cytochrome P-450 CYP3A, Adjuvants, Immunologic, Keratin-17, Phenotype, Neoadjuvant Therapy, Adenocarcinoma
Abstract

Neoadjuvant chemotherapy can improve the survival of individuals with borderline and unresectable pancreatic ductal adenocarcinoma; however, heterogeneous responses to chemotherapy remain a significant clinical challenge. Here, we performed RNA sequencing (n = 97) and multiplexed immunofluorescence (n = 122) on chemo-naive and postchemotherapy (post-CTX) resected patient samples (chemoradiotherapy excluded) to define the impact of neoadjuvant chemotherapy. Transcriptome analysis combined with high-resolution mapping of whole-tissue sections identified GATA6 (classical), KRT17 (basal-like) and cytochrome P450 3A (CYP3A) coexpressing cells that were preferentially enriched in post-CTX resected samples. The persistence of GATA6 hi and KRT17 hi cells post-CTX was significantly associated with poor survival after mFOLFIRINOX (mFFX), but not gemcitabine (GEM), treatment. Analysis of organoid models derived from chemo-naive and post-CTX samples demonstrated that CYP3A expression is a predictor of chemotherapy response and that CYP3A-expressing drug detoxification pathways can metabolize the prodrug irinotecan, a constituent of mFFX. These findings identify CYP3A-expressing drug-tolerant cell phenotypes in residual disease that may ultimately inform adjuvant treatment selection., (© 2023. The Author(s).)

Published
2023
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28. Comprehensive in vitro analysis evaluating the variable drug-drug interaction risk of rifampicin compared to rifabutin.

Author

Nilles J, Weiss J, Sauter M, Haefeli WE, Ruez S, and Theile D

Subjects
Cytochrome P-450 CYP3A genetics, Cytochrome P-450 CYP3A metabolism, Rifabutin toxicity, Drug Interactions, Rifampin pharmacology, Receptors, Steroid genetics, Receptors, Steroid metabolism
Abstract

Compared to rifampicin (600 mg/day), standard doses of rifabutin (300 mg/day) have a lower risk of drug-drug interactions due to induction of cytochrome P450 3A4 (CYP3A4) or P-glycoprotein (Pgp/ABCB1) mediated by the pregnane X receptor (PXR). However, clinical comparisons with equal rifamycin doses or in vitro experiments respecting actual intracellular concentrations are lacking. Thus, the genuine pharmacological differences and the potential molecular mechanisms of the discordant perpetrator effects are unknown. Consequently, the cellular uptake kinetics (mass spectrometry), PXR activation (luciferase reporter gene assays), and impact on CYP3A4 and Pgp/ABCB1 expression and activity (polymerase chain reaction, enzymatic assays, flow cytometry) were evaluated in LS180 cells after treatment with different rifampicin or rifabutin concentrations for variable exposure times and eventually normalized to actual intracellular concentrations. In addition, inhibitory effects on CYP3A4 and Pgp activities were investigated. While rifampicin is poorly taken up by LS180 cells, it strongly activates PXR and leads to enhanced expression and activity of CYP3A4 and Pgp. In contrast, rifabutin is a significantly less potent and less efficient PXR activator and gene inducer, despite sixfold to eightfold higher intracellular accumulation. Finally, rifabutin is a potent inhibitor of Pgp (IC 50  = 0.3 µM) compared to rifampicin (IC 50  = 12.9 µM). Together, rifampicin and rifabutin significantly differ by their effects on the regulation and function of CYP3A4 and Pgp, even when controlled for intracellular concentrations. Rifabutin's concurrent Pgp inhibitory action might partly compensate the inducing effects, explaining its weaker clinical perpetrator characteristics., (© 2023. The Author(s).)

Published
2023
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29. Molecular prediction of clinical response to anti-PD-1/anti-PD-L1 immune checkpoint inhibitors: New perspectives for precision medicine and mass spectrometry-based investigations.

Author

Longuespée R, Theile D, Zörnig I, Hassel JC, Lindner JR, Haefeli WE, and Fresnais M

Subjects
Humans, Antibodies, Monoclonal therapeutic use, Immunotherapy methods, B7-H1 Antigen, Immune Checkpoint Inhibitors therapeutic use, Precision Medicine
Abstract

Monoclonal antibodies (mAbs) acting as immune checkpoint inhibitors (ICIs) are among the most frequently used immunotherapies in oncology. However, precision medicine approaches to adapt the treatment to the patient are still poorly exploited. Given the risk of severe adverse reactions, predicting patient eligibility for ICI therapy represents a great asset for precision medicine. Today, the extended panel of mass spectrometric approaches, accompanied by newly developed sample preparation methods is a strategy of choice for responder and non-responder stratification on a molecular basis, and early detection of resistance. In this perspective article, we review the biodisposition of mAbs, the interest in molecular stratification of patients treated with these mAbs, and the possible analytical strategies to achieve this goal, with a major emphasis on mass spectrometric approaches., (© 2022 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of UICC.)

