Andreas Bitter scite author profile

In addition to its well-characterized role in the regulation of drug metabolism and transport by xenobiotics, pregnane X receptor (PXR) critically impacts on lipid homeostasis. In mice, both ligand-dependent activation and knockout of PXR were previously shown to promote hepatic steatosis. To elucidate the respective pathways in human liver, we generated clones of human hepatoma HepG2 cells exhibiting different PXR protein levels, and analyzed effects of PXR activation and knockdown on steatosis and expression of lipogenic genes. Ligand-dependent activation as well as knockdown of PXR resulted in increased steatosis in HepG2 cells. Activation of PXR induced the sterol regulatory element-binding protein (SREBP) 1-dependent lipogenic pathway via PXR-dependent induction of SREBP1a, which was confirmed in primary human hepatocytes. Inhibiting SREBP1 activity by blocking the cleavage-dependent maturation of SREBP1 protein impaired the induction of lipogenic SREBP1 target genes and triglyceride accumulation by PXR activation. On the other hand, PXR knockdown resulted in up-regulation of aldo-keto reductase (AKR) 1B10, which enhanced the acetyl-CoA carboxylase (ACC)-catalyzed reaction step of de novo lipogenesis. In a cohort of human liver samples histologically classified for non-alcoholic fatty liver disease, AKR1B10, SREBP1a and SREBP1 lipogenic target genes proved to be up-regulated in steatohepatitis, while PXR protein was reduced. In summary, our data suggest that activation and knockdown of PXR in human hepatic cells promote de novo lipogenesis and steatosis by induction of the SREBP1 pathway and AKR1B10-mediated increase of ACC activity, respectively, thus providing mechanistic explanations for a putative dual role of PXR in the pathogenesis of steatohepatitis.

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Effects of peroxisome proliferator activated receptors-alpha and -gamma agonists on estradiol-induced proliferation and hyperplasia formation in the mouse uterus

Гунин¹,

Bitter²,

Demakov³

et al. 2004

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It is suggested that the action of peroxisome proliferatoractivated receptors (PPARs) cross-talks with estrogen signaling in the uterus. However, it is not known how PPAR agonists affect estrogen-dependent processes in the uterus, especially proliferation and morphogenetic changes. The effects of agonists of PPAR-and -on proliferative and morphogenetic reactions in the uterus under short-and long-term estrogen treatments were therefore examined. Ovariectomized mice were treated with estradiol dipropionate (4 µg/100 g, s.c., once a week) or vehicle and rosiglitazone (PPAR-agonist) or fenofibrate (PPAR-agonist) or with no additional treatment for 2 days or for 30 days. Treatment with estradiol and PPAR agonists for 2 days did not affect uterine mass. In mice treated with estradiol and rosiglitazone for 2 days, proliferation was enhanced and levels of estrogen receptors-and -catenin were decreased in all uterine tissues. Treatment with estradiol and fenofibrate for 2 days had the opposite effects on the parameters tested. In animals treated with estradiol and rosiglitazone for 30 days, uterine mass was increased, abnormal uterine glands and atypical endometrial hyperplasia were found more often and levels of estrogen receptors-and -catenin were decreased. In animals treated with estradiol and fenofibrate for 30 days, uterine mass was decreased, most of the uterine glands had a normal structure, no cases of atypical hyperplasia were diagnosed, proliferative activity was declined and the levels of estrogen receptors-and -catenin were markedly higher. Treatment with rosiglitazone or fenofibrate did not affect the serum estradiol level in the mice which received estradiol together with PPAR agonists for 30 days. Thus, rosiglitazone exerted the proliferative and morphogenetic effects of estradiol, but fenofibrate had the opposite effect. The actions of rosiglitazone and fenofibrate are associated with changes in the expression of estrogen receptors-and -catenin in the uterus.

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Human Sterol Regulatory Element-Binding Protein 1a Contributes Significantly to Hepatic Lipogenic Gene Expression

Bitter

Nüssler²,

Thasler³

et al. 2015

Cell Physiol Biochem

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Background/Aims: Sterol regulatory element-binding protein (SREBP) 1, the master regulator of lipogenesis, was shown to be associated with non-alcoholic fatty liver disease, which is attributed to its major isoform SREBP1c. Based on studies in mice, the minor isoform SREBP1a is regarded as negligible for hepatic lipogenesis. This study aims to elucidate the expression and functional role of SREBP1a in human liver. Methods: mRNA expression of both isoforms was quantified in cohorts of human livers and primary human hepatocytes. Hepatocytes were treated with PF-429242 to inhibit the proteolytic activation of SREBP precursor protein. SREBP1a-specifc and pan-SREBP1 knock-down were performed by transfection of respective siRNAs. Lipogenic SREBP-target gene expression was analyzed by real-time RT-PCR. Results: In human liver, SREBP1a accounts for up to half of the total SREBP1 pool. Treatment with PF-429242 indicated SREBP-dependent auto-regulation of SREBP1a, which however was much weaker than of SREBP1c. SREBP1a-specifc knock-down also reduced significantly the expression of SREBP1c and of SREBP-target genes. Regarding most SREBP-target genes, simultaneous knock-down of both isoforms resulted in effects of only similar extent as SREBP1a-specific knock-down. Conclusion: We here showed that SREBP1a is significantly contributing to the human hepatic SREBP1 pool and has a share in human hepatic lipogenic gene expression.

