Your search keyword '"caco-2 cells"' showing total 552 results

1. AURA: Accelerating drug discovery with accuracy, utility, and rank-order assessment for data-driven decision making

Author

Price, Edward, Saulnier, Virginia, Kalvass, John Cory, Doktor, Stella, Weinheimer, Manuel, Hassan, Majdi, Scholz, Spencer, Nijsen, Marjoleen, and Jenkins, Gary

Published

2024

2. Contributions of multiple transport mechanisms to intestinal uptake of serotonin.

Author

Asaji, Suguru, Funai, Yuta, Seki, Yuta, Tamai, Ikumi, and Shirasaka, Yoshiyuki

Subjects

*ORGANIC cation transporters, *INTESTINAL absorption, *IN vitro studies, *SEROTONIN, *INTESTINES, *GASTROINTESTINAL system

Abstract

This study aimed to analyze the contributions of multiple transport mechanisms to the intestinal uptake of serotonin (5-HT) by employing a variety of in vitro experimental techniques, focusing on organic cation transporters expressed in the gastrointestinal (GI) tract, such as SERT, PMAT, THTR2, OCT3, and OCTN2. Analysis of the concentration dependence of 5-HT uptake by Caco-2 cells revealed multi-affinity kinetics with high-affinity and low-affinity components, suggesting that multiple transporters are involved in the intestinal 5-HT uptake. Comparative analysis of transporters using K m values obtained in Xenopus oocyte expression systems suggested that SERT is responsible for the high-affinity transport, while PMAT, THTR2, and OCT3 contribute to the low-affinity transport. Further analysis indicated that the relative contributions of SERT and PMAT to the intestinal 5-HT uptake (0.01 µM) are approximately 94.9% and 1.1%, respectively. Interestingly, at the concentration of 10 µM, the reported steady-state concentration of 5-HT in the human colon, the contributions of SERT, PMAT, THTR2, and OCT3 were estimated to be approximately 37.0%, 1.0%, 18.2%, and 20.5%, respectively. In conclusion, the present study indicated that the contributions of multiple transporters to 5-HT uptake in the GI tract are dependent upon the colon luminal concentration of 5-HT. [ABSTRACT FROM AUTHOR]

Published

2024

3. Possible Regulation of P-Glycoprotein Function by Adrenergic Agonists II: Study with Isolated Rat Jejunal Sheets and Caco-2 Cell monolayers.

Author

Mukai, Hironori, Takanashi, Masashi, Ogawara, Ken-ichi, Maruyama, Masato, and Higaki, Kazutaka

Subjects

*ADRENERGIC agonists, *BRUSH border membrane, *CELL sheets (Biology), *BETA adrenoceptors, *P-glycoprotein, *ENTERIC nervous system, *MONOMOLECULAR films

Abstract

To clarify the regulation of drug absorption by the enteric nervous system, we investigated how adrenergic agonists (adrenaline (ADR), clonidine (CLO), dobutamine (DOB)) and dibutyryl cAMP (DBcAMP) affected P-glycoprotein (P-gp) function by utilizing isolated rat jejunal sheets and Caco-2 cell monolayers. ADR and CLO significantly decreased the secretory transport (P app total) of rhodamine-123 and tended to decrease the transport via P-gp (P app P − gp) and passive transport (P app passive). In contrast, DBcAMP significantly increased and DOB tended to increase P app total and both tended to increase P app P − gp and P app passive. Changes in P-gp expression on brush border membrane by adrenergic agonists and DBcAMP were significantly correlated with P app P − gp , while P-gp expression was not changed in whole cell homogenates, suggesting that the trafficking of P-gp would be responsible for its functional changes. P app passive was inversely correlated with transmucosal or transepithelial electrical resistance, indicating that adrenergic agonists affected the paracellular permeability. Adrenergic agonists also changed cAMP levels, which were significantly correlated with P app P − gp. Furthermore, protein kinase A (PKA) or PKC inhibitor significantly decreased P app P − gp in Caco-2 cell monolayers, suggesting that they would partly contribute to the changes in P-gp activity. In conclusion, adrenergic agonists regulated P-gp function and paracellular permeability, which would be caused via adrenoceptor stimulation. [ABSTRACT FROM AUTHOR]

Published

2024

4. Evaluation of Function and Features of Human Induced Pluripotent Stem Cell-Derived Small Intestinal Epithelial Cells for Analyzing Peptide Drug Intestinal Absorption Profiles.

Author

Itagaki, Mai, Kamei, Noriyasu, and Takeda-Morishita, Mariko

Subjects

*PEPTIDE drugs, *INTESTINAL absorption, *DRUG absorption, *EPITHELIAL cells, *INTESTINES, *EXENATIDE

Abstract

Caco-2 cell monolayers are widely employed as an in vitro model of the intestinal barrier, capable of accurately predicting the absorption of conventional small-molecule drugs. However, this model may not be applicable to all drugs, and the accuracy of absorption prediction is typically poor for high molecular weight drugs. Recently, human induced pluripotent stem (iPS) cell-derived small intestinal epithelial cells (hiPSC-SIECs), exhibiting properties similar to those of the small intestine when compared with Caco-2 cells, have been developed and are considered a novel candidate model for in vitro evaluation of intestinal drug permeability. Therefore, we evaluated the utility of human hiPSC-SIECs as a new in vitro model to predict the intestinal absorption of middle-molecular weight drugs and peptide drugs. Firstly, we showed that the hiPSC-SIEC monolayer allowed faster transport of peptide drugs (insulin and glucagon-like peptide-1) than the Caco- 2 cell monolayer. Second, we revealed that hiPSC-SIECs require divalent cations (Mg2+ and Ca2+) to maintain barrier integrity. Third, we demonstrated that experimental conditions established for Caco-2 cells are not persistently applicable to hiPSC-SICEs when analyzing absorption enhancers. Comprehensively clarifying the features of hiPSC-SICEs is essential to establish a new in vitro evaluation model. [ABSTRACT FROM AUTHOR]