Published
2023
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31. Quantification of Biologically Active DNA Alkylation in Temozolomide-Exposed Glioblastoma Cell Lines by Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry: Method Development and Recommendations for Validation.

Author

Fresnais M, Jung I, Klein UB, Theile D, Liang S, Haefeli WE, Burhenne J, and Longuespée R

Abstract

Quantitative monitoring of biologically active methylations of guanines in samples exposed to temozolomide (TMZ) would be useful in glioblastoma research for preclinical TMZ experiments, for clinical pharmacology questions regarding appropriate exposure, and ultimately for precision oncology. The known biologically active alkylation of DNA induced by TMZ takes place on O6 position of guanines. However, when developing mass spectrometric (MS) assays, the possible signal overlap of O6-methyl-2'-deoxyguanosine (O6-m2dGO) with other methylated 2'-deoxyguanosine species in DNA and methylated guanosines in RNA must be considered. Liquid chromatography-tandem MS (LC-MS/MS) offers the analytical requirements for such assays in terms of specificity and sensitivity, especially when multiple reaction monitoring (MRM) is available. In preclinical research, cancer cell lines are still the gold standard model for in vitro drug screening. Here, we present the development of ultra-performance LC-MRM-MS assays for the quantification of O6-m2dGO in a TMZ-treated glioblastoma cell line. Furthermore, we propose adapted parameters for method validation relevant to the quantification of drug-induced DNA modifications., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published
2023
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32. How to avoid misinterpretation of dual reporter gene assay data affected by cell damage.

Author

Nilles J, Weiss J, Haefeli WE, Ruez S, and Theile D

Subjects
Cytochrome P-450 CYP3A genetics, Genes, Reporter, Receptors, Cytoplasmic and Nuclear genetics, Rifampin pharmacology, Receptors, Steroid genetics
Abstract

The activity of nuclear receptors (e.g., pregnane x receptor, PXR) can be assessed by luminescence-based dual reporter gene assays. Under most conditions, receptor-activated firefly luminescence is normalized to Renilla luminescence, which is triggered by a constitutively active promoter. Simultaneous damage to the cells can however disrupt these signals and thus impair the interpretation of the data. Consequently, this study addressed three important aspects: First, idealized models were described, each highlighting crucial characteristics and important pitfalls of dual PXR reporter gene assays used to evaluate PXR activation or inhibition. Second, these models were supported by experimental data obtained with a strong PXR activator (rifampicin) with low cytotoxicity, a PXR activator with high cytotoxicity (dovitinib), a proposed PXR inhibitor that reportedly has no toxic effects (triptolide), and a cytotoxic control (oxaliplatin). Data were evaluated for relative PXR activity data, individual firefly or Renilla luminescence, and anti-proliferative effects of the compounds (assessed by crystal violet staining). Finally, a step-by-step guide is proposed to avoid misleading set-up of the assay or misinterpretation of the data obtained. Key considerations here include (1) omission of drug concentrations beyond 10-20% proliferation inhibition; (2) observation of Renilla luminescence, because this tends to indicate 'false PXR activation' when it inexplicably decreases; (3) parallel decrease of relative PXR activity and proliferation below baseline levels in conjunction with a sharp decrease in Renilla luminescence indicates 'false PXR antagonism'; (4) non-sigmoidal relationships suggest the absence of concentration dependency., (© 2022. The Author(s).)

Published
2022
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33. Crystal violet staining is a reliable alternative to bicinchoninic acid assay-based normalization.

Author

Nilles J, Weiss J, and Theile D

Subjects
Proteins, Quinolines, Reproducibility of Results, Staining and Labeling, Gentian Violet, Nucleic Acids
Abstract

Experimental data with cells often require normalization. The frequently used bicinchoninic acid (BCA) assay, in fact, indicates protein content but is influenced by incubation time, pH etc. A simple, rapid and reliable alternative is desirable. Crystal violet stains nucleic acids and proteins and was used to reflect the cell number in 96-well plates. Calibration curves and comparison with BCA confirmed excellent goodness of fit (R 2 : 0.98), conformity (nonsignificant difference of BCA to crystal violet) and reliability of this staining methodology. Crystal violet staining can be used to normalize experimental data to the number of adherent cells present in cell culture plates.

Published
2022
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34. Approaching Sites of Action of Temozolomide for Pharmacological and Clinical Studies in Glioblastoma.

