Tissue distribution of berberine and its metabolites after oral administration in rats

Berberine (BBR) has been confirmed to have multiple bioactivities in clinic, such as cholesterol-lowering, anti-diabetes, cardiovascular protection and anti- inflammation. However, BBR's plasma level is very low; it cannot explain its pharmacological effects in patients. We consider that the in...

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Veröffentlicht in:	PloS one 2013-10, Vol.8 (10), p.e77969
Hauptverfasser:	Tan, Xiang-Shan, Ma, Jing-Yi, Feng, Ru, Ma, Chao, Chen, Wen-Jing, Sun, Yu-Peng, Fu, Jie, Huang, Min, He, Chi-Yu, Shou, Jia-Wen, He, Wen-Yi, Wang, Yan, Jiang, Jian-Dong
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Schlagworte:	Administration, Oral Animal tissues Animals Area Under Curve Berberine Berberine - administration & dosage Berberine - analogs & derivatives Berberine - blood Berberine - pharmacokinetics Bioactive compounds Biological activity Blood levels Brain Cholesterol Chromatography Chromatography, Liquid Diabetes Diabetes mellitus Heart Humans Ions Kidneys Kinases Laboratories Liquid chromatography Liver Low density lipoprotein receptors Lungs Male Mass spectrometry Mass spectroscopy Metabolism Metabolites Muscles Nervous system Oral administration Organs Pancreas Pharmaceuticals Pharmacokinetics Pharmacology Plasma Rats Rats, Sprague-Dawley Scientific imaging Spectroscopy Statins Tandem Mass Spectrometry Tissue Distribution Urine
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creator	Tan, Xiang-Shan Ma, Jing-Yi Feng, Ru Ma, Chao Chen, Wen-Jing Sun, Yu-Peng Fu, Jie Huang, Min He, Chi-Yu Shou, Jia-Wen He, Wen-Yi Wang, Yan Jiang, Jian-Dong
description	Berberine (BBR) has been confirmed to have multiple bioactivities in clinic, such as cholesterol-lowering, anti-diabetes, cardiovascular protection and anti- inflammation. However, BBR's plasma level is very low; it cannot explain its pharmacological effects in patients. We consider that the in vivo distribution of BBR as well as of its bioactive metabolites might provide part of the explanation for this question. In this study, liquid chromatography coupled to ion trap time-of-flight mass spectrometry (LC/MS(n)-IT-TOF) as well as liquid chromatography that coupled with tandem mass spectrometry (LC-MS/MS) was used for the study of tissue distribution and pharmacokinetics of BBR in rats after oral administration (200 mg/kg). The results indicated that BBR was quickly distributed in the liver, kidneys, muscle, lungs, brain, heart, pancreas and fat in a descending order of its amount. The pharmacokinetic profile indicated that BBR's level in most of studied tissues was higher (or much higher) than that in plasma 4 h after administration. BBR remained relatively stable in the tissues like liver, heart, brain, muscle, pancreas etc. Organ distribution of BBR's metabolites was also investigated paralleled with that of BBR. Thalifendine (M1), berberrubine (M2) and jatrorrhizine (M4), which the metabolites with moderate bioactivity, were easily detected in organs like the liver and kidney. For instance, M1, M2 and M4 were the major metabolites in the liver, among which the percentage of M2 was up to 65.1%; the level of AUC (0-t) (area under the concentration-time curve) for BBR or the metabolites in the liver was 10-fold or 30-fold higher than that in plasma, respectively. In summary, the organ concentration of BBR (as well as its bioactive metabolites) was higher than its concentration in the blood after oral administration. It might explain BBR's pharmacological effects on human diseases in clinic.