Published

2023

5. Bridging the gap between in vitro and in vivo solubility-permeability interplay.

Author

Oikawa M, Matsuura S, Okudaira T, Ito R, Arima K, Fushimi M, Oda T, Ohyama K, and Kawakami K

Subjects

Animals, Dogs, Mice, Administration, Oral, Male, Cyclodextrins chemistry, Humans, Drug Carriers chemistry, Caco-2 Cells, Solubility, Permeability, Dexamethasone administration & dosage, Dexamethasone pharmacokinetics, Dexamethasone chemistry, Dexamethasone pharmacology, Intestinal Absorption drug effects

Abstract

Use of solubilization carriers for poorly soluble drugs may disturb transmembrane absorption by lowering the activity of drug molecules, which is known as the solubility-permeability interplay. However, although many in vitro studies have indicated the negative impacts of use of solubilization carriers for oral absorption, in vivo studies that showed the interplay effect are limited. This study provides systematic in vitro, in situ, and in vivo investigation of the interplay effect of cyclodextrin using dexamethasone as a model drug. The evaluation methods included permeation through polymeric, artificial lipid, cell, and intestinal closed-loop membranes. Then, the results were compared with oral administration studies in mice and dogs. Although the interplay effect was clearly observed in the in vitro studies, no obvious interplay was found in the in vivo studies, suggesting that the interplay effect is more prominent in the in vitro permeation studies. Absence of in vivo interplay was attributed to the dilution effect in the gastrointestinal tract, interaction of the drug with living components, and clearance of the drug after membrane permeation. Overall, this investigation clearly demonstrated the applicability and limitations of in vitro permeation studies for predicting the interplay effects of solubilizers after the oral administration., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published

2025

6. Impact of surfactants on solution behavior and membrane transport of amorphous solid dispersions.

Author

Alhalaweh A, Sayed ME, Kovac L, and Bergström CAS

Subjects

Caco-2 Cells, Humans, Vitamin E chemistry, Polyethylene Glycols chemistry, Crystallization, Excipients chemistry, Chemistry, Pharmaceutical methods, Surface-Active Agents chemistry, Solubility, Polysorbates chemistry, Sodium Dodecyl Sulfate chemistry

Abstract

The purpose of the study was to develop an amorphous solid dispersion (ASD) of a poorly soluble compound (AK100) and investigate the impact of different surfactants on its dissolution, supersaturation and membrane transport. The solubility of the AK100 was determined in crystalline and amorphous form in the absence and presence of three surfactants at different concentrations: sodium dodecyl sulphate (SDS), polysorbate 80 (PS80) and D-α-tocopherol polyethylene glycol succinate (TPGS). The relation between solubility and surfactant solubilization was evaluated using a computational model. The ASD powder was prepared by solvent evaporation for non-sink dissolution experiments with and without the pre-dissolved surfactants. A transport study with Caco-2 cells was conducted to evaluate the impact of surfactants-based formulation on membrane transport. Both the corresponding crystalline and amorphous solubility of AK100 increased linearly as a function of the surfactant concentrations. The supersaturation was maintained for at least three hours in absence of surfactant and in presence of TPGS, whereas supersaturation declined with SDS and PS80. As expected, the membrane flux of the AK100 was higher for the ASD than for the crystalline powder, and further increased with increased concentration of TPGS. The supersaturation ratio based on the activity-based calculation from Caco-2 cells study was always higher than that of the concentration-based one for the amorphous and crystalline forms of AK100. This study shows how additional solubilizing excipients during formulation development can improve the resulting dissolution and phase behavior of supersaturated drug solution., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2025

7. Minimal Involvement of P-gp and BCRP in Oral Absorption of Ensitrelvir, An Oral SARS-CoV-2 3C-like Protease Inhibitor, in a Non-Clinical Investigation.

Author

Watari R, Tamura N, Yoshida S, Kido Y, and Matsuzaki T

Subjects

Animals, Administration, Oral, Humans, Mice, Rats, Male, Biological Availability, Drug Interactions, Protease Inhibitors pharmacokinetics, Protease Inhibitors administration & dosage, Protease Inhibitors pharmacology, Caco-2 Cells, Rats, Sprague-Dawley, Dogs, Neoplasm Proteins metabolism, Neoplasm Proteins antagonists & inhibitors, COVID-19 Drug Treatment, Macaca fascicularis, Madin Darby Canine Kidney Cells, Indazoles, Triazines, Triazoles, ATP Binding Cassette Transporter, Subfamily G, Member 2 metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 metabolism, ATP Binding Cassette Transporter, Subfamily B, Member 1 antagonists & inhibitors, Mice, Knockout

Abstract

P-glycoprotein (P-gp) and breast cancer resistance protein (BCRP) are important transporters causing drug-drug interaction (DDI). Here, we investigated the involvement of P-gp and BCRP in the oral absorption of ensitrelvir in non-clinical studies and estimated the DDI risk mediated by P-gp and BCRP inhibition in humans. Although ensitrelvir is an in vitro P-gp and BCRP substrate, it demonstrated high bioavailability in rats and monkeys after oral administration. Plasma exposures of ensitrelvir following oral administration were comparable in wild type (WT) and Bcrp (-/-) mice. On the other hand, the area under the plasma concentration-time curve (AUC) ratio of ensitrelvir in the Mdr1a/1b (-/-) mice to the WT mice was 1.92, indicating that P-gp, but not BCRP, was involved in the oral absorption of ensitrelvir. Based on our previous retrospective analyses, such a low AUC ratio (<3) in the Mdr1a/1b (-/-) mice indicates a minimal impact of P-gp on the oral absorption in humans. In conclusion, our studies demonstrate that the involvement of both P-gp and BCRP in the oral absorption of ensitrelvir is minimal, and suggest that ensitrelvir has a low risk for DDIs mediated by P-gp and BCRP inhibition in humans., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published