Author

Fresnais M, Turcan S, Theile D, Ungermann J, Abou Zeed Y, Lindner JR, Breitkopf M, Burhenne J, Haefeli WE, and Longuespée R

Abstract

Temozolomide (TMZ), together with bulk resection and focal radiotherapy, is currently a standard of care for glioblastoma. Absorption, distribution, metabolism, and excretion (ADME) parameters, together with the mode of action of TMZ, make its biochemical and biological action difficult to understand. Accurate understanding of the mode of action of TMZ and the monitoring of TMZ at its anatomical, cellular, and molecular sites of action (SOAs) would greatly benefit precision medicine and the development of novel therapeutic approaches in combination with TMZ. In the present perspective article, we summarize the known ADME parameters and modes of action of TMZ, and we review the possible methodological options to monitor TMZ at its SOAs. We focus our descriptions of methodologies on mass spectrometry-based approaches, and all related considerations are taken into account regarding the avoidance of artifacts in mass spectrometric analysis during sampling, sample preparation, and the evaluation of results. Finally, we provide an overview of potential applications for precision medicine and drug development.

Published
2021
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35. Regulation of PXR Function by Coactivator and Corepressor Proteins: Ligand Binding Is Just the Beginning.

Author

Rigalli JP, Theile D, Nilles J, and Weiss J

Subjects
Animals, Disease, Health, Humans, Ligands, Protein Binding, Transcription, Genetic, Co-Repressor Proteins metabolism, Pregnane X Receptor metabolism
Abstract

The pregnane X receptor (PXR, NR1I2 ) is a nuclear receptor which exerts its regulatory function by heterodimerization with the retinoid-X-receptor α (RXRα, NR2B1 ) and binding to the promoter and enhancer regions of diverse target genes. PXR is involved in the regulation of drug metabolism and excretion, metabolic and immunological functions and cancer pathogenesis. PXR activity is strongly regulated by the association with coactivator and corepressor proteins. Coactivator proteins exhibit histone acetyltransferase or histone methyltransferase activity or associate with proteins having one of these activities, thus promoting chromatin decondensation and activation of the gene expression. On the contrary, corepressor proteins promote histone deacetylation and therefore favor chromatin condensation and repression of the gene expression. Several studies pointed to clear cell- and ligand-specific differences in the activation of PXR. In this article, we will review the critical role of coactivator and corepressor proteins as molecular determinants of the specificity of PXR-mediated effects. As already known for other nuclear receptors, understanding the complex mechanism of PXR activation in each cell type and under particular physiological and pathophysiological conditions may lead to the development of selective modulators with therapeutic potential.

Published
2021
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36. Acquired ABC-transporter overexpression in cancer cells: transcriptional induction or Darwinian selection?

Author

Theile D and Wizgall P

Subjects
Animals, Drug Resistance, Multiple genetics, Drug Resistance, Neoplasm genetics, Humans, Neoplasms genetics, ATP-Binding Cassette Transporters genetics, Antineoplastic Agents pharmacology, Neoplasms drug therapy
Abstract

Acquired multidrug resistance (MDR) in tumor diseases has repeatedly been associated with overexpression of ATP-binding cassette transporters (ABC-transporters) such as P-glycoprotein. Both in vitro and in vivo data suggest that these efflux transporters can cause MDR, albeit its actual relevance for clinical chemotherapy unresponsiveness remains uncertain. The overexpression can experimentally be achieved by exposure of tumor cells to cytotoxic drugs. For simplification, the drug-mediated transporter overexpression can be attributed to two opposite mechanisms: First, increased transcription of ABC-transporter genes mediated by nuclear receptors sensing the respective compound. Second, Darwinian selection of sub-clones intrinsically overexpressing drug transporters being capable of extruding the respective drug. To date, there is no definite data indicating which mechanism truly applies or whether there are circumstances promoting either mode of action. This review summarizes experimental evidence for both theories, suggests an algorithm discriminating between these two modes, and finally points out future experimental approaches of research to answer this basic question in cancer pharmacology., (© 2021. The Author(s).)

Published
2021
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37. In vitro evidence suggesting that the toll-like receptor 7 and 8 agonist resiquimod (R-848) unlikely affects drug levels of co-administered compounds.

Author

Theile D, Wagner L, Haefeli WE, and Weiss J

Subjects
ATP Binding Cassette Transporter, Subfamily G, Member 2, Cytochrome P-450 CYP3A genetics, Cytochrome P-450 CYP3A metabolism, Neoplasm Proteins, Imidazoles pharmacology, Receptors, Steroid genetics, Receptors, Steroid metabolism, Toll-Like Receptor 7 agonists, Toll-Like Receptor 8 agonists
Abstract

