Hepatic uptake of epirubicin by isolated rat hepatocytes and its biliary excretion after intravenous infusion in rats

Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycl...

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Published inArchives of pharmacal research Vol. 37; no. 12; pp. 1599 - 1606
Main Authors Shin, Dae Hwan, Park, Seong Hyeok, Jeong, Sung Woo, Park, Chun-Woong, Han, Kun, Chung, Youn Bok
Format Journal Article
LanguageEnglish
Published Heidelberg Pharmaceutical Society of Korea 01.12.2014
대한약학회
Subjects
Animals
antibiotics
Antibiotics, Antineoplastic - administration & dosage
Antibiotics, Antineoplastic - blood
Antibiotics, Antineoplastic - pharmacokinetics
bile
Bile - metabolism
carcinoma
Cells, Cultured
epirubicin
Epirubicin - administration & dosage
Epirubicin - blood
Epirubicin - pharmacokinetics
excretion
hepatocytes
Hepatocytes - metabolism
Infusions, Intravenous
intravenous injection
liver
Liver - metabolism
Male
Medicine
Metabolic Clearance Rate
metabolic inhibitors
Organic Anion Transporters - metabolism
Pharmacology/Toxicology
Pharmacy
polypeptides
rats
Rats, Sprague-Dawley
Research Article
rotenone
Tissue Distribution
transporters
uptake mechanisms
약학
Isolated hepatocytes
Infusion
Hepatobiliary transport
Epirubicin
Bile excretion
Online AccessGet full text
ISSN0253-6269
1976-3786
1976-3786
DOI10.1007/s12272-014-0475-5