2024

8. Antioxidants had No Effects on the In-Vitro Permeability of BCS III Model Drug Substances.

Author

Lu D, Rege B, Raw A, Yang J, Alam K, Bode C, Zhao L, Faustino P, Wu F, Shakleya D, Nickum E, Li BV, Wang R, Stier E, Miezeiewski B, Patel R, Boam A, Lionberger R, Keire D, and Yu L

Subjects

Humans, Caco-2 Cells, Intestinal Absorption drug effects, Therapeutic Equivalency, Ascorbic Acid pharmacology, Pharmaceutical Preparations metabolism, Pharmaceutical Preparations chemistry, alpha-Tocopherol pharmacology, Solubility, Cysteine chemistry, Administration, Oral, Antioxidants pharmacology, Antioxidants pharmacokinetics, Permeability drug effects

Abstract

Reformulation with addition of antioxidants is one potential mitigation strategy to prevent or reduce nitrosamine drug substance-related impurities (NDSRIs) in drug products. To explore whether there could be other approaches to demonstrate bioequivalence for a reformulated oral product, which typically needs in vivo bioequivalence studies to support the changes after approval, the effects of antioxidant on the in vitro permeability of BCS III model drug substances were investigated to see whether there could be any potential impact on drug absorption. Six antioxidants were screened and four (ascorbic acid, cysteine, α-tocopherol and propyl gallate) were selected based on their nitrosamine inhibition efficiencies. The study demonstrated that these four antioxidants, at the tested amounts, did not have observable impact on the in vitro permeability of the BCS III model drug substances across Caco-2 cell monolayers in the In Vitro Dissolution Absorption System (IDAS). An in vitro permeability study could be considered as part of one potential bioequivalence bridging approach for reformulated low-risk immediate release solid oral products and oral suspension products. Other factors such as the influence of antioxidants on intestinal transporter activities should be considered where appropriate., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 American Pharmacists Association. All rights reserved.)

Published

2024

9. Comparison of Cellular Monolayers and an Artificial Membrane as Absorptive Membranes in the in vitro Lipolysis-permeation Assay.

Author

Keemink, Janneke, Hedge, Oliver J., Bianco, Valentina, Hubert, Madlen, and Bergström, Christel A.S.

Subjects

*ARTIFICIAL membranes, *LIPOLYSIS, *MONOMOLECULAR films, *SMALL intestine, *FENOFIBRATE, *SUPERSATURATION, *LIGHT scattering

Abstract

Permeation across Caco-2 cells in lipolysis-permeation setups can predict the rank order of in vivo drug exposure obtained with lipid-based formulations (LBFs). However, Caco-2 cells require a long differentiation period and do not capture all characteristics of the human small intestine. We therefore evaluated two in vitro assays with artificial lecithin-in-dodecane (LiDo) membranes and MDCK cells as absorptive membranes in the lipolysis-permeation setup. Fenofibrate-loaded LBFs were used and the results from the two assays compared to literature plasma concentrations in landrace pigs administered orally with the same formulations. Aqueous drug concentrations, supersaturation, and precipitation were determined in the digestion chamber and drug permeation in the receiver chamber. Auxiliary in vitro parameters were assessed, such as permeation of the taurocholate, present in the simulated intestinal fluid used in the assay, and size of colloidal structures in the digestion medium over time. The LiDo membrane gave a similar drug distribution as the Caco-2 cells and accurately reproduced the equivalent rank-order of fenofibrate exposure in plasma. Permeation of fenofibrate across MDCK monolayers did not, however, reflect the in vivo exposure rankings. Taurocholate flux was negligible through either membrane. This process was therefore not considered to significantly affect the in vitro distribution of fenofibrate. We conclude that the artificial LiDo membrane is a promising tool for lipolysis–permeation assays to evaluate LBF performance. [ABSTRACT FROM AUTHOR]

Published

2022

10. In Vitro Metabolism and Stability of the Actinide Chelating Agent 3,4,3‐LI(1,2‐HOPO)

Author

Choi, Taylor A, Furimsky, Anna M, Swezey, Robert, Bunin, Deborah I, Byrge, Patricia, Iyer, Lalitha V, Chang, Polly Y, and Abergel, Rebecca J

Subjects

Pharmacology and Pharmaceutical Sciences, Biomedical and Clinical Sciences, Rare Diseases, Digestive Diseases, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Actinoid Series Elements, Animals, Caco-2 Cells, Chelating Agents, Dogs, Drug Stability, Female, Heterocyclic Compounds, 1-Ring, Humans, Male, Mice, Microsomes, Liver, Pyridones, Rats, chelation therapy, stability, microsomes, ADME, protein binding, cytochrome P450, intestinal absorption, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences

Abstract

The hydroxypyridinonate ligand 3,4,3-LI(1,2-HOPO) is currently under development for radionuclide chelation therapy. The preclinical characterization of this highly promising ligand comprised the evaluation of its in vitro properties, including microsomal, plasma, and gastrointestinal fluid stability, cytochrome P450 inhibition, plasma protein binding, and intestinal absorption using the Caco-2 cell line. When mixed with active human liver microsomes, no loss of parent compound was observed after 60 min, indicating compound stability in the presence of liver microsomal P450. At the tested concentrations, 3,4,3-LI(1,2-HOPO) did not significantly influence the activities of any of the cytochromal isoforms screened. Thus, 3,4,3-LI(1,2-HOPO) is unlikely to cause drug-drug interactions by inhibiting the metabolic clearance of coadministered drugs metabolized by these enzymes. Plasma protein-binding assays revealed that the compound is protein-bound in dogs and less extensively in rats and humans. In the plasma stability study, the compound was stable after 1 h at 37°C in mouse, rat, dog, and human plasma samples. Finally, a bidirectional permeability assay demonstrated that 3,4,3-LI(1,2-HOPO) is not permeable across the Caco-2 monolayer, highlighting the need to further evaluate the effects of various compounds with known permeability enhancement properties on the permeability of the ligand in future studies.

