Validation of 4β‐hydroxycholesterol and evaluation of other endogenous biomarkers for the assessment of CYP3A activity in healthy subjects

Aims This study aimed to assess changes in the plasma concentrationss of 4β‐hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)]. Methods Thirty‐two he...

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Published inBritish journal of clinical pharmacology Vol. 78; no. 5; pp. 1122 - 1134
Main Authors Kasichayanula, Sreeneeranj, Boulton, David W., Luo, Wen‐Lin, Rodrigues, A. David, Yang, Zheng, Goodenough, Angela, Lee, Michelle, Jemal, Mohammed, LaCreta, Frank
Format Journal Article
LanguageEnglish
Published England BlackWell Publishing Ltd 01.11.2014
Subjects
4β‐hydroxycholesterol
Adolescent
Adult
biomarkers
Biomarkers - blood
CYP3A
Cytochrome P-450 CYP3A - metabolism
Cytochrome P-450 CYP3A Inducers - pharmacology
Cytochrome P-450 CYP3A Inhibitors - pharmacology
Dose-Response Relationship, Drug
drug–drug interactions
Healthy Volunteers
Humans
Hydroxycholesterols - blood
Injections, Intravenous
Ketoconazole - pharmacology
Limit of Detection
Methods in Clinical Pharmacology
midazolam
Midazolam - administration & dosage
Midazolam - blood
Midazolam - pharmacokinetics
Middle Aged
Rifampin - pharmacology
saliva
Saliva - chemistry
Substrate Specificity
Time Factors
Tissue Distribution
Young Adult
saliva
CYP3A
drug-drug interactions
4β-hydroxycholesterol
midazolam
biomarkers
Online AccessGet full text
ISSN0306-5251
1365-2125
1365-2125
DOI10.1111/bcp.12425

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Abstract Aims This study aimed to assess changes in the plasma concentrationss of 4β‐hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)]. Methods Thirty‐two healthy subjects (HS) were allocated into three groups of 12 each in KETO and RIF and 10 in a placebo group (PLB). All HS were randomized to receive oral and i.v. MDZ on day 1 or 2 and on day 15 or 16 after receiving RIF (600 mg once daily), KETO (400 mg once daily) or PLB for 2 weeks. Subjects were followed until day 30. The effect of treatments on 4βHC was assessed by analyzing % change from baseline using a linear spline mixed effects model. Results Compared with PLB, KETO decreased 4βHC mean values up to 13% (P = 0.003) and RIF increased 4βHC mean values up to 220% (P < 0.001). Within 14 days of stopping KETO and RIF, 4βHC had either returned to baseline (KETO) or was still returning to baseline (RIF). Compared with baseline, mean oral MDZ AUC increased by 11‐fold (90% CI ranging from 9‐fold to 13‐fold increase) and decreased by 92% (90% CI ranging from 90% to 95% decrease) after KETO and RIF, respectively. Similar trends were observed for 6β‐hydroxycortisol : cortisol (6βHCL : CL) urinary ratios. Conclusions Changes in plasma 4βHC can be utilized as a surrogate for MDZ PK after multiple doses of potent CYP3A inducers. There is a more limited dynamic range for 4βHC for assessment of potential CYP3A inhibitors. 4βHC is a valuable tool for the assessment of potential CYP3A inducers in early drug development.