doi_str_mv	10.1371/journal.pone.0077969
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However, BBR's plasma level is very low; it cannot explain its pharmacological effects in patients. We consider that the in vivo distribution of BBR as well as of its bioactive metabolites might provide part of the explanation for this question. In this study, liquid chromatography coupled to ion trap time-of-flight mass spectrometry (LC/MS(n)-IT-TOF) as well as liquid chromatography that coupled with tandem mass spectrometry (LC-MS/MS) was used for the study of tissue distribution and pharmacokinetics of BBR in rats after oral administration (200 mg/kg). The results indicated that BBR was quickly distributed in the liver, kidneys, muscle, lungs, brain, heart, pancreas and fat in a descending order of its amount. The pharmacokinetic profile indicated that BBR's level in most of studied tissues was higher (or much higher) than that in plasma 4 h after administration. BBR remained relatively stable in the tissues like liver, heart, brain, muscle, pancreas etc. Organ distribution of BBR's metabolites was also investigated paralleled with that of BBR. Thalifendine (M1), berberrubine (M2) and jatrorrhizine (M4), which the metabolites with moderate bioactivity, were easily detected in organs like the liver and kidney. For instance, M1, M2 and M4 were the major metabolites in the liver, among which the percentage of M2 was up to 65.1%; the level of AUC (0-t) (area under the concentration-time curve) for BBR or the metabolites in the liver was 10-fold or 30-fold higher than that in plasma, respectively. In summary, the organ concentration of BBR (as well as its bioactive metabolites) was higher than its concentration in the blood after oral administration. It might explain BBR's pharmacological effects on human diseases in clinic.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0077969</identifier><identifier>PMID: 24205048</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Administration, Oral ; Animal tissues ; Animals ; Area Under Curve ; Berberine ; Berberine - administration & dosage ; Berberine - analogs & derivatives ; Berberine - blood ; Berberine - pharmacokinetics ; Bioactive compounds ; Biological activity ; Blood levels ; Brain ; Cholesterol ; Chromatography ; Chromatography, Liquid ; Diabetes ; Diabetes mellitus ; Heart ; Humans ; Ions ; Kidneys ; Kinases ; Laboratories ; Liquid chromatography ; Liver ; Low density lipoprotein receptors ; Lungs ; Male ; Mass spectrometry ; Mass spectroscopy ; Metabolism ; Metabolites ; Muscles ; Nervous system ; Oral administration ; Organs ; Pancreas ; Pharmaceuticals ; Pharmacokinetics ; Pharmacology ; Plasma ; Rats ; Rats, Sprague-Dawley ; Scientific imaging ; Spectroscopy ; Statins ; Tandem Mass Spectrometry ; Tissue Distribution ; Urine</subject><ispartof>PloS one, 2013-10, Vol.8 (10), p.e77969</ispartof><rights>2013 Tan et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: https://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. 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However, BBR's plasma level is very low; it cannot explain its pharmacological effects in patients. We consider that the in vivo distribution of BBR as well as of its bioactive metabolites might provide part of the explanation for this question. In this study, liquid chromatography coupled to ion trap time-of-flight mass spectrometry (LC/MS(n)-IT-TOF) as well as liquid chromatography that coupled with tandem mass spectrometry (LC-MS/MS) was used for the study of tissue distribution and pharmacokinetics of BBR in rats after oral administration (200 mg/kg). The results indicated that BBR was quickly distributed in the liver, kidneys, muscle, lungs, brain, heart, pancreas and fat in a descending order of its amount. The pharmacokinetic profile indicated that BBR's level in most of studied tissues was higher (or much higher) than that in plasma 4 h after administration. BBR remained relatively stable in the tissues like liver, heart, brain, muscle, pancreas etc. Organ distribution of BBR's metabolites was also investigated paralleled with that of BBR. Thalifendine (M1), berberrubine (M2) and jatrorrhizine (M4), which the metabolites with moderate bioactivity, were easily detected in organs like the liver and kidney. For instance, M1, M2 and M4 were the major metabolites in the liver, among which the percentage of M2 was up to 65.1%; the level of AUC (0-t) (area under the concentration-time curve) for BBR or the metabolites in the liver was 10-fold or 30-fold higher than that in plasma, respectively. In summary, the organ concentration of BBR (as well as its bioactive metabolites) was higher than its concentration in the blood after oral administration. It might explain BBR's pharmacological effects on human diseases in clinic.