Published

2015

11. Proteomics-Informed Identification of Luminal Targets For In Situ Diagnosis of Inflammatory Bowel Disease.

Author

Asad, Shno, Wegler, Christine, Ahl, David, Bergström, Christel A.S., Phillipson, Mia, Artursson, Per, and Teleki, Alexandra

Subjects

*INFLAMMATORY bowel diseases, *BLOOD proteins, *MEMBRANE proteins, *COLON (Anatomy), *BIOMARKERS, *DEXTRAN sulfate

Abstract

Inflammatory bowel disease (IBD) is a chronic condition resulting in impaired intestinal homeostasis. Current practices for diagnosis of IBD are challenged by invasive, demanding procedures. We hypothesized that proteomics analysis could provide a powerful tool for identifying clinical biomarkers for non-invasive IBD diagnosis. Here, the global intestinal proteomes from commonly used in vitro and in vivo models of IBD were analyzed to identify apical and luminal proteins that can be targeted by orally delivered diagnostic agents. Global proteomics analysis revealed upregulated plasma membrane proteins in intestinal segments of proximal- and distal colon from dextran sulfate sodium-treated mice and also in inflamed human intestinal Caco-2 cells pretreated with pro-inflammatory agents. The upregulated colon proteins in mice were compared to the proteome of the healthy ileum, to ensure targeting of diagnostic agents to the inflamed colon. Promising target proteins for future investigations of non-invasive diagnosis of IBD were found in both systems and included Tgm2/TGM2, Icam1/ICAM1, Ceacam1/CEACAM1, and Anxa1/ANXA1. Ultimately, these findings will guide the selection of appropriate antibodies for surface functionalization of imaging agents aimed to target inflammatory biomarkers in situ. [ABSTRACT FROM AUTHOR]

Published

2021

12. A Tribute to Professor Per Artursson - Scientist, Explorer, Mentor, Innovator, and Giant in Pharmaceutical Research.

Author

Matsson, Pär, Baranczewski, Pawel, Giacomini, Kathleen M., Andersson, Tommy B., Palm, Johan, Palm, Katrin, Charman, William N., and Bergström, Christel A.S.

Subjects

*SCIENTISTS, *INTESTINAL absorption, *MENTORS, *DRUGS, *COLLEGE teachers, *GENERIC drugs

Abstract

This issue of the Journal of Pharmaceutical Sciences is dedicated to Professor Per Artursson and the groundbreaking contributions he has made and continues to make in the Pharmaceutical Sciences. Per is one of the most cited researchers in his field, with more than 30,000 citations and an h-index of 95 as of September 2020. Importantly, these citations are distributed over the numerous fields he has explored, clearly showing the high impact the research has had on the discipline. We provide a short portrait of Per, with emphasis on his personality, driving forces and the inspirational sources that shaped his career as a world-leading scientist in the field. He is a curious scientist who deftly moves between disciplines and has continued to innovate, expand boundaries, and profoundly impact the pharmaceutical sciences throughout his career. He has developed new tools and provided insights that have significantly contributed to today's molecular and mechanistic approaches to research in the fields of intestinal absorption, cellular disposition, and exposure-efficacy relationships of pharmaceutical drugs. We want to celebrate these important contributions in this special issue of the Journal of Pharmaceutical Sciences in Per's honor. [ABSTRACT FROM AUTHOR]

Published

2021

13. Per Artursson's Major Contributions to the Caco-2 Cell Literature in Pharmaceutical Sciences.

Author

Brayden, David J.

Subjects

*SCIENTIFIC literature, *TIGHT junctions, *ENTEROCYTES, *SCIENTISTS, *CELLS, *SMALL intestine

Abstract

This edition of the Journal of Pharmaceutical Sciences is dedicated to the wonderful career of Per Artursson from the Uppsala University. My Commentary focusses on Per's major contributions to the Caco-2 cell literature over the past 30 years. Two especially influential papers have been cited more than 1000 times out of a total citation count of almost 30,000 and a h -index of 93 (Google Scholar), making Per one of the most cited and influential Pharmaceutical scientists of his generation. The Caco-2 field to which Per contributed so many advances has informed the community on key areas including predictive drug fluxes across the intestine, metabolism by intestinal epithelia, the role of transporters during flux, enantiomer-selective flux, excipient interaction with tight junctions, and nanoparticle uptake by enterocytes. In this pioneering work, Per has been careful to emphasise that Caco-2 monolayers have limitations and are a model of the human small intestine where observations must be backed up with in vitro tissue and in vivo work. Throughout, he has paid great attention to detail in methodology, as reflected by co-authorship of two Nature Protocols on Caco-2 assays. The article briefly assesses some of the most important milestones in Per's published Caco-2 research. [ABSTRACT FROM AUTHOR]

Published

2021

14. Design and Investigation of Penetrating Mechanism of Octaarginine-Modified Alginate Nanoparticles for Improving Intestinal Insulin Delivery.

