TY  - JOUR
A1  - Scheer, Nico
A1  - Kapelyukh, Yury
A1  - McEwan, Jillian
A1  - Beuger, Vincent
A1  - Stanley, Lesley A.
A1  - Rode, Anja
A1  - Wolf, C. Roland
T1  - Modeling Human Cytochrome P450 2D6 Metabolism and Drug-drug Interaction by a Novel Panel of Knockout and Humanized Mouse Lines
JF  - Molecular Pharmacology
N2  - The highly polymorphic human cytochrome P450 2D6 enzyme is involved in the metabolism of up to 25% of all marketed drugs and accounts for significant individual differences in response to CYP2D6 substrates. Because of the differences in the multiplicity and substrate specificity of CYP2D family members among species, it is difficult to predict pathways of human CYP2D6-dependent drug metabolism on the basis of animal studies. To create animal models that reflect the human situation more closely and that allow an in vivo assessment of the consequences of differential CYP2D6 drug metabolism, we have developed a novel straightforward approach to delete the entire murine Cyp2d gene cluster and replace it with allelic variants of human CYP2D6. By using this approach, we have generated mouse lines expressing the two frequent human protein isoforms CYP2D6.1 and CYP2D6.2 and an as yet undescribed variant of this enzyme, as well as a Cyp2d cluster knockout mouse. We demonstrate that the various transgenic mouse lines cover a wide spectrum of different human CYP2D6 metabolizer phenotypes. The novel humanization strategy described here provides a robust approach for the expression of different CYP2D6 allelic variants in transgenic mice and thus can help to evaluate potential CYP2D6-dependent interindividual differences in drug response in the context of personalized medicine.
Y1  - 2012
U6  - http://dx.doi.org/10.1124/mol.111.075192
SN  - 1521-0111
VL  - 81
IS  - 1
SP  - 63
EP  - 72
PB  - ASPET
CY  - Bethesda, Md.
ER  - 
TY  - JOUR
A1  - Reugels, Alexander M.
A1  - Boggetti, Barbara
A1  - Scheer, Nico
A1  - Campos-Ortega, José A.
T1  - Asymmetric localization of Numb:EGFP in dividing neuroepithelial cells during neurulation in Danio rerio
JF  - Developmental Dynamics
Y1  - 2006
U6  - http://dx.doi.org/10.1002/dvdy.20699
SN  - 1097-0177
VL  - 235
IS  - 4
SP  - 934
EP  - 948
ER  - 
TY  - JOUR
A1  - Hans, Stefan
A1  - Scheer, Nico
A1  - Riedl, Iris
A1  - Weizäcker, Elisabeth von
A1  - Blader, Patrick
A1  - Campos-Ortega, José A.
T1  - her3, a zebrafish member of the hairy-E(spl) family, is repressed by Notch signalling
JF  - Development
Y1  - 2004
U6  - http://dx.doi.org/10.1242/dev.01167
SN  - 1477-9129
VL  - 131
IS  - 12
SP  - 2957
EP  - 2969
ER  - 
TY  - JOUR
A1  - Scheer, Nico
A1  - Riedl, Iris
A1  - Warren, J.T.
A1  - Kuwada, John Y.
A1  - Campos-Ortega, José A.
T1  - A quantitative analysis of the kinetics of Gal4 activator and effector gene expression in the zebrafish
JF  - Mechanism of Development
Y1  - 2002
U6  - http://dx.doi.org/10.1016/S0925-4773(01)00621-9
SN  - 0925-4773
VL  - 112
IS  - 1-2
SP  - 9
EP  - 14
ER  - 
TY  - JOUR
A1  - Lawson, Nathan D.
A1  - Scheer, Nico
A1  - Pham, Van N.
A1  - Kim, Ceol-Hee
A1  - Chitnis, Ajay B.
A1  - Campos-Ortega, José A.
A1  - Weinstein, Brant M.
T1  - Notch signaling is required for arterial-venous differentiation during embryonic vascular development
JF  - Development
Y1  - 2001
SN  - 1477-9129
VL  - 128
IS  - 19
SP  - 3675
EP  - 3683
ER  - 
TY  - JOUR
A1  - Scheer, Nico
A1  - Groth, Anne
A1  - Hans, Stefan
A1  - Campos-Ortega, José A.
T1  - An instructive function for Notch in promoting gliogenesis in the zebrafish retina
JF  - Development
Y1  - 2001
SN  - 0950-1991
VL  - 128
IS  - 7
SP  - 1099
EP  - 1107
ER  - 
TY  - JOUR
A1  - Halbach, Thorsten
A1  - Scheer, Nico
T1  - Transcriptional activation by the PHD finger is inhibited through an adjacent leucine zipper that binds 14-3-3 proteins
JF  - Nucleic Acids Research
Y1  - 2000
U6  - http://dx.doi.org/10.1093/nar/28.18.3542
SN  - 1362-4962
VL  - 28
IS  - 18
SP  - 3542
EP  - 3550
ER  - 
TY  - JOUR
A1  - Scheer, Nico
A1  - Campos-Ortega, José A.