</description><subject>Administration, Oral</subject><subject>Animal tissues</subject><subject>Animals</subject><subject>Area Under Curve</subject><subject>Berberine</subject><subject>Berberine - administration & dosage</subject><subject>Berberine - analogs & derivatives</subject><subject>Berberine - blood</subject><subject>Berberine - pharmacokinetics</subject><subject>Bioactive compounds</subject><subject>Biological activity</subject><subject>Blood levels</subject><subject>Brain</subject><subject>Cholesterol</subject><subject>Chromatography</subject><subject>Chromatography, Liquid</subject><subject>Diabetes</subject><subject>Diabetes mellitus</subject><subject>Heart</subject><subject>Humans</subject><subject>Ions</subject><subject>Kidneys</subject><subject>Kinases</subject><subject>Laboratories</subject><subject>Liquid chromatography</subject><subject>Liver</subject><subject>Low density lipoprotein receptors</subject><subject>Lungs</subject><subject>Male</subject><subject>Mass spectrometry</subject><subject>Mass spectroscopy</subject><subject>Metabolism</subject><subject>Metabolites</subject><subject>Muscles</subject><subject>Nervous system</subject><subject>Oral administration</subject><subject>Organs</subject><subject>Pancreas</subject><subject>Pharmaceuticals</subject><subject>Pharmacokinetics</subject><subject>Pharmacology</subject><subject>Plasma</subject><subject>Rats</subject><subject>Rats, Sprague-Dawley</subject><subject>Scientific imaging</subject><subject>Spectroscopy</subject><subject>Statins</subject><subject>Tandem Mass Spectrometry</subject><subject>Tissue 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distribution of berberine and its metabolites after oral administration in rats</title><author>Tan, Xiang-Shan ; Ma, Jing-Yi ; Feng, Ru ; Ma, Chao ; Chen, Wen-Jing ; Sun, Yu-Peng ; Fu, Jie ; Huang, Min ; He, Chi-Yu ; Shou, Jia-Wen ; He, Wen-Yi ; Wang, Yan ; Jiang, Jian-Dong</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c643t-6389863f29e81c8db848151cf811277ae7f38c1deb3cb37bf74d34fb7a53e8603</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2013</creationdate><topic>Administration, Oral</topic><topic>Animal tissues</topic><topic>Animals</topic><topic>Area Under Curve</topic><topic>Berberine</topic><topic>Berberine - administration & dosage</topic><topic>Berberine - analogs & derivatives</topic><topic>Berberine - blood</topic><topic>Berberine - pharmacokinetics</topic><topic>Bioactive compounds</topic><topic>Biological activity</topic><topic>Blood 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One</addtitle><date>2013-10-31</date><risdate>2013</risdate><volume>8</volume><issue>10</issue><spage>e77969</spage><pages>e77969-</pages><issn>1932-6203</issn><eissn>1932-6203</eissn><abstract>Berberine (BBR) has been confirmed to have multiple bioactivities in clinic, such as cholesterol-lowering, anti-diabetes, cardiovascular protection and anti- inflammation. However, BBR's plasma level is very low; it cannot explain its pharmacological effects in patients. We consider that the in vivo distribution of BBR as well as of its bioactive metabolites might provide part of the explanation for this question. In this study, liquid chromatography coupled to ion trap time-of-flight mass spectrometry (LC/MS(n)-IT-TOF) as well as liquid chromatography that coupled with tandem mass spectrometry (LC-MS/MS) was used for the study of tissue distribution and pharmacokinetics of BBR in rats after oral administration (200 mg/kg). The results indicated that BBR was quickly distributed in the liver, kidneys, muscle, lungs, brain, heart, pancreas and fat in a descending order of its amount. The pharmacokinetic profile indicated that BBR's level in most of studied tissues was higher (or much higher) than that in plasma 4 h after administration. BBR remained relatively stable in the tissues like liver, heart, brain, muscle, pancreas etc. Organ distribution of BBR's metabolites was also investigated paralleled with that of BBR. Thalifendine (M1), berberrubine (M2) and jatrorrhizine (M4), which the metabolites with moderate bioactivity, were easily detected in organs like the liver and kidney. For instance, M1, M2 and M4 were the major metabolites in the liver, among which the percentage of M2 was up to 65.1%; the level of AUC (0-t) (area under the concentration-time curve) for BBR or the metabolites in the liver was 10-fold or 30-fold higher than that in plasma, respectively. In summary, the organ concentration of BBR (as well as its bioactive metabolites) was higher than its concentration in the blood after oral administration. It might explain BBR's pharmacological effects on human diseases in clinic.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>24205048</pmid><doi>10.1371/journal.pone.0077969</doi><oa>free_for_read</oa></addata></record>
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subjects	Administration, Oral Animal tissues Animals Area Under Curve Berberine Berberine - administration & dosage Berberine - analogs & derivatives Berberine - blood Berberine - pharmacokinetics Bioactive compounds Biological activity Blood levels Brain Cholesterol Chromatography Chromatography, Liquid Diabetes Diabetes mellitus Heart Humans Ions Kidneys Kinases Laboratories Liquid chromatography Liver Low density lipoprotein receptors Lungs Male Mass spectrometry Mass spectroscopy Metabolism Metabolites Muscles Nervous system Oral administration Organs Pancreas Pharmaceuticals Pharmacokinetics Pharmacology Plasma Rats Rats, Sprague-Dawley Scientific imaging Spectroscopy Statins Tandem Mass Spectrometry Tissue Distribution Urine
title	Tissue distribution of berberine and its metabolites after oral administration in rats
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