Glucuronidase Deconjugation in Inflammation

Glucuronidase Deconjugation in Inflammation

This chapter focuses on deglucuronidation by β‐glucuronidase in inflammation. We investigated whether glucuronides were converted to free parent compounds by β‐glucuronidase released from human‐stimulated neutrophils in inflammation. β‐Glucuronidase activity was assayed using 4‐methylumbelliferyl‐gl...

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Veröffentlicht in:Methods in Enzymology 2005, Vol.400, p.263-272
Hauptverfasser: Shimoi, Kayoko, Nakayama, Tsutomu
Format: Artikel
Sprache:eng
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Administration, Oral
Animals
Cells, Cultured
Chromatography, High Pressure Liquid
Glucuronidase - blood
Glucuronidase - metabolism
Humans
Inflammation - chemically induced
Inflammation - enzymology
Inflammation - metabolism
Lipopolysaccharides
Luteolin - administration & dosage
Luteolin - metabolism
Luteolin - pharmacokinetics
Male
Mice
Mice, Inbred ICR
Neutrophils - immunology
Neutrophils - metabolism
Rats
Rats, Sprague-Dawley
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Nakayama, Tsutomu
description This chapter focuses on deglucuronidation by β‐glucuronidase in inflammation. We investigated whether glucuronides were converted to free parent compounds by β‐glucuronidase released from human‐stimulated neutrophils in inflammation. β‐Glucuronidase activity was assayed using 4‐methylumbelliferyl‐glucuronide and methanol extracts of rat plasma containing luteolin monoglucuronide as a substrate. The released 4‐methylumbelliferone, a fluorescent molecule, was quantitated on a microplate fluorometer. Deglucuronidation of luteolin monoglucuronide was examined by high‐performance liquid chromatography (HPLC) analysis. The β‐glucuronidase activity in mouse plasma after iv injection of lipopolysaccharide (LPS) increased with time, as did the levels of inflammation marker, tumor necrosis factor‐α, and soluble intercellular adhesion molecule‐1. Four kinds of human cell (neutrophils, human umbilical vein endothelial cells, IMR‐90, and Caco‐2) possess β‐glucuronidase activity. Among these, Caco‐2 cells showed the highest level of β‐glucuronidase activity. Supernatants obtained from neutrophils stimulated with cytochalasin B and ionomycin showed higher levels of β‐glucuronidase activity than those of nonstimulated neutrophils. HPLC analyses also showed that supernatants obtained from stimulated neutrophils hydrolyzed luteolin monoglucuronide to free luteolin. As reported previously (Shimoi et al., 1998), two main peaks (free luteolin and luteolin monoglucuronide) were observed in plasma of rats administered with luteolin. In LPS‐treated rats, the peak of luteolin monoglucuronide decreased to about half and the ratio of luteolin to luteolin monoglucuronide increased. These results suggest that β‐glucuronidase released from neutrophils or certain injured cells may hydrolyze glucuronide conjugates to free aglycones at the site of inflammation.
doi_str_mv 10.1016/S0076-6879(05)00015-7
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We investigated whether glucuronides were converted to free parent compounds by β‐glucuronidase released from human‐stimulated neutrophils in inflammation. β‐Glucuronidase activity was assayed using 4‐methylumbelliferyl‐glucuronide and methanol extracts of rat plasma containing luteolin monoglucuronide as a substrate. The released 4‐methylumbelliferone, a fluorescent molecule, was quantitated on a microplate fluorometer. Deglucuronidation of luteolin monoglucuronide was examined by high‐performance liquid chromatography (HPLC) analysis. The β‐glucuronidase activity in mouse plasma after iv injection of lipopolysaccharide (LPS) increased with time, as did the levels of inflammation marker, tumor necrosis factor‐α, and soluble intercellular adhesion molecule‐1. Four kinds of human cell (neutrophils, human umbilical vein endothelial cells, IMR‐90, and Caco‐2) possess β‐glucuronidase activity. Among these, Caco‐2 cells showed the highest level of β‐glucuronidase activity. Supernatants obtained from neutrophils stimulated with cytochalasin B and ionomycin showed higher levels of β‐glucuronidase activity than those of nonstimulated neutrophils. HPLC analyses also showed that supernatants obtained from stimulated neutrophils hydrolyzed luteolin monoglucuronide to free luteolin. As reported previously (Shimoi et al., 1998), two main peaks (free luteolin and luteolin monoglucuronide) were observed in plasma of rats administered with luteolin. In LPS‐treated rats, the peak of luteolin monoglucuronide decreased to about half and the ratio of luteolin to luteolin monoglucuronide increased. 