Author

Li, Manman, Sun, Yusheng, Ma, Chenjun, Hua, Yingying, Zhang, Liefeng, and Shen, Jian

Subjects

*INSULIN, *ALGINIC acid, *STEARIC acid, *PROTEIN drugs, *EXPERIMENTAL design, *NANOPARTICLES, *ARGININE

Abstract

The aim of the study is to design octaarginine (R8)-modified insulin-alginate nanoparticles (INS-SA/R8 NPs) as the oral insulin delivery system, and further investigate its penetrating mechanism. The characterization results indicated that the surface of INS-SA/R8 NPs was smooth and the average diameter was about 300 nm. INS-SA/R8 NPs exhibited a stronger stability in the simulated gastrointestinal fluids and had a better controlled release than unmodified alginate nanoparticles (INS-SA NPs). Moreover, INS-SA/R8 NPs group had the strongest insulin transport capacity and the largest amount of insulin uptake in all experimental groups. Most importantly, the improvement of insulin intestinal uptake was further confirmed in rat intestine in vivo , and its penetrating mechanism might be involved in the production of endogenous nitric oxide (NO) signal molecule. In addition, in vivo hypoglycemic studies showed that orally administrated INS-SA/R8 NPs produced a better hypoglycemic effect as compared with INS-SA NPs in diabetic rats. Meanwhile, from the cytotoxicity analysis, INS-SA/R8 NPs were safe for oral administration. Taken together, INS-SA/R8 NPs was a good oral insulin delivery system, which might also be suitable for other protein drugs. [ABSTRACT FROM AUTHOR]

Published

2021

15. Formulation and Bioequivalence Testing of Fixed-Dose Combination Orally Disintegrating Tablets for the Treatment of Tuberculosis in the Paediatric Population.

Author

Dennison, Thomas J., Smith, Julian C., Badhan, Raj K.S., and Mohammed, Afzal R.

Subjects

*TUBERCULOSIS, *PATIENT compliance, *RIFAMPIN, *BIOAVAILABILITY, *ITRACONAZOLE

Abstract

Tuberculosis (TB) is believed to affect around 10 million people worldwide. Treatment for TB includes isoniazid and rifampicin, with fixed-dose combination (FDC) recommended for improved patient compliance. Similarly, orally disintegrating tablets (ODTs) are an increasingly popular dosage form that aid compliance since they do not require swallowing. In this study ODTs of isoniazid and rifampicin, either as discrete or FDC doses, were formulated and bioequivalence between single and combination doses compared using in vitro and in silico approaches. Dissolution profiles were compared using FDA advised difference (f 1) and similarity (f 2) testing in biorelevant media. Rifampicin release from FDCs decreased by approximately 15% in fed-state media (failed f 1 and f 2), which was attributed to enhanced rifampicin degradation in the presence of isoniazid at lower pH. Apparent permeability (P app) values derived from Caco-2 transport studies were included alongside dissolution results into a physiologically based pharmacokinetic (PBPK) model, to simulate in vivo bioavailability in healthy subjects. Models showed no difference in bioavailability between formulations or dosing (fasted or fed) state, despite the failures in dissolution-based bioequivalence testing, highlighting shortcomings in f 1 and f 2 assessment and the strength of PBPK models. [ABSTRACT FROM AUTHOR]

Published

2020

16. Evaluation of Cytotoxicity of Self-Emulsifying Formulations Containing Long-Chain Lipids Using Caco-2 Cell Model: Superior Safety Profile Compared to Medium-Chain Lipids.

Author

Desai, Heta H., Bu, Pengli, Shah, Ankita V., Cheng, Xingguo, and Serajuddin, Abu T.M.

Subjects

*LIPIDS, *DRUG delivery systems, *LACTATE dehydrogenase, *CELL membranes, *MEMBRANE lipids

Abstract

Medium-chain (MC) and long-chain (LC) lipids are used for development of self-emulsifying drug delivery systems (SEDDS). MC lipids are often preferred because of their ability to form stable microemulsions with relatively high drug solubilization capacity. On the other hand, LC lipids could be more biocompatible as most endogenous and dietary lipids are LC glycerides. They also maintain high drug solubilization capacity after digestion. The present study was undertaken to determine the cytotoxicity of LC lipids and their formulations on Caco-2 cells of 1-day, 5-day, and 21-day maturity. The results were compared with the cytotoxicity profiles of MC lipids reported previously from our laboratory. The cell viability and cell membrane integrity were, respectively, determined using the 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay and the lactate dehydrogenase assay. The cytotoxicity was partially due to lipid surfactant-induced membrane rupture, and it was influenced by cell maturity and formulation composition. The lipid-surfactant combinations showed greater tolerance than surfactants alone, and LC-SEDDS were well-tolerated at almost 10-fold higher concentration than corresponding MC-SEDDS. Furthermore, the cytotoxicity of digestion end products of both LC and MC triglycerides in the presence of 3 mM sodium taurocholate was compared on 21-day Caco-2 cultures by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay. The LC lipid formulations showed better tolerance than MC lipid formulations after digestion. Thus, although MC and LC lipids are well-tolerated at doses normally administered to humans, LC lipids show much better safety than MC lipids in a cell-culture model. [ABSTRACT FROM AUTHOR]

Published

2020

17. Colon Targeted Eudragit Coated Beads Loaded with Optimized Fluvastatin-Scorpion Venom Conjugate as a Potential Approach for Colon Cancer Therapy: In Vitro Anticancer Activity and In Vivo Colon Imaging

