Bridging population pharmacokinetic and semimechanistic absorption modeling of APX3330
APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly con...
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| Published in | CPT: pharmacometrics and systems pharmacology Vol. 13; no. 1; pp. 106 - 117 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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United States
John Wiley & Sons, Inc
01.01.2024
John Wiley and Sons Inc Wiley |
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| Abstract | APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose‐escalation; multiple‐dose; food‐effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi‐physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two‐compartment, first order absorption model with lag time best described plasma concentration‐time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/F) and volume. Administration with food led to an 80% higher lag time. CL/F was 41% higher in the cancer population. The semi‐physiologic model indicates a switch from dissolution‐rate control of absorption in the fasted‐state to gastric emptying rate determining absorption rate in the fed‐state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms. |
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| AbstractList | APX3330 ((2E)-2-[(4,5-dimethoxy-2-methyl-3,6-dioxo-1,4-cyclohexadien-1-yl)methylene]-undecanoic acid), a selective inhibitor of APE1/Ref-1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose-escalation; multiple-dose; food-effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi-physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two-compartment, first order absorption model with lag time best described plasma concentration-time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/F) and volume. Administration with food led to an 80% higher lag time. CL/F was 41% higher in the cancer population. The semi-physiologic model indicates a switch from dissolution-rate control of absorption in the fasted-state to gastric emptying rate determining absorption rate in the fed-state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms.APX3330 ((2E)-2-[(4,5-dimethoxy-2-methyl-3,6-dioxo-1,4-cyclohexadien-1-yl)methylene]-undecanoic acid), a selective inhibitor of APE1/Ref-1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose-escalation; multiple-dose; food-effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi-physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two-compartment, first order absorption model with lag time best described plasma concentration-time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/F) and volume. Administration with food led to an 80% higher lag time. CL/F was 41% higher in the cancer population. The semi-physiologic model indicates a switch from dissolution-rate control of absorption in the fasted-state to gastric emptying rate determining absorption rate in the fed-state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms. APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose‐escalation; multiple‐dose; food‐effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi‐physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two‐compartment, first order absorption model with lag time best described plasma concentration‐time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/F) and volume. Administration with food led to an 80% higher lag time. CL/F was 41% higher in the cancer population. The semi‐physiologic model indicates a switch from dissolution‐rate control of absorption in the fasted‐state to gastric emptying rate determining absorption rate in the fed‐state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms. APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose‐escalation; multiple‐dose; food‐effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi‐physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two‐compartment, first order absorption model with lag time best described plasma concentration‐time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/ F ) and volume. Administration with food led to an 80% higher lag time. CL/ F was 41% higher in the cancer population. The semi‐physiologic model indicates a switch from dissolution‐rate control of absorption in the fasted‐state to gastric emptying rate determining absorption rate in the fed‐state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms. Abstract APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been investigated in treatment of hepatitis, cancer, diabetic retinopathy, and macular edema. APX3330 is administered orally as a quinone but is rapidly converted to the hydroquinone form. This study describes the pharmacokinetics of APX3330 and explores effect of food on absorption. Total plasma quinone concentrations of APX3330 were obtained following oral administration from studies in healthy Japanese male subjects (single dose‐escalation; multiple‐dose; food‐effect) and patients with cancer patients. Nonlinear mixed effects modeling was performed using Monolix to estimate pharmacokinetic parameters and assess covariate effects. To further evaluate the effect of