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Carboxymefloquine, the Major Metabolite of the Antimalarial Drug Mefloquine, Induces Drug-Metabolizing Enzyme and Transporter Expression by Activation of Pregnane X Receptor

Piedade

Traub

Bitter

et al. 2015

Antimicrob Agents Chemother

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f Malaria patients are frequently coinfected with HIV and mycobacteria causing tuberculosis, which increases the use of coadministered drugs and thereby enhances the risk of pharmacokinetic drug-drug interactions. Activation of the pregnane X receptor (PXR) by xenobiotics, which include many drugs, induces drug metabolism and transport, thereby resulting in possible attenuation or loss of the therapeutic responses to the drugs being coadministered. While several artemisinin-type antimalarial drugs have been shown to activate PXR, data on nonartemisinin-type antimalarials are still missing. Therefore, this study aimed to elucidate the potential of nonartemisinin antimalarial drugs and drug metabolites to activate PXR. We screened 16 clinically used antimalarial drugs and six major drug metabolites for binding to PXR using the two-hybrid PXR ligand binding domain assembly assay; this identified carboxymefloquine, the major and pharmacologically inactive metabolite of the antimalarial drug mefloquine, as a potential PXR ligand. Two-hybrid PXR-coactivator and -corepressor interaction assays and PXR-dependent promoter reporter gene assays confirmed carboxymefloquine to be a novel PXR agonist which specifically activated the human receptor. In the PXR-expressing intestinal LS174T cells and in primary human hepatocytes, carboxymefloquine induced the expression of drug-metabolizing enzymes and transporters on the mRNA and protein levels. The crucial role of PXR for the carboxymefloquine-dependent induction of gene expression was confirmed by small interfering RNA (siRNA)-mediated knockdown of the receptor. Thus, the clinical use of mefloquine may result in pharmacokinetic drug-drug interactions by means of its metabolite carboxymefloquine. Whether these in vitro findings are of in vivo relevance has to be addressed in future clinical drug-drug interaction studies. M alaria, which is caused by infection with parasitic protozoans of the genus Plasmodium, is still a major global health burden, with an estimated 207 million cases and 627,000 deaths worldwide in 2012 (1). The emerging resistance of the parasite to artemisinins (2) and the need to treat malaria patients coinfected with HIV and/or mycobacteria causing tuberculosis (3) increasingly necessitates the use of combination drug therapies and coadministration of drugs, respectively, which also may be accompanied by a higher risk for drug-drug interactions. Mechanistically, these may arise from the inhibition or induction of metabolism and/or transport of coadministered drugs. Competitive or noncompetitive enzyme inhibition may result in adverse toxic effects due to higher-than-expected drug concentrations, whereas clinically relevant induction may result in therapeutic failure due to insufficient drug levels. The interaction potential of antimalarial drugs due to the inhibition of cytochrome P450 (CYP) drugmetabolizing enzymes has been analyzed quite extensively in vitro, and it has been shown to result in some clinically relevant drugdrug interactions, as exemplified...

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Ligand-dependent and -independent regulation of human hepatic sphingomyelin phosphodiesterase acid-like 3A expression by pregnane X receptor and crosstalk with liver X receptor

Jeske

Bitter

Thasler

et al. 2017

Biochemical Pharmacology

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Andreas Bitter

Pregnane X receptor activation and silencing promote steatosis of human hepatic cells by distinct lipogenic mechanisms

Effects of peroxisome proliferator activated receptors-alpha and -gamma agonists on estradiol-induced proliferation and hyperplasia formation in the mouse uterus

Human Sterol Regulatory Element-Binding Protein 1a Contributes Significantly to Hepatic Lipogenic Gene Expression

Carboxymefloquine, the Major Metabolite of the Antimalarial Drug Mefloquine, Induces Drug-Metabolizing Enzyme and Transporter Expression by Activation of Pregnane X Receptor

Ligand-dependent and -independent regulation of human hepatic sphingomyelin phosphodiesterase acid-like 3A expression by pregnane X receptor and crosstalk with liver X receptor

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