Resiquimod (R-848) is an immune response modifier activating toll-like receptor 7 and 8. Its potential to cause pharmacokinetic interactions with concurrently administered drugs is unknown. To study the time course of the effect of resiquimod in LS180 cells as a model for intestinal tissue, luciferase-based reporter gene assays and reverse transcription polymerase chain reaction were used to investigate whether resiquimod affects the activities of nuclear factor kappa B (NF-ĸB), pregnane x receptor (PXR) or the transcription of selected central genes for drug disposition (cytochrome P-450 isozyme 3A4 (CYP3A4), CYP1A1, UDP-glucuronosyltransferase 1A1 (UGT1A1), ATP-binding cassette transporters ABCC2, ABCB1). Its impact on the activities of organic anion transporting polypeptides 1 or 3 (OATP1B1/3), breast cancer resistance protein (BCRP), P-glycoprotein (P-gp) or CYP3A4 was evaluated using fluorescence- or luminescence-based activity assays. Resiquimod irrelevantly increased NF-ĸB activity after 2 h (1 µM: 1.07-fold, P = 0.0188; 10 µM: 1.09-fold, P = 0.0142), and diminished it after 24 h (1 µM: 0.64-fold, P < 0.0001; 10 µM: 0.68-fold, P < 0.0001) and 30 h (10 µM: 0.68-fold, P = 0.0003). Concurrently, PXR activity after 24 h was marginally increased by 10 µM (1.05-fold, P = 0.0019). Resiquimod did not alter mRNA expression levels, activities of uptake or efflux transporters, or CYP3A4 activity. Given the marginal effects on NF-ĸB, PXR, expression levels of selected PXR target genes, and activities of important drug transporters and CYP3A4 in vitro, resiquimod is not expected to cause major pharmacokinetic drug-drug interactions in vivo., (Copyright © 2021. Published by Elsevier B.V.)

Published
2021
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38. Time-Resolved Effect of Interferon-Alpha 2a on Activities of Nuclear Factor Kappa B, Pregnane X Receptor and on Drug Disposition Genes.

Author

Theile D, Wagner L, Bay C, Haefeli WE, and Weiss J

Abstract

Interferon-alpha (IFN-α) is suggested to cause pharmacokinetic drug interactions by lowering expression of drug disposition genes through affecting the activities of nuclear factor kappa B (NF-ĸB) and pregnane X receptor (PXR). The time-resolved impact of IFN-α 2a (1000 U/mL; 5000 U/mL; 2 h to 30 h) on the activities of NF-ĸB and PXR and mRNA expression (5000 U/mL; 24 h, 48 h) of selected drug disposition genes and on cytochrome P450 (CYP3A4) activity in LS180 cells (5000 U/mL; 24 h, 48 h) was evaluated using luciferase-based reporter gene assays, reverse transcription polymerase chain reaction, and luminescence-based CYP3A4 activity assays. The cross-talk between NF-ĸB activation and PXR suppression was evaluated by NF-ĸB blockage (10 µM parthenolide). IFN-α 2a initially (2 h, 6 h) enhanced NF-ĸB activity 2-fold and suppressed PXR activity by 30%. mRNA of CYP3A4 was halved, whereas UGT1A1 was increased (1.35-fold) after 24 h. After 48 h, ABCB1 expression was increased (1.76-fold). CYP3A4 activity remained unchanged after 24 h, but was enhanced after 48 h (1.35-fold). IFN-α 2a demonstrated short-term suppressive effects on PXR activity and CYP3A4 mRNA expression, likely mediated by activated NF-ĸB. Longer exposure enhanced CYP3A4 activity. Clinical trials should evaluate the relevance by investigating the temporal effects of IFN-α on CYP3A4 using a sensitive marker substrate.

Published
2021
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39. Approaching sites of action of drugs in clinical pharmacology: New analytical options and their challenges.

Author

Longuespée R, Theile D, Fresnais M, Burhenne J, Weiss J, and Haefeli WE

Subjects
Models, Biological, Pharmacokinetics, Pharmaceutical Preparations, Pharmacology, Pharmacology, Clinical
Abstract

Clinical pharmacology is an important discipline for drug development aiming to define pharmacokinetics (PK), pharmacodynamics (PD) and optimum exposure to drugs, i.e. the concentration-response relationship and its modulators. For this purpose, information on drug concentrations at the anatomical, cellular and molecular sites of action is particularly valuable. In pharmacological assays, the limited accessibility of target cells in readily available samples (i.e. blood) often hampers mass spectrometry-based monitoring of the absolute quantity of a compound and the determination of its molecular action at the cellular level. Recently, new sample collection methods have been developed for the specific capture of rare circulating cells, especially for the diagnosis of circulating tumour cells. In parallel, new advances and developments in mass spectrometric instrumentation now allow analyses to be scaled down to the cellular level. Together, these developments may permit the monitoring of minute drug quantities and show their effect at the cellular level. In turn, such PK/PD associations on a cellular level would not only enrich our pharmacological knowledge of a given compound but also expand the basis for PK/PD simulations. In this review, we describe novel concepts supporting clinical pharmacology at the anatomical, cellular and molecular sites of action, and highlight the new challenges in mass spectrometry-based monitoring. Moreover, we present methods to tackle these challenges and define future needs., (© 2020 The Authors. British Journal of Clinical Pharmacology published by John Wiley & Sons Ltd on behalf of British Pharmacological Society.)