food on absorption, a semi‐physiologic pharmacokinetic model was developed in Gastroplus to delineate effects of food on dissolution and absorption. A two‐compartment, first order absorption model with lag time best described plasma concentration‐time profiles from 49 healthy Japanese males. Weight was positively correlated with apparent clearance (CL/F) and volume. Administration with food led to an 80% higher lag time. CL/F was 41% higher in the cancer population. The semi‐physiologic model indicates a switch from dissolution‐rate control of absorption in the fasted‐state to gastric emptying rate determining absorption rate in the fed‐state. Oral clearance of APX3330 is higher in patients with cancer than healthy Japanese males, possibly due to reduced serum albumin in patients with cancer. Delayed APX3330 absorption with food may be related to higher conversion to the more soluble but less permeable hydroquinone form in the gastrointestinal tract. Future work should address pharmacokinetic differences between APX3330 quinone and hydroquinone forms. |
| Author | Quinney, Sara K. Stratford, Robert E. Messmann, Richard Kelley, Mark R. Silva, Larissa L. |
| AuthorAffiliation | 6 Department of Obstetrics and Gynecology Indiana University School of Medicine Indianapolis Indiana USA 2 Apexian Pharmaceuticals Indianapolis Indiana USA 4 Department of Pediatrics Herman B Wells Center for Pediatric Research, Indiana University School of Medicine Indianapolis Indiana USA 1 Division of Clinical Pharmacology, Department of Medicine Indiana University School of Medicine Indiana Indianapolis USA 3 Departments of Biochemistry and Molecular Biology, and Pharmacology and Toxicology Indiana University School of Medicine Indianapolis Indiana USA 5 Indiana University Simon Comprehensive Cancer Center Indiana University School of Medicine Indianapolis Indiana USA 7 Center for Computational Biology and Bioinformatics Indiana University School of Medicine Indianapolis Indiana USA |
| AuthorAffiliation_xml | – name: 1 Division of Clinical Pharmacology, Department of Medicine Indiana University School of Medicine Indiana Indianapolis USA – name: 3 Departments of Biochemistry and Molecular Biology, and Pharmacology and Toxicology Indiana University School of Medicine Indianapolis Indiana USA – name: 5 Indiana University Simon Comprehensive Cancer Center Indiana University School of Medicine Indianapolis Indiana USA – name: 6 Department of Obstetrics and Gynecology Indiana University School of Medicine Indianapolis Indiana USA – name: 2 Apexian Pharmaceuticals Indianapolis Indiana USA – name: 4 Department of Pediatrics Herman B Wells Center for Pediatric Research, Indiana University School of Medicine Indianapolis Indiana USA – name: 7 Center for Computational Biology and Bioinformatics Indiana University School of Medicine Indianapolis Indiana USA |
| Author_xml | – sequence: 1 givenname: Larissa L. orcidid: 0000-0002-6165-6893 surname: Silva fullname: Silva, Larissa L. organization: Indiana University School of Medicine – sequence: 2 givenname: Robert E. orcidid: 0000-0002-9735-0220 surname: Stratford fullname: Stratford, Robert E. organization: Indiana University School of Medicine – sequence: 3 givenname: Richard orcidid: 0000-0002-2112-0277 surname: Messmann fullname: Messmann, Richard organization: Apexian Pharmaceuticals – sequence: 4 givenname: Mark R. orcidid: 0000-0001-9472-1826 surname: Kelley fullname: Kelley, Mark R. organization: Indiana University School of Medicine – sequence: 5 givenname: Sara K. orcidid: 0000-0002-6554-0695 surname: Quinney fullname: Quinney, Sara K. email: squinney@iu.edu organization: Indiana University School of Medicine |
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| Notes | This work has been presented as a poster/abstract at the 2021 ASCPT Annual Meeting: Silva L, Stratford R, Kelley M, Quinney S. Bridging population pharmacokinetic and physiologically based pharmacokinetic approaches to evaluate APX3330 disposition. American Society for Clinical Pharmacology and Therapeutics Annual Meeting, March, 2021 (virtual). Clinical Pharmacology and Therapeutics 109(S1):PII‐019. ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 |
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| Snippet | APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been... APX3330 ((2E)-2-[(4,5-dimethoxy-2-methyl-3,6-dioxo-1,4-cyclohexadien-1-yl)methylene]-undecanoic acid), a selective inhibitor of APE1/Ref-1, has been... Abstract APX3330 ((2E)‐2‐[(4,5‐dimethoxy‐2‐methyl‐3,6‐dioxo‐1,4‐cyclohexadien‐1‐yl)methylene]‐undecanoic acid), a selective inhibitor of APE1/Ref‐1, has been... |
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| SubjectTerms | Administration, Oral Angiogenesis Inhibitors Cancer Diabetes Diabetic retinopathy Drug dosages Food Humans Hydroquinones Male Metabolism Neoplasms Oxidation Particle size Permeability Pharmacokinetics Physiology Plasma Quinones Small intestine Volunteers |
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| Title | Bridging population pharmacokinetic and semimechanistic absorption modeling of APX3330 |
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