Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata

Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata

In vitro experiments have demonstrated that camel foregut-fluid has the capacity to metabolize indospicine, a natural toxin which causes hepatotoxicosis, but such metabolism is in competition with absorption and outflow of indospicine from the different segments of the digestive system. Six young ca...

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Main Authors: Gabriele Netzel, Eddie T. T. Tan, Mukan Yin, Cindy Giles, Ken W. L. Yong, Rafat Al Jassim, Mary T. Fletcher
Format: Article
Language:English
Published: MDPI AG 2019-03-01
Series:Toxins
Subjects:
indospicine
2-aminopimelamic acid
2-aminopimelic acid
in vivo
foregut metabolites
camel
food safety
Online Access:http://www.mdpi.com/2072-6651/11/3/169
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spelling doaj-ff45ceb7a15e462483e1489e69c195a52020-11-24T21:09:37ZengMDPI AGToxins2072-66512019-03-0111316910.3390/toxins11030169toxins11030169Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicataGabriele Netzel0Eddie T. T. Tan1Mukan Yin2Cindy Giles3Ken W. L. Yong4Rafat Al Jassim5Mary T. Fletcher6Queensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaQueensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaQueensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaDepartment of Agriculture and Fisheries, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaDepartment of Agriculture and Fisheries, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaQueensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaQueensland Alliance for Agriculture and Food Innovation (QAAFI), The University of Queensland, Health and Food Sciences Precinct, Coopers Plains, QLD 4108, AustraliaIn vitro experiments have demonstrated that camel foregut-fluid has the capacity to metabolize indospicine, a natural toxin which causes hepatotoxicosis, but such metabolism is in competition with absorption and outflow of indospicine from the different segments of the digestive system. Six young camels were fed Indigofera spicata (337 µg indospicine/kg BW/day) for 32 days, at which time three camels were euthanized. The remaining camels were monitored for a further 100 days after cessation of this indospicine diet. In a retrospective investigation, relative levels of indospicine foregut-metabolism products were examined by UHPLC-MS/MS in plasma, collected during both accumulation and depletion stages of this experiment. The metabolite 2-aminopimelamic acid could be detected at low levels in almost all plasma samples, whereas 2-aminopimelic acid could not be detected. In the euthanized camels, 2-aminopimelamic acid could be found in all tissues except muscle, whereas 2-aminopimelic acid was only found in the kidney, pancreas, and liver tissues. The clearance rate for these metabolites was considerably greater than for indospicine, which was still present in plasma of the remaining camels 100 days after cessation of Indigofera consumption.http://www.mdpi.com/2072-6651/11/3/169indospicine2-aminopimelamic acid2-aminopimelic acidin vivoforegut metabolitescamelfood safety
collection DOAJ
language English
format Article
sources DOAJ
author Gabriele Netzel
Eddie T. T. Tan
Mukan Yin
Cindy Giles
Ken W. L. Yong
Rafat Al Jassim
Mary T. Fletcher
spellingShingle Gabriele Netzel
Eddie T. T. Tan
Mukan Yin
Cindy Giles
Ken W. L. Yong
Rafat Al Jassim
Mary T. Fletcher
Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
Toxins
indospicine
2-aminopimelamic acid
2-aminopimelic acid
in vivo
foregut metabolites
camel
food safety
author_facet Gabriele Netzel
Eddie T. T. Tan
Mukan Yin
Cindy Giles
Ken W. L. Yong
Rafat Al Jassim
Mary T. Fletcher
author_sort Gabriele Netzel
title Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
title_short Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
title_full Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
title_fullStr Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
title_full_unstemmed Bioaccumulation and Distribution of Indospicine and Its Foregut Metabolites in Camels Fed Indigofera spicata
title_sort bioaccumulation and distribution of indospicine and its foregut metabolites in camels fed indigofera spicata
publisher MDPI AG
series Toxins
issn 2072-6651
publishDate 2019-03-01
description In vitro experiments have demonstrated that camel foregut-fluid has the capacity to metabolize indospicine, a natural toxin which causes hepatotoxicosis, but such metabolism is in competition with absorption and outflow of indospicine from the different segments of the digestive system. Six young camels were fed Indigofera spicata (337 µg indospicine/kg BW/day) for 32 days, at which time three camels were euthanized. The remaining camels were monitored for a further 100 days after cessation of this indospicine diet. In a retrospective investigation, relative levels of indospicine foregut-metabolism products were examined by UHPLC-MS/MS in plasma, collected during both accumulation and depletion stages of this experiment. The metabolite 2-aminopimelamic acid could be detected at low levels in almost all plasma samples, whereas 2-aminopimelic acid could not be detected. In the euthanized camels, 2-aminopimelamic acid could be found in all tissues except muscle, whereas 2-aminopimelic acid was only found in the kidney, pancreas, and liver tissues. The clearance rate for these metabolites was considerably greater than for indospicine, which was still present in plasma of the remaining camels 100 days after cessation of Indigofera consumption.
topic indospicine
2-aminopimelamic acid
2-aminopimelic acid
in vivo
foregut metabolites
camel
food safety
url http://www.mdpi.com/2072-6651/11/3/169
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