Published
2021
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40. A nuclear factor kappa B reporter cell line used to evaluate ex vivo the net inflammatory effect of plasma samples from patients with rheumatoid arthritis, psoriasis, or COVID-19.

Author

Wagner L, Haefeli WE, Merle U, Lorenz HM, Hohmann N, Weiss J, and Theile D

Subjects
Arthritis, Rheumatoid blood, C-Reactive Protein analysis, Cell Line, Enzyme Activation physiology, Female, HEK293 Cells, Humans, Inflammation pathology, Inflammation Mediators metabolism, Male, Middle Aged, Psoriasis blood, SARS-CoV-2 immunology, Arthritis, Rheumatoid pathology, COVID-19 pathology, NF-kappa B blood, NF-kappa B metabolism, Psoriasis pathology
Abstract

Background: The overall clinical outcome of inflammatory conditions is the result of the balance between pro-inflammatory and anti-inflammatory mediators. Because nuclear factor kappa B (NF-ĸB) is at the bottom of many inflammatory conditions, methods to evaluate the net effect of inflammation modulators on this master regulator have been conceptualized for years., Methods: Using an ex vivo NF-ĸB reporter cell line-based assay, plasma samples of patients with rheumatoid arthritis (n = 27), psoriasis (n = 15), or severe coronavirus disease-19 (COVID-19) (n = 21) were investigated for NF-ĸB activation compared to plasma samples from 9 healthy volunteers., Results: When separated by C-reactive protein (CRP) threshold levels, samples of patients exhibiting increased CRP levels (≥5 mg/l) activated NF-ĸB more efficiently than samples from patients with levels below 5 mg/l (P = 0.0001) or healthy controls (P = 0.04). Overall, there was a moderate association of CRP levels with NF-ĸB activation (Spearman r = 0.66; p < 0.0001). Plasma from COVID-19 patients activated NF-ĸB more efficiently (mean 2.4-fold compared to untreated reporter cells) than samples from any other condition (healthy controls, 1.8-fold, P = 0.0025; rheumatoid arthritis, 1.7-fold, P < 0.0001; psoriasis, 1.7-fold, P < 0.0001). In contrast, effects of rheumatoid arthritis, psoriasis, or healthy volunteer samples did not differ., Conclusion: This study shows that a NF-ĸB reporter cell line can be used to evaluate the net inflammatory effect of clinical plasma samples. Patients with chronic but stable rheumatoid arthritis or psoriasis do not exhibit increased plasma levels of NF-ĸB-activating compounds as opposed to COVID-19 patients with high inflammatory burden., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published
2021
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41. Reporter cell assay-based functional quantification of TNF-α-antagonists in serum - a proof-of-principle study for adalimumab.

Author

Schuster L, Sauter M, Uhl P, Meid A, Haefeli WE, Weiss J, and Theile D

Subjects
Adalimumab administration & dosage, Administration, Intravenous, Animals, Cells, Cultured, Dogs, Enzyme-Linked Immunosorbent Assay, HEK293 Cells, Humans, Adalimumab blood, Adalimumab pharmacology, Tumor Necrosis Factor-alpha antagonists & inhibitors
Abstract

Quantification of therapeutic antibodies is commonly based on physico-chemical assays such as enzyme-linked immunoabsorption assays (ELISA) and lately on mass spectrometry. However, the functional integrity of evaluated immunoglobulins is yet not assessed. Consequently, a commercially available reporter cell line was used to quantify the functional concentration of the anti-tumor necrosis factor alpha (TNF-α) antibody adalimumab present in serum of a healthy beagle dog treated with 3 mg intravenous adalimumab (Humira®). HEK-Blue™-hTLR3 cells express a secreted alkaline phosphatase under the control of a nuclear factor kappa B (NF-κB) response element. Its enzymatic activity can be recorded using colorimetry, which reports activity of extracellular NF-κB stimuli such as TNF-α. Using an adalimumab concentration-response calibration curve, the functional concentration of serum adalimumab was estimated to be 4.9 ± 1.4 μg/ml, which was in excellent agreement with ELISA results (4.8 μg/ml). The obtained data suggest that this simple, easy-to-handle reporter cell assay can be used for the functional quantification of adalimumab present in samples from in vitro or pre-clinical in vivo experiments. Moreover, this assay could be used in vitro to compare the pharmacodynamics of adalimumab biosimilars or different anti-TNF-α compounds, respectively., Competing Interests: Declaration of competing interest None., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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43. Elucidating the beneficial effects of melphalan, adriamycin, and corticoids in combination with bortezomib against multiple myeloma in vitro.