Author

Osama A.A. Ahmed, Shaimaa M. Badr-Eldin, Giuseppe Caruso, Usama A. Fahmy, Waleed S. Alharbi, Alshaimaa M. Almehmady, Shareefa A. Alghamdi, Nabil A. Alhakamy, Amir I. Mohamed, Hibah M. Aldawsari, and Fatma M. Mady

Subjects

Alginates, Colonic Neoplasms, Humans, Scorpion Venoms, Pharmaceutical Science, Nanoconjugates, Caco-2 Cells, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Fluvastatin

Abstract

Preclinical studies suggest that most of statins or 3‑hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors possess pleiotropic anticancer activity. The aim of the present work was to investigate the conjugation of the statin fluvastatin (FLV) with scorpion venom (SV), a natural peptide with proven anticancer properties, to enhance FLV cytotoxic activity and prepare colon targeted FLV-SV nanoconjugate beads for management of colon cancer. Response surface design was applied for the optimization of FLV-SV nanoconjugates. FLV-SV particle size and zeta potential were selected as responses. Cytotoxicity of optimized FLV-SV nanoconjugates was carried out on Caco2 cell line. Colon targeted alginate coated Eudragit S100 (ES100) beads for the optimized formula were prepared with the utilization of barium sulfate (BaSO4) as radiopaque contrast substance. Results revealed that optimized FLV-SV nanoconjugates showed a size of 71.21 nm, while the zeta potential was equal to 29.13 mV. Caco2 cells were considerably more sensitive to the FLV-SV formula (half-maximal inhibitory concentration (IC50) = 11.91 µg/mL) compared to SV and FLV used individually, as shown by values of IC50 equal to 30.23 µg/mL and 47.68 µg/mL, respectively. In vivo imaging of colon targeted beads, carried out by employing real-time X-ray radiography, confirmed the efficiency of colon targeted beads. Overall our results indicate that the optimized FLV-SV nanoconjugate loaded alginate coated ES100 beads could represent a promising approach for colon cancer with efficient colon targeting ability.

Published

2022

18. PAMAM Dendrimers: A Review of Methodologies Employed in Biopharmaceutical Classification

Author

Felipe Guizze, Cristina Helena Reis Serra, and Jeanine Giarolla

Subjects

Biological Products, Dendrimers, NANOTECNOLOGIA, Humans, Pharmaceutical Science, Membranes, Artificial, Caco-2 Cells

Abstract

The oral route is the preferred way of drug administration for most drugs, whose treatment success is directly related to the compound intestinal absorption. This absorption process, in its turn, is influenced by several factors impacting the drug bioavailability, which is extremely dependent on the maximum solubility and permeability. However, optimizing these last two factors, without chemical structural modification, is challenging. Although poly(amidoamine) dendrimers (PAMAM) are an innovative and promising strategy as drug delivery compounds, there are few studies that determine the permeability and solubility of PAMAM-drugs derivatives. Considering this scenario, this paper aimed to carry out a literature review of the last five years concerning biopharmaceutical characterizations of dendrimer delivery systems. In vitro methodologies, such as the Parallel artificial membrane permeability assay (PAMPA) (non-cellular based model) and Caco-2 cells (cellular based model), used for the permeability evaluation in the early stages of drug discovery proved to be the most promising methodologies. As a result, we discussed, for instance, that through the usage of PAMPA it was possible to evaluate the higher capacity for transdermal delivery of DNA of TAT-conjugated PAMAM, when in comparison with unmodified PAMAM dendrimer with a P0.05. We also presented the importance of choosing the best methods of biopharmaceutical characterization, which will be essential to guarantee the efficacy and safety of the drug candidate.

Published

2022

19. In Silico Predictions of the Gastrointestinal Uptake of Macrocycles in Man Using Conformal Prediction Methodology

Author

Urban Fagerholm, Sven Hellberg, Jonathan Alvarsson, and Ola Spjuth

Subjects

Intestinal Absorption, Pharmaceutical Preparations, Solubility, Administration, Oral, Humans, Pharmaceutical Science, Computer Simulation, Caco-2 Cells, Models, Biological, Permeability

Abstract

The gastrointestinal uptake of macrocyclic compounds is not fully understood. Here we applied our previously validated integrated system based on machine learning and conformal prediction to predict the passive fraction absorbed (f

Published

2022

20. Improving Eflornithine Oral Bioavailability and Brain Uptake by Modulating Intercellular Junctions With an E-cadherin Peptide.

Author

Yang, Sihyung, Chen, Yao, Feng, Mei, Rodriguez, Larry, Wu, Judy Qiju, and Wang, Michael Zhuo

Subjects

*BIOAVAILABILITY, *CELL junctions, *AFRICAN trypanosomiasis, *CEREBROSPINAL fluid, *BLOOD-brain barrier, *INTRAVENOUS therapy, *SKIN permeability, *CEREBROSPINAL fluid examination

Abstract

Eflornithine has been used to treat second-stage human African trypanosomiasis. However, it has inadequate oral bioavailability and low blood-brain barrier permeation, thus requiring a lengthy and complicated intravenous infusion schedule. Here, we investigated the feasibility of using an intercellular junction-modulating E-cadherin peptide HAV6 to enhance the oral bioavailability and blood-brain barrier permeation of eflornithine. Eflornithine was not metabolized in liver microsomes, nor was it a substrate for the human efflux transporter P-glycoprotein. Furthermore, HAV6 and HAV6scr (sequence scrambled HAV6) were stable in simulated gastric fluid with pepsin and rat intestinal mucosal scrapings. Both peptides were stable in human plasma, albeit less stable in rat and mouse plasma. HAV6 increased eflornithine permeability across Madin-Darby canine kidney and Caco-2 cell monolayers (5- and up to 8.5-fold), whereas HAV6scr had little effect. Using an in situ rat brain perfusion model, HAV6, but not HAV6scr, significantly increased eflornithine concentrations in different brain regions up to 4.9-fold. In rats, coadministration of HAV6 increased eflornithine oral bioavailability from 38% to 54%, brain concentrations by up to 83%, and cerebrospinal fluid concentrations by 40%. In conclusion, coadministration of HAV6, either during intravenous infusion or as an oral formulation, has the potential to improve eflornithine-based treatment for second-stage human African trypanosomiasis. [ABSTRACT FROM AUTHOR]

Published

2019

21. Simultaneous Analysis of Dissolution and Permeation Profiles of Nanosized and Microsized Formulations of Indomethacin Using the In Vitro Dissolution Absorption System 2.