T1  - Use of the Gal4-UAS technique for targeted gene expression in the zebrafish
JF  - Mechanism of Development
Y1  - 1999
U6  - http://dx.doi.org/10.1016/S0925-4773(98)00209-3
SN  - 0925-4773
VL  - 80
IS  - 2
SP  - 153
EP  - 158
ER  - 
TY  - JOUR
A1  - Ross, Jillian
A1  - Plummer, Simon M.
A1  - Rode, Anja
A1  - Scheer, Nico
A1  - Bower, Conrad C.
A1  - Vogel, Ortwin
A1  - Henderson, Colin J.
A1  - Wolf, C. Roland
A1  - Elcombe, Clifford R.
T1  - Human constitutive androstane receptor (CAR) and pregnane X receptor (PXR) support the  hypertrophic but not the hyperplastic response to the murine nongenotoxic hepatocarcinogens phenobarbital and chlordane in vivo
JF  - Toxicological Sciences
N2  - Mouse nongenotoxic hepatocarcinogens phenobarbital (PB) and chlordane induce hepatomegaly characterized by hypertrophy and hyperplasia. Increased cell proliferation is implicated in the mechanism of tumor induction. The relevance of these tumors to human health is unclear. The xenoreceptors, constitutive androstane receptors (CARs), and pregnane X receptor (PXR) play key roles in these processes. Novel “humanized” and knockout models for both receptors were developed to investigate potential species differences in hepatomegaly. The effects of PB (80 mg/kg/4 days) and chlordane (10 mg/kg/4 days) were investigated in double humanized PXR and CAR (huPXR/huCAR), double knockout PXR and CAR (PXRKO/CARKO), and wild-type (WT) C57BL/6J mice. In WT mice, both compounds caused increased liver weight, hepatocellular hypertrophy, and cell proliferation. Both compounds caused alterations to a number of cell cycle genes consistent with induction of cell proliferation in WT mice. However, these gene expression changes did not occur in PXRKO/CARKO or huPXR/huCAR mice. Liver hypertrophy without hyperplasia was demonstrated in the huPXR/huCAR animals in response to both compounds. Induction of the CAR and PXR target genes, Cyp2b10 and Cyp3a11, was observed in both WT and huPXR/huCAR mouse lines following treatment with PB or chlordane. In the PXRKO/CARKO mice, neither liver growth nor induction of Cyp2b10 and Cyp3a11 was seen following PB or chlordane treatment, indicating that these effects are CAR/PXR dependent. These data suggest that the human receptors are able to support the chemically induced hypertrophic responses but not the hyperplastic (cell proliferation) responses. At this time, we cannot be certain that hCAR and hPXR when expressed in the mouse can function exactly as the genes do when they are expressed in human cells. However, all parameters investigated to date suggest that much of their functionality is maintained.
Y1  - 2010
U6  - http://dx.doi.org/10.1093/toxsci/kfq118
SN  - 1096-0929
VL  - 116
IS  - 2
SP  - 452
EP  - 466
PB  - Oxford University Press
CY  - Oxford
ER  - 
TY  - JOUR
A1  - Scheer, Nico
A1  - Ross, Jillian
A1  - Kapelyukh, Yury
A1  - Rode, Anja
A1  - Wolf, C. Roland
T1  - In vivo responses of the human and murine pregnane X receptor to dexamethasone in mice
JF  - Drug Metabolism and Disposition
N2  - Dexamethasone (DEX) is a potent and widely used anti-inflammatory and immunosuppressant glucocorticoid. It can bind and activate the pregnane X receptor (PXR), which plays a critical role as xenobiotic sensor in mammals to induce the expression of many enzymes, including cytochromes P450 in the CYP3A family. This induction results in its own metabolism. We have used a series of transgenic mouse lines, including a novel, improved humanized PXR line, to compare the induction profile of PXR-regulated drug-metabolizing enzymes after DEX administration, as well as looking at hepatic responses to rifampicin (RIF). The new humanized PXR model has uncovered further intriguing differences between the human and mouse receptors in that RIF only induced Cyp2b10 in the new humanized model. DEX was found to be a much more potent inducer of Cyp3a proteins in wild-type mice than in mice humanized for PXR. To assess whether PXR is involved in the detoxification of DEX in the liver, we analyzed the consequences of high doses of the glucocorticoid on hepatotoxicity on different PXR genetic backgrounds. We also studied these effects in an additional mouse model in which functional mouse Cyp3a genes have been deleted. These strains exhibited different sensitivities to DEX, indicating a protective role of the PXR and CYP3A proteins against the hepatotoxicity of this compound.
Y1  - 2010
U6  - http://dx.doi.org/10.1124/dmd.109.031872
SN  - 1521-009X
VL  - 38
IS  - 7
SP  - 1046
EP  - 1053
PB  - ASPET
CY  - Bethesda
ER  -