Author

Schäfer J, Burhenne J, Weiss J, and Theile D

Subjects
Cell Line, Tumor, Cell Survival drug effects, Drug Synergism, Humans, Adrenal Cortex Hormones pharmacology, Antineoplastic Agents pharmacology, Bortezomib pharmacology, Doxorubicin pharmacology, Melphalan pharmacology, Multiple Myeloma drug therapy, Prednisolone pharmacology
Abstract

Combining bortezomib with other anti-cancer drugs or glucocorticoids is more efficient in multiple myeloma than bortezomib alone. However, the molecular mechanism of this beneficial effect is largely unknown. To investigate the effects of these compounds on bortezomib's anti-proliferative potency and its intracellular accumulation and potency to inhibit the chymotrypsin-like proteasomal subunit, seven myeloma cell lines were investigated after exposure to bortezomib alone or either combined with adriamycin plus dexamethasone (PAD regimen) or melphalan plus prednisolone (VMP regimen), respectively. PAD or VMP combinations did not alter cellular bortezomib uptake. However, PAD and VMP regimens increased bortezomib's chymotrypsin-like subunit inhibitory potency. This likely originates from indirect proteasome modulation, because adriamycin, dexamethasone, melphalan, or prednisolone did not inhibit this subunit when used alone. Strikingly, the anti-proliferative potency of bortezomib was not enhanced but slightly lowered in some cell lines when used in combinations. Adriamycin, dexamethasone, melphalan, or prednisolone can enhance bortezomib's chymotrypsin-like subunit inhibitory potency, likely by mechanisms indirectly influencing proteasome functionality.

Published
2019
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44. Pharmacodynamic monitoring using biomarkers to individualize pharmacotherapy.

Author

Theile D and Cho WC

Subjects
Humans, Biomarkers metabolism, Drug Monitoring methods, Drug Therapy, Precision Medicine
Abstract

Drug doses are often titrated upon their clinical effects (e.g., blood pressure). Unfortunately, for many drugs there is no direct, clinical read-out to estimate dose adequateness. Alternatively, drug dosing is based on the maximum tolerated dose approach or therapeutic drug monitoring. However, the concentration-response curves may be flattened or bell-shaped as suggested for some 'biologicals'. Together, these aspects raise the question why drug dosing is not individualized by pharmacodynamic monitoring. Evaluating the effects of drugs at their pharmacological target or meaningful biomarkers might indicate nonresponders, objectively quantify the maximum molecular effect and thus restrict overdose and underdosing. This review outlines the theory and biological or technical prerequisites for biomarker-based pharmacodynamic monitoring, and highlights selected examples from different fields of clinical medicine.

Published
2019
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46. Methadone against cancer: Lost in translation.

Author

Theile D and Mikus G

Subjects
Animals, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Apoptosis drug effects, Humans, Methadone pharmacology, Methadone therapeutic use, Neoplasms drug therapy
Abstract

Recently, the opioid analgesic d,l-methadone has gained much attention as a potential antineoplastic compound, considerably triggered through lay press and media. In consequence, physicians and pharmacists are currently confronted with numerous patients willing to use d,l-methadone against their malignancies. Well-performed in vitro and in vivo models have in fact shown pro-apoptotic effects of d,l-methadone or other opioids, but also proliferation-stimulating properties. Moreover, the mechanisms of proposed opioid-stimulated apoptosis are incompletely described or contradicting. Finally, the receptors mostly responsible for induction of apoptosis by d,l-methadone remain unclear as contributions of both µ-opioid receptors, Fas cell death receptors, toll-like receptors, N-Methyl-d-aspartate receptors and opioid growth factor receptors were suggested. Such ambiguity prevents rational application of d,l-methadone or patient stratification to enhance beneficial antineoplastic effects. From a clinical point of view, d,l-methadone and other opioids might in fact prolong survival, but such effects likely originate from their analgesic and neuro-psychotropic properties and, thus, improvements of quality of life. Crucial obstacles to the administration of d,l-methadone are incomplete knowledge about its systemic disposition, highly variable pharmacokinetics, profound drug-drug- or drug-disease interaction and QT-prolongation potential. This article summarizes and rates the pharmacological basis of d,l-methadone as an antineoplastic agent and puts its administration in clinical oncology into perspective. Despite enthralling experimental findings about d,l-methadone-mediated apoptosis in cancerous cells or tissues, clinicians should realize the current lack of evidence for the use of d,l-methadone as an antineoplastic agent. Its administration against cancer pain is, however, tenable, albeit restricted to certain clinical situations., (© 2018 UICC.)