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Abstract Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a K m of 99.1 μg/mL and V max of 3.70 μg/min/10 6 cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide- p -(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10–160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CL bile,plasma and CL bile,liver decreased with a corresponding increase in the C ss,plasma and C ss,liver . In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.
AbstractList Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a Kₘof 99.1 μg/mL and Vₘₐₓof 3.70 μg/min/10⁶cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide-p-(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10–160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CLbᵢₗₑ,ₚₗₐₛₘₐand CLbᵢₗₑ,ₗᵢᵥₑᵣdecreased with a corresponding increase in the Cₛₛ,ₚₗₐₛₘₐand Cₛₛ,ₗᵢᵥₑᵣ. In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.
Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a K m of 99.1 μg/mL and V max of 3.70 μg/min/10 6 cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide- p -(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10–160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CL bile,plasma and CL bile,liver decreased with a corresponding increase in the C ss,plasma and C ss,liver . In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.
Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a Km of 99.1 μg/mL and Vmax of 3.70 μg/min/10(6) cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide-p-(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10-160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CLbile,plasma and CLbile,liver decreased with a corresponding increase in the Css,plasma and Css,liver. In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a Km of 99.1 μg/mL and Vmax of 3.70 μg/min/10(6) cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide-p-(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10-160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CLbile,plasma and CLbile,liver decreased with a corresponding increase in the Css,plasma and Css,liver. In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.
Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellular uptake and efflux of the drugs have not been reported. We, therefore, investigated the hepatobiliary transport of epirubicin, an anthracycline derived antibiotic, after intravenous (i.v.) infusion in rats. The hepatic uptake mechanisms of epirubicin were also investigated in isolated rat hepatocytes. To analyze epirubicin levels in the biological samples, we used an HPLC-based method which has been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytes revealed one saturable component, with a Km of 99.1 μg/mL and Vmax of 3.70 μg/min/10(6) cells. The initial uptake velocity of epirubicin was significantly inhibited in a temperature-dependent manner. The velocity was also reduced in the presence of metabolic inhibitors such as rotenone or carbonylcyanide-p-(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters such as bromosulfophthalein and taurocholate significantly inhibited the initial uptake velocity of epirubicin. We also attempted to determine the hepatobiliary transport of epirubicin after i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10-160 μg/min/kg), the drug was extensively accumulated in the liver, followed by excretion into bile. Furthermore, the CLbile,plasma and CLbile,liver decreased with a corresponding increase in the Css,plasma and Css,liver. In conclusion, present studies using isolated rat hepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells via organic anion transporting polypeptides, and that its biliary excretion might be mediated via specific transporters.
Anthracycline anticancer agents are widelyused in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the hepatocellularuptake and efflux of the drugs have not beenreported. We, therefore, investigated the hepatobiliarytransport of epirubicin, an anthracycline derived antibiotic,after intravenous (i.v.) infusion in rats. The hepatic uptakemechanisms of epirubicin were also investigated in isolatedrat hepatocytes. To analyze epirubicin levels in the biologicalsamples, we used an HPLC-based method whichhas been validated for a kinetic study by suitable criteria. The uptake process of epirubicin by the hepatocytesrevealed one saturable component, with a Km of 99.1 lg/mL and Vmax of 3.70 lg/min/106 cells. The initial uptakevelocity of epirubicin was significantly inhibited in atemperature-dependent manner. The velocity was alsoreduced in the presence of metabolic inhibitors such asrotenone or carbonylcyanide-p-(trifluoromethoxy)-phenylhydrazone. Substrates for organic anion transporters suchas bromosulfophthalein and taurocholate significantlyinhibited the initial uptake velocity of epirubicin. We alsoattempted to determine the hepatobiliary transport of epirubicinafter i.v. infusion in vivo. At steady-state after i.v. infusion of epirubicin (10–160 lg/min/kg), the drug wasextensively accumulated in the liver, followed by excretioninto bile. Furthermore, the CLbile,plasma and CLbile,liverdecreased with a corresponding increase in the Css,plasmaand Css,liver. In conclusion, present studies using isolated rathepatocytes and in vivo i.v. infusion demonstrate that epirubicin is likely to be taken up into liver cells viaorganic anion transporting polypeptides, and that its biliaryexcretion might be mediated via specific transporters. KCI Citation Count: 10
Author Han, Kun
Park, Chun-Woong
Chung, Youn Bok
Park, Seong Hyeok
Jeong, Sung Woo
Shin, Dae Hwan
Author_xml – sequence: 1
  givenname: Dae Hwan
  surname: Shin
  fullname: Shin, Dae Hwan
  organization: College of Pharmacy, Chungbuk National University
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  surname: Park
  fullname: Park, Seong Hyeok
  organization: College of Pharmacy, Chungbuk National University
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  givenname: Sung Woo
  surname: Jeong
  fullname: Jeong, Sung Woo
  organization: College of Pharmacy, Chungbuk National University
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  givenname: Chun-Woong
  surname: Park
  fullname: Park, Chun-Woong
  organization: College of Pharmacy, Chungbuk National University
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  surname: Han
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  organization: College of Pharmacy, Chungbuk National University
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Snippet Anthracycline anticancer agents are widely used in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the...
Anthracycline anticancer agents are widelyused in the cancer chemotherapy for hepatocelluar carcinoma. However, accurate kinetic analyses of the...
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SubjectTerms Animals
antibiotics
Antibiotics, Antineoplastic - administration & dosage
Antibiotics, Antineoplastic - blood
Antibiotics, Antineoplastic - pharmacokinetics
bile
Bile - metabolism
carcinoma
Cells, Cultured
epirubicin
Epirubicin - administration & dosage
Epirubicin - blood
Epirubicin - pharmacokinetics
excretion
hepatocytes
Hepatocytes - metabolism
Infusions, Intravenous
intravenous injection
liver
Liver - metabolism
Male
Medicine
Metabolic Clearance Rate
metabolic inhibitors
Organic Anion Transporters - metabolism
Pharmacology/Toxicology
Pharmacy
polypeptides
rats
Rats, Sprague-Dawley
Research Article
rotenone
Tissue Distribution
transporters
uptake mechanisms
약학
Title Hepatic uptake of epirubicin by isolated rat hepatocytes and its biliary excretion after intravenous infusion in rats
URI https://link.springer.com/article/10.1007/s12272-014-0475-5
https://www.ncbi.nlm.nih.gov/pubmed/25373308
https://www.proquest.com/docview/1628881564
https://www.proquest.com/docview/1733507510
https://www.kci.go.kr/kciportal/ci/sereArticleSearch/ciSereArtiView.kci?sereArticleSearchBean.artiId=ART001934951
Volume 37
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