The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison

The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison

Drug dosing adjustment in sepsis-induced acute kidney injury (sepsis-AKI) is currently adjusted based on renal function. Sepsis is a multiorgan injury, and thus, drug metabolism in sepsis-AKI might be interfered by non-renal factors such as changes in functions of drug-metabolizing enzymes in the li...

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Main Authors: Warumphon Sukkummee, Patcharin Jittisak, Piyanuch Wonganan, Supeecha Wittayalertpanya, Pajaree Chariyavilaskul, Asada Leelahavanichkul
Format: Article
Language:English
Published: Taylor & Francis Group 2019-01-01
Series:Renal Failure
Subjects:
cytochrome p450
mouse model
renal impairment
sepsis
Online Access:http://dx.doi.org/10.1080/0886022X.2019.1602054
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spelling doaj-9d4338dbc9014836839bb3179648a67e2021-06-02T08:05:28ZengTaylor & Francis GroupRenal Failure0886-022X1525-60492019-01-0141131432510.1080/0886022X.2019.16020541602054The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparisonWarumphon Sukkummee0Patcharin Jittisak1Piyanuch Wonganan2Supeecha Wittayalertpanya3Pajaree Chariyavilaskul4Asada Leelahavanichkul5Chulalongkorn UniversityChulalongkorn UniversityChulalongkorn UniversityChulalongkorn UniversityChulalongkorn UniversityChulalongkorn UniversityDrug dosing adjustment in sepsis-induced acute kidney injury (sepsis-AKI) is currently adjusted based on renal function. Sepsis is a multiorgan injury, and thus, drug metabolism in sepsis-AKI might be interfered by non-renal factors such as changes in functions of drug-metabolizing enzymes in the liver and functions of intestinal drug transporters. We compared the defect on mouse CYP3A11 (human CYP3A4 representative) in liver and intestine along with several intestinal drug transporters (MDR1a, MRP2, and OATP3) in three mouse models; chronic ischemic reperfusion injury (Chr I/R; 4-week), acute ischemic reperfusion injury (Acute I/R; 24-h), and cecal ligation and puncture (CLP; 24-h) as representative of sepsis-AKI. Decreased expression of CYP3A11 and drug transporters was demonstrated in all models. Among these models, sepsis-AKI had the least severe renal injury (increased BUN and Scr) with the most severe liver injury (increased ALT and changes in liver histopathology), the most severe intestinal leakage (increased serum (1→3)-β-D-glucan) and the highest increase in serum IL-6. A reduced expression and activity of liver and intestinal CYP3A11 along with intestinal efflux-drug transporter expressions (MDR1a and MRP2), but not drug uptake transporter (OATP3), was predominant in sepsis-AKI compared with acute I/R. Additionally, a reduction of CYP3A4 expression with IL-6 was demonstrated on HepG2 cells implying a direct injury of IL-6 on human liver cells. Differences in drug metabolism were reported between sepsis-AKI and ischemic-AKI confirming that drug dosing adjustment in sepsis-AKI depends not just only on renal function but also on several non-renal factors. Further studies are warranted.http://dx.doi.org/10.1080/0886022X.2019.1602054cytochrome p450mouse modelrenal impairmentsepsis
collection DOAJ
language English
format Article
sources DOAJ
author Warumphon Sukkummee
Patcharin Jittisak
Piyanuch Wonganan
Supeecha Wittayalertpanya
Pajaree Chariyavilaskul
Asada Leelahavanichkul
spellingShingle Warumphon Sukkummee
Patcharin Jittisak
Piyanuch Wonganan
Supeecha Wittayalertpanya
Pajaree Chariyavilaskul
Asada Leelahavanichkul
The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
Renal Failure
cytochrome p450
mouse model
renal impairment
sepsis
author_facet Warumphon Sukkummee
Patcharin Jittisak
Piyanuch Wonganan
Supeecha Wittayalertpanya
Pajaree Chariyavilaskul
Asada Leelahavanichkul
author_sort Warumphon Sukkummee
title The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
title_short The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
title_full The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
title_fullStr The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
title_full_unstemmed The prominent impairment of liver/intestinal cytochrome P450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
title_sort prominent impairment of liver/intestinal cytochrome p450 and intestinal drug transporters in sepsis-induced acute kidney injury over acute and chronic renal ischemia, a mouse model comparison
publisher Taylor & Francis Group
series Renal Failure
issn 0886-022X
1525-6049
publishDate 2019-01-01
description Drug dosing adjustment in sepsis-induced acute kidney injury (sepsis-AKI) is currently adjusted based on renal function. Sepsis is a multiorgan injury, and thus, drug metabolism in sepsis-AKI might be interfered by non-renal factors such as changes in functions of drug-metabolizing enzymes in the liver and functions of intestinal drug transporters. We compared the defect on mouse CYP3A11 (human CYP3A4 representative) in liver and intestine along with several intestinal drug transporters (MDR1a, MRP2, and OATP3) in three mouse models; chronic ischemic reperfusion injury (Chr I/R; 4-week), acute ischemic reperfusion injury (Acute I/R; 24-h), and cecal ligation and puncture (CLP; 24-h) as representative of sepsis-AKI. Decreased expression of CYP3A11 and drug transporters was demonstrated in all models. Among these models, sepsis-AKI had the least severe renal injury (increased BUN and Scr) with the most severe liver injury (increased ALT and changes in liver histopathology), the most severe intestinal leakage (increased serum (1→3)-β-D-glucan) and the highest increase in serum IL-6. A reduced expression and activity of liver and intestinal CYP3A11 along with intestinal efflux-drug transporter expressions (MDR1a and MRP2), but not drug uptake transporter (OATP3), was predominant in sepsis-AKI compared with acute I/R. Additionally, a reduction of CYP3A4 expression with IL-6 was demonstrated on HepG2 cells implying a direct injury of IL-6 on human liver cells. Differences in drug metabolism were reported between sepsis-AKI and ischemic-AKI confirming that drug dosing adjustment in sepsis-AKI depends not just only on renal function but also on several non-renal factors. Further studies are warranted.
topic cytochrome p450
mouse model
renal impairment
sepsis
url http://dx.doi.org/10.1080/0886022X.2019.1602054
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