Mallick_2015_Life.Sci_139_132

Reference

Title : Impact of obesity on accumulation of the toxic irinotecan metabolite, SN-38, in mice - Mallick_2015_Life.Sci_139_132
Author(s) : Mallick P , Shah P , Gandhi A , Ghose R
Ref : Life Sciences , 139 :132 , 2015
Abstract :

AIM: Our aim is to investigate the impact of high fat diet-induced obesity on plasma concentrations of the toxic irinotecan metabolite, SN-38, in mice. MAIN
METHODS: Diet-induced obese (DIO, 60% kcal fed) and lean mice (10% kcal fed) were treated orally with a single dose of 10mg/kg irinotecan to determine pharmacokinetic (PK) parameters. Feces and livers were collected for quantification of irinotecan and its metabolites (SN-38 & SN-38G). SN-38G formation by Ugt1a1 enzyme was analyzed in liver S9 fractions. Expression of the pro-inflammatory cytokine, TNF-alpha was determined in liver and plasma. Hepatic beta-glucuronidase and carboxylesterase enzymes (CES) were also determined. KEY FINDINGS: AUC0-8 and Cmax of SN-38 increased by 2-fold in DIO mice compared to their lean controls. This was accompanied by a~2-fold reduction in AUC0-8 and Cmax of SN-38G in DIO mice. There were no differences in the PK parameters of irinotecan in DIO or lean mice. Conversion of SN-38 to SN-38G by Ugt1a1 enzyme was reduced by ~2-fold in liver S9 fractions in DIO mice. Furthermore, in DIO mice, beta-glucuronidase activity increased by 2-fold, whereas there was no change in CES activity. TNF-alpha mRNA expression was 3 fold higher in DIO mice. SIGNIFICANCE: Our study demonstrates that reduced hepatic Ugt1a activity during obesity likely contributes to reduced glucuronidation, and results in higher levels of the toxic metabolite, SN-38. Thus, irinotecan dosage should be closely monitored for effective and safe chemotherapy in obese cancer patients who are at a higher risk of developing liver toxicity.

PubMedSearch : Mallick_2015_Life.Sci_139_132
PubMedID: 26334566

Related information

Inhibitor SN-38

Citations formats

Mallick P, Shah P, Gandhi A, Ghose R (2015)
Impact of obesity on accumulation of the toxic irinotecan metabolite, SN-38, in mice
Life Sciences 139 :132

Mallick P, Shah P, Gandhi A, Ghose R (2015)
Life Sciences 139 :132