Published
2018
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47. The pregnane X receptor (PXR) and the nuclear receptor corepressor 2 (NCoR2) modulate cell growth in head and neck squamous cell carcinoma.

Author

Rigalli JP, Reichel M, Reuter T, Tocchetti GN, Dyckhoff G, Herold-Mende C, Theile D, and Weiss J

Subjects
Carcinoma, Squamous Cell genetics, Carcinoma, Squamous Cell pathology, Caspase 3 genetics, Caspase 3 metabolism, Caspase 7 genetics, Caspase 7 metabolism, Cell Line, Tumor, Drug Resistance, Neoplasm genetics, Head and Neck Neoplasms genetics, Head and Neck Neoplasms pathology, Humans, Neoplasm Proteins genetics, Nuclear Receptor Co-Repressor 2 genetics, Pregnane X Receptor, Receptors, Steroid genetics, Carcinoma, Squamous Cell metabolism, Cell Proliferation, Gene Expression Regulation, Neoplastic, Head and Neck Neoplasms metabolism, Neoplasm Proteins biosynthesis, Nuclear Receptor Co-Repressor 2 biosynthesis, Receptors, Steroid biosynthesis
Abstract

Head and neck squamous cell carcinoma (HNSCC) is the sixth most frequent cancer worldwide. The pregnane X receptor (PXR) is a nuclear receptor regulating several target genes associated with cancer malignancy. We here demonstrated a significant effect of PXR on HNSCC cell growth, as evidenced in PXR knock-down experiments. PXR transcriptional activity is more importantly regulated by the presence of coactivators and corepressors than by PXR protein expression. To date, there is scarce information on the regulation of PXR in HNSCC and on its role in the pathogenesis of this disease. Coactivator and corepressor expression was screened through qRT-PCR in 8 HNSCC cell lines and correlated to PXR activity, determined by using a reporter gene assay. All cell lines considerably expressed all the cofactors assessed. PXR activity negatively correlated with nuclear receptor corepressor 2 (NCoR2) expression, indicating a major role of this corepressor in PXR modulation and suggesting its potential as a surrogate for PXR activity in HNSCC. To test the association of NCoR2 with the malignant phenotype, a subset of three cell lines was transfected with an over-expression plasmid for this corepressor. Subsequently, cell growth and chemoresistance assays were performed. To elucidate the mechanisms underlying NCoR2 effects on cell growth, caspase 3/7 activity and protein levels of cleaved caspase 3 and PARP were evaluated. In HNO97 cells, NCoR2 over-expression decreased cell growth, chemoresistance and increased cleaved caspase 3 levels, caspase activity and cleaved PARP levels. On the contrary, in HNO124 and HNO210 cells, NCoR2 over-expression increased cell growth, drug resistance and decreased cleaved caspase 3 levels, caspase activity and cleaved PARP levels. In conclusion, we demonstrated a role of PXR and NCoR2 in the modulation of cell growth in HNSCC. This may contribute to a better understanding of the highly variable HNSCC therapeutic response.

Published
2018
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48. Impact of enzalutamide and its main metabolite N-desmethyl enzalutamide on pharmacokinetically important drug metabolizing enzymes and drug transporters.

Author

Weiss J, Kocher J, Mueller C, Rosenzweig S, and Theile D

Subjects
Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacokinetics, Benzamides, Biological Transport, Cell Line, Dose-Response Relationship, Drug, Drug Interactions, Enzyme Induction drug effects, Enzymes genetics, Enzymes metabolism, Humans, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Multidrug Resistance-Associated Protein 2, Nitriles, Phenylthiohydantoin administration & dosage, Phenylthiohydantoin pharmacokinetics, Phenylthiohydantoin pharmacology, RNA, Messenger metabolism, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Antineoplastic Agents pharmacology, Enzymes drug effects, Membrane Transport Proteins drug effects, Phenylthiohydantoin analogs & derivatives
Abstract