AbstractList This study aimed to assess changes in the plasma concentrationss of 4β-hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)].AIMSThis study aimed to assess changes in the plasma concentrationss of 4β-hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)].Thirty-two healthy subjects (HS) were allocated into three groups of 12 each in KETO and RIF and 10 in a placebo group (PLB). All HS were randomized to receive oral and i.v. MDZ on day 1 or 2 and on day 15 or 16 after receiving RIF (600 mg once daily), KETO (400 mg once daily) or PLB for 2 weeks. Subjects were followed until day 30. The effect of treatments on 4βHC was assessed by analyzing % change from baseline using a linear spline mixed effects model.METHODSThirty-two healthy subjects (HS) were allocated into three groups of 12 each in KETO and RIF and 10 in a placebo group (PLB). All HS were randomized to receive oral and i.v. MDZ on day 1 or 2 and on day 15 or 16 after receiving RIF (600 mg once daily), KETO (400 mg once daily) or PLB for 2 weeks. Subjects were followed until day 30. The effect of treatments on 4βHC was assessed by analyzing % change from baseline using a linear spline mixed effects model.Compared with PLB, KETO decreased 4βHC mean values up to 13% (P = 0.003) and RIF increased 4βHC mean values up to 220% (P < 0.001). Within 14 days of stopping KETO and RIF, 4βHC had either returned to baseline (KETO) or was still returning to baseline (RIF). Compared with baseline, mean oral MDZ AUC increased by 11-fold (90% CI ranging from 9-fold to 13-fold increase) and decreased by 92% (90% CI ranging from 90% to 95% decrease) after KETO and RIF, respectively. Similar trends were observed for 6β-hydroxycortisol : cortisol (6βHCL : CL) urinary ratios.RESULTSCompared with PLB, KETO decreased 4βHC mean values up to 13% (P = 0.003) and RIF increased 4βHC mean values up to 220% (P < 0.001). Within 14 days of stopping KETO and RIF, 4βHC had either returned to baseline (KETO) or was still returning to baseline (RIF). Compared with baseline, mean oral MDZ AUC increased by 11-fold (90% CI ranging from 9-fold to 13-fold increase) and decreased by 92% (90% CI ranging from 90% to 95% decrease) after KETO and RIF, respectively. Similar trends were observed for 6β-hydroxycortisol : cortisol (6βHCL : CL) urinary ratios.Changes in plasma 4βHC can be utilized as a surrogate for MDZ PK after multiple doses of potent CYP3A inducers. There is a more limited dynamic range for 4βHC for assessment of potential CYP3A inhibitors. 4βHC is a valuable tool for the assessment of potential CYP3A inducers in early drug development.CONCLUSIONSChanges in plasma 4βHC can be utilized as a surrogate for MDZ PK after multiple doses of potent CYP3A inducers. There is a more limited dynamic range for 4βHC for assessment of potential CYP3A inhibitors. 4βHC is a valuable tool for the assessment of potential CYP3A inducers in early drug development.
This study aimed to assess changes in the plasma concentrationss of 4β-hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)]. Thirty-two healthy subjects (HS) were allocated into three groups of 12 each in KETO and RIF and 10 in a placebo group (PLB). All HS were randomized to receive oral and i.v. MDZ on day 1 or 2 and on day 15 or 16 after receiving RIF (600 mg once daily), KETO (400 mg once daily) or PLB for 2 weeks. Subjects were followed until day 30. The effect of treatments on 4βHC was assessed by analyzing % change from baseline using a linear spline mixed effects model. Compared with PLB, KETO decreased 4βHC mean values up to 13% (P = 0.003) and RIF increased 4βHC mean values up to 220% (P < 0.001). Within 14 days of stopping KETO and RIF, 4βHC had either returned to baseline (KETO) or was still returning to baseline (RIF). Compared with baseline, mean oral MDZ AUC increased by 11-fold (90% CI ranging from 9-fold to 13-fold increase) and decreased by 92% (90% CI ranging from 90% to 95% decrease) after KETO and RIF, respectively. Similar trends were observed for 6β-hydroxycortisol : cortisol (6βHCL : CL) urinary ratios. Changes in plasma 4βHC can be utilized as a surrogate for MDZ PK after multiple doses of potent CYP3A inducers. There is a more limited dynamic range for 4βHC for assessment of potential CYP3A inhibitors. 4βHC is a valuable tool for the assessment of potential CYP3A inducers in early drug development.
