Pharmacokinetic interaction study of sulphasalazine in healthy subjects and the impact of curcumin as an <i>in vivo</i> inhibitor of BCRP

Kusuhara, Hiroyuki; Furuie, Hidetoshi; Inano, Akihiro; Sunagawa, Akihiro; Yamada, Saiko; Wu, Chunyong; Fukizawa, Shinya; Morimoto, Nozomi; Ieiri, Ichiro; Morishita, Mariko; Sumita, Kiminobu; Mayahara, Hiroshi; Fujita, Takuya; Maeda, Kazuya; Sugiyama, Yuichi

doi:10.1111/j.1476-5381.2012.01887.x

Cited by 128 publications

(127 citation statements)

References 39 publications

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“…The study in question by Adkison et al (2010) used oral sulfasalazine enteric-coated tablets and, in fact, surprisingly showed no significant pharmacokinetic changes with oral coadministration of the BCRP inhibitor, pantoprazole, or a significant genedose effect of the BCRP 421 C.A functional polymorphism. These results stand in stark contrast to three independent clinical studies using oral immediate-release sulfasalazine tablets and/or suspension formulation, where significant 2-to 4-fold increases in sulfasalazine exposure were observed in carriers of the BCRP 421 C.A polymorphism and during coadministration of an oral BCRP inhibitor (Urquhart et al, 2008;Yamasaki et al, 2008;Kusuhara et al, 2012), as well as three independent preclinical studies in Bcrp-knockout mice and rats (Zaher et al, 2006;Shukla et al, 2009;Zamek-Gliszczynski et al, 2012). As discussed by Adkison et al (2010), an accidental flaw in the execution of their study demonstrated the importance of proper formulation selection (suspension or immediate release, but not extended release), rather than disproving the utility of sulfasalazine as a marker of BCRP activity in humans.…”

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confidence: 53%

“…We would also like to comment on the authors' conclusion that sulfasalazine is not as sensitive to BCRP modulation in humans as knockout rodents based on the apparent discordance between the magnitude of oral sulfasalazine exposure increase in Bcrp-knockout rodent studies [23-to 111-fold (Zaher et al, 2006;Shukla et al, 2009;Zamek-Gliszczynski et al, 2012)] and that in human clinical studies [2-to 4-fold (Urquhart et al, 2008;Yamasaki et al, 2008;Kusuhara et al, 2012)]. This difference in Bcrp function between complete genetic ablation in Abcg22/2 animals and partial Bcrp inhibition by gefitinib was also acknowledged in the original publication by Zaher Shukla et al (2009).…”

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confidence: 99%

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confidence: 99%

“…However, we noticed that the authors have missed some critically important concepts when referring to drugs that have complex permeability/efflux and atypical metabolism, whose disposition has been mechanistically uncovered by reverse translation (working from bedside back to the bench). These omissions resulted in the description of sulfasalazine as a poor BCRP substrate in humans, even though it is currently one of the two best available clinical BCRP probes along with rosuvastatin (Urquhart et al, 2008;Yamasaki et al, 2008;Kusuhara et al, 2012).The authors selectively used one specific clinical study as "proof" that "sulfasalazine PK was not affected in individuals with impaired BCRP function, nor when coadministered with [a BCRP inhibitor]" (Poirier et al, 2014). The study in question by Adkison et al (2010) used oral sulfasalazine enteric-coated tablets and, in fact, surprisingly showed no significant pharmacokinetic changes with oral coadministration of the BCRP inhibitor, pantoprazole, or a significant genedose effect of the BCRP 421 C.A functional polymorphism.…”

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Breast Cancer Resistance Protein Substrate and Inhibition Evaluation: Why, When, and How?

