Suticha Kittayaruksakul scite author profile

The pregnane X receptor (PXR) and constitutive androstane receptor (CAR) have been known to play a role in xenobiotic metabolism by regulating the expression of drug-metabolizing enzymes and transporters. In addition, PXR agonists were found to exert therapeutic effects through multiple mechanisms, such as detoxification of bile acids and inhibition of inflammation. In this study, we first investigated the effects of three natural product compounds, carapin, santonin and isokobusone, on the activity of PXR and CAR. These compounds activated both PXR and CAR in transient transfection and luciferase reporter gene assays. Mutagenesis studies showed that two amino acid residues, Phe305 of the rodent PXR and Leu308 of the human PXR, are critical for the recognition of these compounds by PXR. Importantly, the activation of PXR and CAR by these compounds induced the expression of drug-metabolizing enzymes in primary human and mouse hepatocytes. Furthermore, activation of PXR by these compounds inhibited the expression of inflammatory mediators in response to lipopolysaccharide (LPS). The effects of these natural compounds on drug metabolism and inflammation were abolished in PXR−/− hepatocytes. These natural compounds can be explored for their potential in the treatment of diseases where the PXR activation has been shown to be beneficial, such as inflammatory bowel disease, cholestasis, and hyperbilirubinemia.

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Liver X receptor activation downregulates organic anion transporter 1 (OAT1) in the renal proximal tubule

Kittayaruksakul

Soodvilai

Asavapanumas

et al. 2012

American Journal of Physiology-Renal Physiology

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Liver X receptors (LXRs) play an important role in the regulation of cholesterol by regulating several transporters. In this study, we investigated the role of LXRs in the regulation of human organic anion transporter 1 (hOAT1), a major transporter localized in the basolateral membrane of the renal proximal tubule. Exposure of renal S2 cells expressing hOAT1 to LXR agonists (TO901317 and GW3965) and their endogenous ligand [22(R)-hydroxycholesterol] led to the inhibition of hOAT1-mediated [(14)C]PAH uptake. This inhibition was abolished by coincubation of the above agonists with 22(S)-hydroxycholesterol, an LXR antagonist. Moreover, it was found that the effect of LXR agonists was not mediated by changes in intracellular cholesterol levels. Interestingly, the inhibitory effect of LXRs was enhanced in the presence of 9-cis retinoic acid, a retinoic X receptor agonist. Kinetic analysis revealed that LXR activation decreased the maximum rate of PAH transport (J(max)) but had no effect on the affinity of the transporter (K(t)). This result correlated well with data from Western blot analysis, which showed the decrease in hOAT1 expression following LXR activation. Similarly, TO901317 inhibited [(14)C]PAH uptake by the renal cortical slices as well as decreasing mOAT1 protein expression in mouse kidney. Our findings indicated for the first time that hOAT1 was downregulated by LXR activation in the renal proximal tubule.

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Fenofibrate Down-regulates Renal OCT2-mediated Organic Cation Transport via PPARα-independent Pathways

Asavapanumas

Kittayaruksakul

Meetam

et al. 2012

Drug Metabolism and Pharmacokinetics

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Fibrate drugs, the peroxisome proliferator-activated receptor alpha (PPAR¡) agonists, are widely prescribed for the treatment of hyperlipidemia. The present study examined the effect of fibrate drugs on renal OCT2 activity in a heterologous cell system [Chinese hamster ovary (CHO-K1) cells stably transfected with rabbit (rb) OCT2], LLC-PK1, and intact mouse renal cortical slices. We found that both in the CHO-K1 cells expressing rbOCT2 and in LLC-PK1 cells, fenofibrate significantly inhibited [ 3 H]-MPP + uptake whereas clofibrate and WY14643 had no effect. Surprisingly, the inhibitory effect of fenofibrate was not attenuated by GW6471, a PPAR¡ antagonist, indicating that the inhibitory process observed was via a PPAR¡independent pathway. Fenofibrate decreased [ 3 H]-MPP + uptakes through a reduction of the maximal transport (J max) but without effect on the transporter affinity (K t) corresponding to a decrease in membrane expression of OCT2. Since the inhibitory effect of fenofibrate was not prevented by pretreatment with cycloheximide, its inhibitory action did not involve an inhibition of protein synthesis. Similar to the effect seen in the cell-cultured system, the inhibitory effect of fenofibrate was also observed in intact renal cortical slices. Taken together, our data showed that fenofibrate decreased the activity of OCT2 by reducing the number of functional transporters on the membrane, which is likely to be a PPAR¡-independent pathway.

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