Enzalutamide is a new drug against castration-resistant prostate cancer. Recent data indicate profound induction of drug metabolizing enzymes (e.g. cytochrome P450 isoenzyme (CYP) 3A4) but comprehensive in vitro data on other CYP enzymes, drug conjugating enzymes or drug transporters is scarce. Moreover, the mechanisms of induction are poorly investigated and the effects of the active metabolite N-desmethyl enzalutamide are unknown. Using LS180 cells as an induction model and quantitative real-time reverse transcription polymerase chain reaction, our study demonstrated a concentration-dependent induction of CYP1A1, CYP1A2, CYP3A5, CYP3A4, UGT1A3, UGT1A9, ABCB1, ABCC2 and ABCG2 mRNA. Induction of CYP3A4 and ABCB1 was confirmed by Western blot analysis and is likely mediated by activation of the nuclear receptor pregnane x receptor, elucidated by a luciferase-based reporter gene assay. Enzalutamide's main active metabolite N-desmethyl enzalutamide exhibited only weak induction properties. mRNA expression of UGT2B7 was suppressed by enzalutamide and its metabolite. Both compounds are apparently not transported by P-glycoprotein (P-gp) or breast cancer resistance protein (BCRP). N-desmethyl enzalutamide more potently inhibited important drug transporters (P-gp, BCRP, OATPs) than enzalutamide. Taken together, the pharmacokinetics of concurrently administered drugs is likely altered during enzalutamide therapy. Levels of metabolically (mainly CYP3A4) eliminated drugs are expected to be decreased, whereas the abundance of compounds with solely transporter-determined pharmacokinetics (P-gp, OATPs) is likely enhanced., (Copyright © 2017 John Wiley & Sons, Ltd.)

Published
2017
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49. t-Darpp stimulates protein kinase A activity by forming a complex with its RI regulatory subunit.

Author

Theile D, Geng S, Denny EC, Momand J, and Kane SE

Subjects
Breast Neoplasms genetics, Breast Neoplasms pathology, Cell Line, Tumor, Cyclic AMP-Dependent Protein Kinase Catalytic Subunits genetics, Cyclic AMP-Dependent Protein Kinase RIIalpha Subunit genetics, Dopamine genetics, Drug Resistance, Neoplasm genetics, Female, Gene Expression Regulation, Neoplastic drug effects, Humans, Neoplasms drug therapy, Neoplasms pathology, Phosphorylation, Receptor, ErbB-2 genetics, Trastuzumab adverse effects, Trastuzumab therapeutic use, Breast Neoplasms drug therapy, Cyclic AMP-Dependent Protein Kinase RIbeta Subunit genetics, Dopamine and cAMP-Regulated Phosphoprotein 32 genetics, Neoplasms genetics
Abstract

t-Darpp is the truncated form of the dopamine- and cAMP-regulated phosphoprotein of 32kDa (Darpp-32) and has been demonstrated to confer resistance to trastuzumab, a Her2-targeted anticancer agent, via sustained signaling through the phosphatidylinositol-4,5-bisphosphate 3-kinase (PI3K)/Akt pathway and activation of protein kinase A (PKA). The mechanism of t-Darpp-mediated PKA activation is poorly understood. In the PKA holoenzyme, when the catalytic subunits are bound to regulatory subunits RI or RII, kinase activity is inhibited. We investigated PKA activity and holoenzyme composition in cell lines overexpressing t-Darpp (SK.tDp) or a T39A phosphorylation mutant (SK.tDp T39A ), as well as an empty vector control cell line (SK.empty). We also evaluated protein-protein interactions between t-Darpp and PKA catalytic (PKAc) or regulatory subunits RI and RII in those cell lines. SK.tDp cells had elevated PKA activity and showed diminished association of RI with PKAc, whereas SK.tDp T39A cells did not have these properties. Moreover, wild type t-Darpp associates with RI. Concurrent expression of Darpp-32 reversed t-Darrp's effects on PKA holoenzyme state, consistent with earlier observations that Darpp-32 reverses t-Darpp's activation of PKA. Together, t-Darpp phosphorylation at T39 seems to be crucial for t-Darpp-mediated PKA activation and this activation appears to occur through an association with RI and sequestering of RI away from PKAc. The t-Darpp-RI interaction could be a druggable target to reduce PKA activity in drug-resistant cancer., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published
2017
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50. Bortezomib, carfilzomib and ixazomib do not mediate relevant transporter-based drug-drug interactions.

Author

Clemens J, Welti L, Schäfer J, Seckinger A, Burhenne J, Theile D, and Weiss J

Abstract

In order to optimize the clinical application of an increasing number of proteasome inhibitors, investigations into the differences between their respective pharmacodynamic and pharmacokinetic profiles, including their ability to act as a perpetrator in drug-drug interactions, are warranted. Therefore, in the present in vitro study, it was investigated whether bortezomib, carfilzomib and ixazomib are able to alter the expression, and/or the activity, of specific drug transporters generally relevant for pharmacokinetic drug-drug interactions. Through induction experiments, the current study demonstrated that the aforementioned three proteasome inhibitors do not induce mRNA expression of the transporter genes ATP binding cassette ( ABC ) B1, C1, C2 and G2 in the LS180 cell line, which was used as a model for systemic induction. By contrast, in certain myeloma cell lines, ixazomib provoked minor alterations in individual transporter gene expression. None of the proteasome inhibitors tested relevantly inhibited drug transporters within the range of physiological plasma concentrations. Taken together, transporter-based drug-drug interactions are unlikely to be a primary concern in the clinical application of the tested compounds.

Published
2017
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