Heeseung Jo scite author profile

This analysis reports a quantitative modeling and simulation approach for oral dapagliflozin, a primarily uridine diphosphate-glucuronosyltransferase (UGT)-metabolized human sodium-glucose cotransporter 2 selective inhibitor. A mechanistic dapagliflozin physiologically based pharmacokinetic (PBPK) model was developed using in vitro metabolism and clinical pharmacokinetic (PK) data and verified for context of use (e.g., exposure predictions in pediatric subjects aged 1 month to 18 years). Dapagliflozin exposure is challenging to predict in pediatric populations owing to differences in UGT1A9 ontogeny maturation and paucity of clinical PK data in younger age groups. Based on the exposure-response relationship of dapagliflozin, twofold acceptance criteria were applied between model-predicted and observed drug exposures and PK parameters (area under the curve and maximum drug concentration) in various scenarios, including monotherapy in healthy adults (single/multiple dose), monotherapy in hepatically or renally impaired patients, and drug-drug interactions with UGT1A9 modulators, such as mefenamic acid and rifampin. The PBPK model captured the observed exposure within twofold of the observed monotherapy data in adults and adolescents and in special population. As a guide to determining dosing regimens in pediatric studies, the verified PBPK model, along with UGT enzyme ontogeny maturation understanding, was used for predictions of dapagliflozin monotherapy exposures in pediatric subjects aged 1 month to 18 years that best matched exposure in adult patients with a 10-mg single dose of dapagliflozin. Dapagliflozin (Farxiga, AstraZeneca Pharmaceuticals LP, Wilmington, DE, USA) is an oral medication developed to treat type 2 diabetes mellitus (T2DM) through selective and reversible inhibition of human sodium-glucose cotransporter 2, the major transporter for renal glucose reabsorption. 1 Dapagliflozin reduces plasma glucose by inhibiting renal glucose reabsorption in the renal proximal tubule to promote glucose urinary excretion. Dapagliflozin 10-mg oral tablet is approved in 89 countries for the treatment of T2DM as monotherapy or in combination with other antidiabetic drugs in adults. 2 Recent evidence shows that dapagliflozin reduces the incidence of cardiovascular events, such as heart failure (HF), with clinically meaningful significance. A large, randomized,

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A Transcriptomic Approach to Elucidate the Mechanisms of Gefitinib-Induced Toxicity in Healthy Human Intestinal Organoids

Rodrigues

Herpers²,

Ferreira

et al. 2022

IJMS

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Gefitinib is a tyrosine kinase inhibitor (TKI) that selectively inhibits the epidermal growth factor receptor (EGFR), hampering cell growth and proliferation. Due to its action, gefitinib has been used in the treatment of cancers that present abnormally increased expression of EGFR. However, side effects from gefitinib therapy may occur, among which diarrhoea is most common, that can lead to interruption of the planned therapy in the more severe cases. The mechanisms underlying intestinal toxicity induced by gefitinib are not well understood. Therefore, this study aims at providing insight into these mechanisms based on transcriptomic responses induced in vitro. A 3D culture of healthy human colon and small intestine (SI) organoids was exposed to 0.1, 1, 10 and 30 µM of gefitinib, for a maximum of three days. These drug concentrations were selected using physiologically-based pharmacokinetic simulation considering patient dosing regimens. Samples were used for the analysis of viability and caspase 3/7 activation, image-based analysis of structural changes, as well as RNA isolation and sequencing via high-throughput techniques. Differential gene expression analysis showed that gefitinib perturbed signal transduction pathways, apoptosis, cell cycle, FOXO-mediated transcription, p53 signalling pathway, and metabolic pathways. Remarkably, opposite expression patterns of genes associated with metabolism of lipids and cholesterol biosynthesis were observed in colon versus SI organoids in response to gefitinib. These differences in the organoids’ responses could be linked to increased activated protein kinase (AMPK) activity in colon, which can influence the sensitivity of the colon to the drug. Therefore, this study sheds light on how gefitinib induces toxicity in intestinal organoids and provides an avenue towards the development of a potential tool for drug screening and development.

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Unravelling Mechanisms of Doxorubicin-Induced Toxicity in 3D Human Intestinal Organoids

Rodrigues

Coyle

Füzi

et al. 2022

IJMS

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Doxorubicin is widely used in the treatment of different cancers, and its side effects can be severe in many tissues, including the intestines. Symptoms such as diarrhoea and abdominal pain caused by intestinal inflammation lead to the interruption of chemotherapy. Nevertheless, the molecular mechanisms associated with doxorubicin intestinal toxicity have been poorly explored. This study aims to investigate such mechanisms by exposing 3D small intestine and colon organoids to doxorubicin and to evaluate transcriptomic responses in relation to viability and apoptosis as physiological endpoints. The in vitro concentrations and dosing regimens of doxorubicin were selected based on physiologically based pharmacokinetic model simulations of treatment regimens recommended for cancer patients. Cytotoxicity and cell morphology were evaluated as well as gene expression and biological pathways affected by doxorubicin. In both types of organoids, cell cycle, the p53 signalling pathway, and oxidative stress were the most affected pathways. However, significant differences between colon and SI organoids were evident, particularly in essential metabolic pathways. Short time-series expression miner was used to further explore temporal changes in gene profiles, which identified distinct tissue responses. Finally, in silico proteomics revealed important proteins involved in doxorubicin metabolism and cellular processes that were in line with the transcriptomic responses, including cell cycle and senescence, transport of molecules, and mitochondria impairment. This study provides new insight into doxorubicin-induced effects on the gene expression levels in the intestines. Currently, we are exploring the potential use of these data in establishing quantitative systems toxicology models for the prediction of drug-induced gastrointestinal toxicity.

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Pharmacokinetics under the COVID‐19 storm

Reddy

El‐Khateeb

et al. 2021

Brit J Clinical Pharma

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 cancer, cirrhosis, and rheumatoid arthritis. Cytokine storms are known to perturb the expression of CYP enzymes, conjugative enzymes, and transporters.  Clinically observed pharmacokinetic data and the effect of race on repurposed COVID-19 drugs in geriatric COVID-19 patients are limited.  There is some knowledge of the effect of intrinsic and extrinsic factors on the disposition of repurposed COVID-19 drugs, but dosing recommendations for patients with a cytokine storm are lacking What this study adds:  A comprehensive summary of ADME, DDI, Adverse Events (AEs) and simulated lung exposure for COVID-19 repurposed drugs  Verified PBPK models that predict changes in drug exposure in various clinical scenarios, guiding dosing information where it is not possible to obtain clinical data , particularly given the COVID-19 pandemic  Simulated plasma and lung tissue exposure of drugs to justify broader recruitment criteria for patients and assess the relevant potency values from in vitro studies for SARS-CoV-2

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Heeseung Jo

Mouse organoids as an in vitro tool to study the in vivo intestinal response to cytotoxicants

Model‐Informed Pediatric Dose Selection for Dapagliflozin by Incorporating Developmental Changes

A Transcriptomic Approach to Elucidate the Mechanisms of Gefitinib-Induced Toxicity in Healthy Human Intestinal Organoids

Unravelling Mechanisms of Doxorubicin-Induced Toxicity in 3D Human Intestinal Organoids

Pharmacokinetics under the COVID‐19 storm

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