Author

Li, Jibin, Li, Li-Bin, Nessah, Nourdine, Huang, Yuehua, Hidalgo, Carlos, Owen, Albert, and Hidalgo, Ismael J.

Subjects

*SOLID dosage forms, *PARTICLE size determination, *INDOMETHACIN, *DRUG solubility, *DISSOLUTION (Chemistry), *ABSORPTION, *DRUG dosage

Abstract

The in vitro dissolution absorption system 2 (IDAS2), a recent invention comprised a conventional dissolution vessel containing 2 permeation chambers with Caco-2 cell monolayers mounted with their apical side facing the dissolution media, permits simultaneous measurement of dissolution and permeation of drugs from intact clinical dosage forms. The objectives of this study were (1) to assess the utility of IDAS2 in the determination of the effect of particle size on in vitro performance of indomethacin and (2) to find out whether the behavior in IDAS2 of 2 indomethacin products differing in particle size is correlated with their in vivo behavior. Indomethacin dissolution and permeation across Caco-2 cell monolayers were simultaneously measured in IDAS2; the dissolution and permeation profiles were simultaneously modeled using a simple two-compartment model. Compared to microsized indomethacin, the nanosized formulation increased the dissolution rate constant by fivefold, whereas moderately increasing the permeation rate constant and the kinetic solubility. As a result, the drug amount permeated across the Caco-2 cell monolayers doubled in the nanosized versus microsized formulation. The in vitro results showed a good correlation with in vivo human oral pharmacokinetic parameters, thus emphasizing the physiological relevance of IDAS2 data in predicting in vivo absorption. [ABSTRACT FROM AUTHOR]

Published

2019

22. Modulation of Intestinal Transport and Absorption of Topotecan, a BCRP Substrate, by Various Pharmaceutical Excipients and Their Inhibitory Mechanisms of BCRP Transporter.

Author

Sawangrat, Kasirawat, Yamashita, Shugo, Tanaka, Akiko, Morishita, Masaki, Kusamori, Kosuke, Katsumi, Hidemasa, Sakane, Toshiyasu, and Yamamoto, Akira

Subjects

*BREAST cancer, *BREAST cancer treatment, *TOPOTECAN, *EXCIPIENTS, *FLUIDITY of biological membranes

Abstract

Abstract Breast cancer resistance protein transporter (ABCG2/BCRP) is highly expressed on the intestinal epithelial membrane and has a significant impact on the oral absorption of topotecan. In this study, we examined 6 pharmaceutical excipients including BL-9EX, Brij97, Cremophor EL, Labrasol, Pluronic F68, and Tween 20 for their BCRP inhibitory effects. A bidirectional transport study using Caco-2 cells demonstrated that Tween 20 and Cremophor EL significantly increased the absorptive transport of topotecan, while simultaneously decreasing secretory transport. Interestingly, Labrasol selectively increased absorptive transport, whereas Pluronic F68 selectively decreased the secretory transport, of topotecan. Further investigation using an in situ closed loop experiment showed that 0.05% (w/v) Tween 20 and Cremophor EL significantly increased the intestinal absorption of topotecan in rats. An LDH assay demonstrated that 0.05% (w/v) Tween 20 and Cremophor EL did not cause significant damage to intestinal epithelial membranes. Furthermore, we examined the absorption-enhancing mechanisms of these excipients and found that Cremophor EL, Tween 20, and Labrasol increased the membrane fluidity of the inner lipid bilayers of the intestine. Therefore, this might be one of the most important mechanisms for inhibition of BCRP function by these excipients in the intestine. [ABSTRACT FROM AUTHOR]

Published

2019

23. A Novel In Vitro Membrane Permeability Methodology Using Three-dimensional Caco-2 Tubules in a Microphysiological System Which Better Mimics In Vivo Physiological Conditions

Author

Linda Gijzen, Kouichi Yoshinari, Niels Ouwerkerk, Kei Motonaga, Marleen Bokkers, Yuki Hagiwara, Remko van Vught, Harumi Kumagai, Tomokazu Tajiri, Rumaisha Annida, and Yoshifumi Katakawa

Subjects

Cell Membrane Permeability, Bile acid, Membrane permeability, Chemistry, medicine.drug_class, Human gastrointestinal tract, Pharmaceutical Science, Permeability, In vitro, Intestinal fluid, Bile Acids and Salts, Gastrointestinal Tract, medicine.anatomical_structure, Intestinal Absorption, Caco-2, Permeability (electromagnetism), In vivo, medicine, Biophysics, Humans, Caco-2 Cells

Abstract

The aim of this study was to develop an in vitro drug permeability methodology which mimics the gastrointestinal environment more accurately than conventional 2D methodologies through a three-dimensional (3D) Caco-2 tubules using a microphysiological system. Such a system offers significant advantages, including accelerated cellular polarization and more accurate mimicry of the in vivo environment. This methodology was confirmed by measuring the permeability of propranolol as a model compound, and subsequently applied to those of solifenacin and bile acids for a comprehensive understanding of permeability for the drug product in the human gastrointestinal tract. To protect the Caco-2 tubules from bile acid toxicity, a mucus layer was applied on the surface of Caco-2 tubules and it enables to use simulated intestinal fluid. The assessment using propranolol reproduced results equivalent to those obtained from conventional methodology, while that using solifenacin indicated fluctuations in the permeability of solifenacin due to various factors, including interaction with bile acids. We therefore suggest that this model will serve as an alternative testing system for measuring drug absorption in an environment closely resembling that of the human gastrointestinal tract.