et al. 2014

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We wish to thank Poirier et al. (2014) for their recently published manuscript, "The need for human breast cancer resistance protein substrate and inhibition evaluation in drug discovery and development: why, when, and how?" which attempted to contemporize many of the key concepts of breast cancer resistance protein (BCRP; ABCG2)-mediated drug disposition and drug interactions. Indeed, further contextualization of the relevance of BCRP is needed to improve the clinical translation and prediction of both perpetrator and victim drug-drug interactions related to this transporter. However, we noticed that the authors have missed some critically important concepts when referring to drugs that have complex permeability/efflux and atypical metabolism, whose disposition has been mechanistically uncovered by reverse translation (working from bedside back to the bench). These omissions resulted in the description of sulfasalazine as a poor BCRP substrate in humans, even though it is currently one of the two best available clinical BCRP probes along with rosuvastatin (Urquhart et al., 2008;Yamasaki et al., 2008;Kusuhara et al., 2012).The authors selectively used one specific clinical study as "proof" that "sulfasalazine PK was not affected in individuals with impaired BCRP function, nor when coadministered with [a BCRP inhibitor]" (Poirier et al., 2014). The study in question by Adkison et al. (2010) used oral sulfasalazine enteric-coated tablets and, in fact, surprisingly showed no significant pharmacokinetic changes with oral coadministration of the BCRP inhibitor, pantoprazole, or a significant genedose effect of the BCRP 421 C.A functional polymorphism. These results stand in stark contrast to three independent clinical studies using oral immediate-release sulfasalazine tablets and/or suspension formulation, where significant 2-to 4-fold increases in sulfasalazine exposure were observed in carriers of the BCRP 421 C.A polymorphism and during coadministration of an oral BCRP inhibitor (Urquhart et al., 2008;Yamasaki et al., 2008;Kusuhara et al., 2012), as well as three independent preclinical studies in Bcrp-knockout mice and rats (Zaher et al., 2006;Shukla et al., 2009;Zamek-Gliszczynski et al., 2012). As discussed by Adkison et al. (2010), an accidental flaw in the execution of their study demonstrated the importance of proper formulation selection (suspension or immediate release, but not extended release), rather than disproving the utility of sulfasalazine as a marker of BCRP activity in humans.Please allow us to elaborate on some subtle and important, although perhaps not apparently obvious, study caveats from the Adkison et al. (2010) study was confounded because the clinical site used an enteric-coated delayed-release formulation, which allowed sulfasalazine to bypass the majority of small-intestinal BCRP (ABCG2). Mechanistically, if a delayed-release tablet is administered, then sulfasalazine will not be available until the distal small intestine (ileum)/proximal large intestine (cecum), where BCRP expression ...

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confidence: 53%

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confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Breast Cancer Resistance Protein Substrate and Inhibition Evaluation: Why, When, and How?

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“…However, resveratrol was reported to be affected by the BCRP efflux pump, hence limiting its bioavailability (Scheepens et al, 2010). Curcumin was advantageously reported to lower the expression of p-glycoprotein transporters, as well as inhibit BCRP transporters in vivo (Holland et al, 2006;Nabekura, 2010;Kusuhara et al, 2012), and hence, the combination of curcumin and resveratrol in the same formula is expected to have facilitated the brain delivery of resveratrol. As illustrated in Figure 6, the significantly lower amounts of the two drugs reaching the brain following intranasal administration of their aqueous solution could be ascribed to its rapid mucociliary clearance as well as its possible nasal drainage (Gabal et al, 2014).…”

Section: In Vivo Quantification Of the Two Polyphenols In The Brainmentioning

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Development of an optimized hyaluronic acid-based lipidic nanoemulsion co-encapsulating two polyphenols for nose to brain delivery

Nasr

2015

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RESEARCH ARTICLEDevelopment of an optimized hyaluronic acid-based lipidic nanoemulsion co-encapsulating two polyphenols for nose to brain delivery Maha NasrDepartment of Pharmaceutics and Industrial Pharmacy, Faculty of Pharmacy, Ain Shams University, Cairo, Egypt AbstractThe development of mucoadhesive lipidic nanoemulsion based on hyaluronic acid, co-encapsulating two polyphenols (resveratrol and curcumin) for the transnasal treatment of neurodegenerative diseases was attempted in the current manuscript. Nanoemulsions were prepared by the spontaneous emulsification method, and were characterized for their particle size, zeta potential, mucoadhesive strength and morphology. The selected formula was tested for its antioxidant potential, in vitro and ex vivo release of the two polyphenols, safety on nasal mucosa and in vivo quantification of the two drugs in rat brains. Its stability was tested by monitoring the change in particle size, zeta potential, drugs' content and antioxidant potential upon storage for 3 months. The optimized hyaluronic acid based nanoemulsion formula displayed a particle size of 115.2 ± 0.15 and a zeta potential of À23.9 ± 1.7. The formula displayed a spherical morphology and significantly higher mucoadhesive strength compared to its non mucoadhesive counterpart. In addition, the nanoemulsion was able to preserve the antioxidant ability of the two polyphenols and protect them from degradation. Diffusion controlled release of the two drugs was achievable till 6 hours, with an ex vivo flux across sheep nasal mucosa of 2.86 and 2.09 mg/cm 2 hr for resveratrol and curcumin, respectively. Moreover, the mucoadhesive nanoemulsion was safe on nasal mucosa and managed to increase the amounts of the two polypehnols in the brain (about 7 and 9 folds increase in AUC 0-7 h for resveratrol and curcumin, respectively). Hyaluronic acid based lipidic nanoemulsion proved itself as a successful carrier enhancing the solubility, stability and brain targetability of polyphenols.

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Regulatory Science Perspectives on Transporter Studies in Drug Development

2014

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Pharmacokinetic interaction study of sulphasalazine in healthy subjects and the impact of curcumin as an in vivo inhibitor of BCRP

Cited by 128 publications

References 39 publications

Breast Cancer Resistance Protein Substrate and Inhibition Evaluation: Why, When, and How?

Breast Cancer Resistance Protein Substrate and Inhibition Evaluation: Why, When, and How?

Development of an optimized hyaluronic acid-based lipidic nanoemulsion co-encapsulating two polyphenols for nose to brain delivery

Regulatory Science Perspectives on Transporter Studies in Drug Development

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