Intestinal Metabolism of Diclofenac by Polymorphic <scp>UGT2B17</scp> Correlates with its Highly Variable Pharmacokinetics and Safety across Populations

Ahire, Deepak; Heyward, Scott; Prasad, Bhagwat

doi:10.1002/cpt.2907

Cited by 10 publications

(4 citation statements)

References 44 publications

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“…However, UGT2B17 is highly polymorphic resulting in different expression levels of the encoded protein, 45 which can also be seen in the striking protein levels variability in the liver (CV, 162.6%) and jejunum (CV, 96.7%) as observed in our study. A very recent study has reported that the UGT2B17‐mediated intestinal metabolism of diclofenac correlates with its highly variable pharmacokinetics and safety 46 . Moreover, this genetic variability was discussed to be associated with various types of cancer, that is, genetic UGT2B17‐deletion was identified as risk factor for head, neck, and esophageal cancer, whereas it seems not to be associated with testosterone dependent tumors, such as prostate cancer 47,48 …”

Section: Discussionmentioning

confidence: 99%

“…A very recent study has reported that the UGT2B17mediated intestinal metabolism of diclofenac correlates with its highly variable pharmacokinetics and safety. 46 Moreover, this genetic variability was discussed to be associated with various types of cancer, that is, genetic UGT2B17-deletion was identified as risk factor for head, neck, and esophageal cancer, whereas it seems not to be associated with testosterone dependent tumors, such as prostate cancer. 47,48 With respect to CES, which were shown to be the most abundant of all investigated enzymes in the human intestine and liver, CES1 was significantly higher expressed on gene and protein levels in the liver than in the jejunum, whereas it was the opposite for CES2.…”

Section: Articlementioning

confidence: 99%

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Comparative Intra‐Subject Analysis of Gene Expression and Protein Abundance of Major and Minor Drug Metabolizing Enzymes in Healthy Human Jejunum and Liver

Wenzel,

Lapczuk‐Romanska,

Malinowski

et al. 2023

Clin Pharma and Therapeutics

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First pass metabolism by phase I and phase II‐enzymes in the intestine and liver is a major determinant of the oral bioavailability of many drugs. Several studies analyzed expressions of major drug‐metabolizing enzymes (DMEs) such as CYP3A4 and UGT1A1 in the human gut and liver. However, there is still a lack of knowledge regarding other DMEs, i.e. “minor” DMEs, although several clinically relevant drugs are affected by those enzymes. Moreover, there is very limited intra‐subject data on hepatic and intestinal expression levels of minor DMEs. To fill this gap of knowledge, we analyzed gene expression (qRT‐PCR) and protein abundance (targeted proteomics) of 24 clinically relevant DMEs, i.e. carboxylesterases (CES), UDP‐glucuronosyltransferases (UGT) and cytochrome P450 (CYP)‐enzymes. We performed our analysis using jejunum and liver tissue specimens from the same 11 healthy organ donors (8 males, 3 females, aged 19‐60 y). Protein amounts of all investigated DMEs, with the exception of CYP4A11, were detected in human liver samples. CES2, CYP2C18, CYP3A4 and UGT2B17 protein abundance was similar or even higher in the jejunum, and all other DMEs were found in higher amounts in the liver. Significant correlations between gene expression and protein levels were observed only for 2 of 15 jejunal, but 13 of 23 hepatic DMEs. Intestinal and hepatic protein amounts only significantly correlated for CYP3A4 and UGT1A3. Our results demonstrated a notable variability between the individuals, which was even higher in the intestine than in the liver. Our intra‐subject analysis of DMEs in the jejunum and liver from healthy donors may be useful for PBPK‐based modelling and prediction in order to improve efficacy and safety of oral drug therapy.

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Section: Discussionmentioning

confidence: 99%

Section: Articlementioning

confidence: 99%

Comparative Intra‐Subject Analysis of Gene Expression and Protein Abundance of Major and Minor Drug Metabolizing Enzymes in Healthy Human Jejunum and Liver

Wenzel,

Lapczuk‐Romanska,

Malinowski

et al. 2023

Clin Pharma and Therapeutics

View full text Add to dashboard Cite

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“…Considering the cardiotoxicity risk of diclofenac, proteomics-informed PBPK modeling suggests that the diclofenac dose should be decreased in women and the carriers of UGT2B17 gene deletion. 18 Similarly, quantitative proteomics is useful in the discovery and quantification of efficacy biomarkers. For example, warfarin is a narrow therapeutic index drug that requires stratification of subjects based on the levels of descarboxylated prothrombin.…”

Section: Quantitative Proteomics In Translational Pharmacology (B Pra...mentioning

confidence: 99%

“…UGT2B17 gene deletion carriers and women are vulnerable to slower metabolism and increased bioavailability of diclofenac. Considering the cardiotoxicity risk of diclofenac, proteomics‐informed PBPK modeling suggests that the diclofenac dose should be decreased in women and the carriers of UGT2B17 gene deletion 18 . Similarly, quantitative proteomics is useful in the discovery and quantification of efficacy biomarkers.…”

Section: Introductionmentioning

confidence: 99%

Experimental pharmacology in precision medicine

Urbaniak,

Thummel,

Alade

et al. 2023

Pharmacology Res & Perspec

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Developmental Expression of Drug Transporters and Conjugating Enzymes Involved in Enterohepatic Recycling: Implication for Pediatric Drug Dosing

Thakur,

Subash,

Ahire

et al. 2024

Clin Pharma and Therapeutics

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Around 50% of the drugs used in children have never been tested for safety and efficacy in this vulnerable population. Immature drug elimination pathways can lead to drug toxicity when pediatric doses are determined using empirical methods such as body‐surface area or body‐weight‐normalized adult dosing. In the absence of clinical data, physiologically‐based pharmacokinetic (PBPK) modeling has emerged as a useful tool to predict drug pharmacokinetics in children. These models utilize developmental physiological data, including age‐dependent differences in the abundance of drug‐metabolizing enzymes and transporters (DMET), to mechanistically extrapolate adult pharmacokinetic data to children. The reported abundance data of hepatic DMET proteins in subcellular fractions isolated from frozen tissue are prone to high technical variability. Therefore, we carried out the proteomics‐based quantification of hepatic drug transporters and conjugating enzymes in 50 pediatric and 8 adult human hepatocyte samples. Out of the 34 studied proteins, 28 showed a significant increase or decrease with age. While MRP6, OAT7, and SULT1E1 were highest in < 1‐year‐old samples, the abundance of P‐gp and UGT1A4 was negligible in < 1‐year‐old samples and increased significantly after 1 year of age. Incorporation of the age‐dependent abundance data in PBPK models can help improve pediatric dose prediction, leading to safer drug pharmacotherapy in children.

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Intestinal Metabolism of Diclofenac by Polymorphic UGT2B17 Correlates with its Highly Variable Pharmacokinetics and Safety across Populations

Cited by 10 publications

References 44 publications

Comparative Intra‐Subject Analysis of Gene Expression and Protein Abundance of Major and Minor Drug Metabolizing Enzymes in Healthy Human Jejunum and Liver

Comparative Intra‐Subject Analysis of Gene Expression and Protein Abundance of Major and Minor Drug Metabolizing Enzymes in Healthy Human Jejunum and Liver

Experimental pharmacology in precision medicine

Developmental Expression of Drug Transporters and Conjugating Enzymes Involved in Enterohepatic Recycling: Implication for Pediatric Drug Dosing

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