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We investigated whether glucuronides were converted to free parent compounds by β‐glucuronidase released from human‐stimulated neutrophils in inflammation. β‐Glucuronidase activity was assayed using 4‐methylumbelliferyl‐glucuronide and methanol extracts of rat plasma containing luteolin monoglucuronide as a substrate. The released 4‐methylumbelliferone, a fluorescent molecule, was quantitated on a microplate fluorometer. Deglucuronidation of luteolin monoglucuronide was examined by high‐performance liquid chromatography (HPLC) analysis. The β‐glucuronidase activity in mouse plasma after iv injection of lipopolysaccharide (LPS) increased with time, as did the levels of inflammation marker, tumor necrosis factor‐α, and soluble intercellular adhesion molecule‐1. Four kinds of human cell (neutrophils, human umbilical vein endothelial cells, IMR‐90, and Caco‐2) possess β‐glucuronidase activity. Among these, Caco‐2 cells showed the highest level of β‐glucuronidase activity. Supernatants obtained from neutrophils stimulated with cytochalasin B and ionomycin showed higher levels of β‐glucuronidase activity than those of nonstimulated neutrophils. HPLC analyses also showed that supernatants obtained from stimulated neutrophils hydrolyzed luteolin monoglucuronide to free luteolin. As reported previously (Shimoi et al., 1998), two main peaks (free luteolin and luteolin monoglucuronide) were observed in plasma of rats administered with luteolin. In LPS‐treated rats, the peak of luteolin monoglucuronide decreased to about half and the ratio of luteolin to luteolin monoglucuronide increased. 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We investigated whether glucuronides were converted to free parent compounds by β‐glucuronidase released from human‐stimulated neutrophils in inflammation. β‐Glucuronidase activity was assayed using 4‐methylumbelliferyl‐glucuronide and methanol extracts of rat plasma containing luteolin monoglucuronide as a substrate. The released 4‐methylumbelliferone, a fluorescent molecule, was quantitated on a microplate fluorometer. Deglucuronidation of luteolin monoglucuronide was examined by high‐performance liquid chromatography (HPLC) analysis. The β‐glucuronidase activity in mouse plasma after iv injection of lipopolysaccharide (LPS) increased with time, as did the levels of inflammation marker, tumor necrosis factor‐α, and soluble intercellular adhesion molecule‐1. Four kinds of human cell (neutrophils, human umbilical vein endothelial cells, IMR‐90, and Caco‐2) possess β‐glucuronidase activity. Among these, Caco‐2 cells showed the highest level of β‐glucuronidase activity. Supernatants obtained from neutrophils stimulated with cytochalasin B and ionomycin showed higher levels of β‐glucuronidase activity than those of nonstimulated neutrophils. HPLC analyses also showed that supernatants obtained from stimulated neutrophils hydrolyzed luteolin monoglucuronide to free luteolin. As reported previously (Shimoi et al., 1998), two main peaks (free luteolin and luteolin monoglucuronide) were observed in plasma of rats administered with luteolin. In LPS‐treated rats, the peak of luteolin monoglucuronide decreased to about half and the ratio of luteolin to luteolin monoglucuronide increased. These results suggest that β‐glucuronidase released from neutrophils or certain injured cells may hydrolyze glucuronide conjugates to free aglycones at the site of inflammation.</abstract><cop>United States</cop><pub>Elsevier Science &amp; Technology</pub><pmid>16399354</pmid><doi>10.1016/S0076-6879(05)00015-7</doi><tpages>10</tpages></addata></record>
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subjects Administration, Oral
Animals
Cells, Cultured
Chromatography, High Pressure Liquid
Glucuronidase - blood
Glucuronidase - metabolism
Humans
Inflammation - chemically induced
Inflammation - enzymology
Inflammation - metabolism
Lipopolysaccharides
Luteolin - administration & dosage
Luteolin - metabolism
Luteolin - pharmacokinetics
Male
Mice
Mice, Inbred ICR
Neutrophils - immunology
Neutrophils - metabolism
Rats
Rats, Sprague-Dawley
title Glucuronidase Deconjugation in Inflammation
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