Aims This study aimed to assess changes in the plasma concentrationss of 4β‐hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ) pharmacokinetics (PK) after administration of a potent CYP3A inhibitor [ketoconazole (KETO)] and inducer [rifampicin (RIF)]. Methods Thirty‐two healthy subjects (HS) were allocated into three groups of 12 each in KETO and RIF and 10 in a placebo group (PLB). All HS were randomized to receive oral and i.v. MDZ on day 1 or 2 and on day 15 or 16 after receiving RIF (600 mg once daily), KETO (400 mg once daily) or PLB for 2 weeks. Subjects were followed until day 30. The effect of treatments on 4βHC was assessed by analyzing % change from baseline using a linear spline mixed effects model. Results Compared with PLB, KETO decreased 4βHC mean values up to 13% (P = 0.003) and RIF increased 4βHC mean values up to 220% (P < 0.001). Within 14 days of stopping KETO and RIF, 4βHC had either returned to baseline (KETO) or was still returning to baseline (RIF). Compared with baseline, mean oral MDZ AUC increased by 11‐fold (90% CI ranging from 9‐fold to 13‐fold increase) and decreased by 92% (90% CI ranging from 90% to 95% decrease) after KETO and RIF, respectively. Similar trends were observed for 6β‐hydroxycortisol : cortisol (6βHCL : CL) urinary ratios. Conclusions Changes in plasma 4βHC can be utilized as a surrogate for MDZ PK after multiple doses of potent CYP3A inducers. There is a more limited dynamic range for 4βHC for assessment of potential CYP3A inhibitors. 4βHC is a valuable tool for the assessment of potential CYP3A inducers in early drug development.
Author Yang, Zheng
Lee, Michelle
Jemal, Mohammed
Kasichayanula, Sreeneeranj
Goodenough, Angela
Luo, Wen‐Lin
Rodrigues, A. David
Boulton, David W.
LaCreta, Frank
Author_xml – sequence: 1
  givenname: Sreeneeranj
  surname: Kasichayanula
  fullname: Kasichayanula, Sreeneeranj
  organization: Bristol‐Myers Squibb
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  givenname: David W.
  surname: Boulton
  fullname: Boulton, David W.
  organization: Bristol‐Myers Squibb
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  givenname: Wen‐Lin
  surname: Luo
  fullname: Luo, Wen‐Lin
  organization: Bristol‐Myers Squibb
– sequence: 4
  givenname: A. David
  surname: Rodrigues
  fullname: Rodrigues, A. David
  organization: Bristol‐Myers Squibb
– sequence: 5
  givenname: Zheng
  surname: Yang
  fullname: Yang, Zheng
  organization: Bristol‐Myers Squibb
– sequence: 6
  givenname: Angela
  surname: Goodenough
  fullname: Goodenough, Angela
  organization: Bristol‐Myers Squibb
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  surname: Lee
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  organization: Bristol‐Myers Squibb
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  fullname: Jemal, Mohammed
  organization: Bristol‐Myers Squibb
– sequence: 9
  givenname: Frank
  surname: LaCreta
  fullname: LaCreta, Frank
  organization: Bristol‐Myers Squibb
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Keywords saliva
CYP3A
drug-drug interactions
4β-hydroxycholesterol
midazolam
biomarkers
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Snippet Aims This study aimed to assess changes in the plasma concentrationss of 4β‐hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ)...
This study aimed to assess changes in the plasma concentrationss of 4β-hydroxycholesterol (4βHC) against intravenous (i.v.) and oral midazolam (MDZ)...
SourceID pubmedcentral
proquest
pubmed
crossref
wiley
SourceType Open Access Repository
Aggregation Database
Index Database
Enrichment Source
Publisher
StartPage 1122
SubjectTerms 4β‐hydroxycholesterol
Adolescent
Adult
biomarkers
Biomarkers - blood
CYP3A
Cytochrome P-450 CYP3A - metabolism
Cytochrome P-450 CYP3A Inducers - pharmacology
Cytochrome P-450 CYP3A Inhibitors - pharmacology
Dose-Response Relationship, Drug
drug–drug interactions
Healthy Volunteers
Humans
Hydroxycholesterols - blood
Injections, Intravenous
Ketoconazole - pharmacology
Limit of Detection
Methods in Clinical Pharmacology
midazolam
Midazolam - administration & dosage
Midazolam - blood
Midazolam - pharmacokinetics
Middle Aged
Rifampin - pharmacology
saliva
Saliva - chemistry
Substrate Specificity
Time Factors
Tissue Distribution
Young Adult
Title Validation of 4β‐hydroxycholesterol and evaluation of other endogenous biomarkers for the assessment of CYP3A activity in healthy subjects
URI https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fbcp.12425
https://www.ncbi.nlm.nih.gov/pubmed/24837659
https://www.proquest.com/docview/1615262542
https://pubmed.ncbi.nlm.nih.gov/PMC4243887
Volume 78
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