Published

2022

24. Physicochemical QSAR Analysis of Passive Permeability Across Caco-2 Monolayers.

Author

Lanevskij, Kiril and Didziapetris, Remigijus

Subjects

*QSAR models, *CELL lines, *MONOMOLECULAR films, *PASSIVE states, *NONLINEAR regression

Abstract

Abstract Caco-2 cell line is frequently used as a simplified in vitro model of intestinal absorption. In this study, a database of 1366 Caco-2 permeability coefficients (P e) for 768 diverse drugs and drug-like compounds was compiled from public sources. The collected data represent permeation rates measured at varying experimental conditions (pH from 4.0 to 8.0, and stirring rates from 0 to >1000 rpm) that presumably account for passive diffusion across mucosal epithelium. These data were subjected to multistep nonlinear regression analysis using a minimal set of physicochemical descriptors (octanol-water log D , pKa, hydrogen bonding potential, and molecular size). The model was constructed in a mechanistic manner incorporating the following components: (i) a hydrodynamic equation of size- and charge-specific along with nonspecific diffusion across the paracellular pathway; (ii) transcellular diffusion represented by thermodynamic membrane/water partitioning ratio; (iii) stirring-dependent limit of maximum achievable permeability due to the presence of unstirred water layer. The obtained model demonstrates good accuracy of log P e predictions with a residual mean square error <0.5 log units for all training and validation sets. Given its robust performance and straightforward interpretation in terms of simple physicochemical properties, the proposed model may serve as a valuable tool to guide drug discovery efforts toward readily absorbable compounds. [ABSTRACT FROM AUTHOR]

Published

2019

25. Correlation Analysis of Potential Breast Cancer Resistance Protein Probes in Different Monolayer Systems.

Author

Sáfár, Zsolt, Jani, Márton, Makai, Ildikó, Fekete, Zsolt, Bui, Annamária, Molnár, Éva, Pádár, Petra, Pratt, Jennifer R., Kis, Emese, Beéry, Erzsébet, and Krajcsi, Péter

Subjects

*BREAST cancer, *PROTEIN transport, *MONOMOLECULAR films, *DRUG interactions, *ROSUVASTATIN

Abstract

Abstract Breast cancer resistance protein (BCRP) is a point of interest in drug-drug interaction safety testing. Therefore, a consensus probe that can be applied as victim in multiple experimental settings is of great benefit. Identification of candidates has been driven by the amount and quality of available clinical data, and as a result, drugs such as sulfasalazine and rosuvastatin have been suggested. In this article, the in vitro performance of 5 possible alternatives was evaluated: atorvastatin, chlorothiazide, dantrolene, topotecan, and teriflunomide, and benchmarked against sulfasalazine and rosuvastatin in reference in vitro assays for BCRP drug-drug interaction testing. Based on the results, teriflunomide is proposed as an alternate in vitro BCRP probe. [ABSTRACT FROM AUTHOR]

Published

2018

26. Biopharmaceutical Characterization and Oral Efficacy of a New Rapid Acting Antidepressant Ro 25-6981.

Author

Yellepeddi, Venkata K., Zhudeva, Maryia Y., Movahedi, Fereshteh, Vo, Annh, Phan, Julie, Kirsh, Robert D., Rawlins, David B., and Talbot, Jeffery N.

Subjects

*DRUG efficacy, *ANTIDEPRESSANTS, *BIOPHARMACEUTICS, *METHYL aspartate receptors, *DRUG metabolism

Abstract

Ro 25-6981 is a highly potent and selective blocker of N -methyl- d -aspartate receptors that has been shown to possess both rapid and sustained antidepressant activity. In the present study, we report the biopharmaceutical characterization of Ro 25-6981 by evaluating gastrointestinal stability, transepithelial permeability, stability in human liver microsomes, and in silico metabolic prediction. Moreover, in vivo efficacy of Ro 25-6981 after oral administration was evaluated in animal models of depression. When mixed with 5 different simulated gastrointestinal fluids, no loss of parent compound was observed after 6 h, indicating compound stability in the gastrointestinal environment. At the tested concentrations, Ro 25-6981 was shown to have transepithelial permeability with apparent permeability (P app ) values comparable to highly permeable drugs. Ro 25-6981 was metabolized within 30 min in human liver microsomes, and the metabolic prediction data showed glucuronidation and sulfation as potential metabolic pathways. The in vivo efficacy data suggested that Ro 25-6981, when administered orally at 30 mg/kg, exhibits antidepressant-like activity following oral administration with efficacy comparable to traditional antidepressants that is both dose- and time-dependent. Overall, due to optimal gastrointestinal stability, oral permeability, and oral efficacy, Ro 25-6981 can be a potential therapeutic option for the treatment of depression. [ABSTRACT FROM AUTHOR]

Published

2018

27. Cellular Pharmacokinetic Model-Based Analysis of Genistein, Glyceollin, and MK-571 Effects on 5 (and 6)-Carboxy-2′,7′-Dichloroflourescein Disposition in Caco-2 Cells.

Author

Drennen, Callie, Gorse, Erin, and Stratford, Robert E.

Subjects

*GENISTEIN, *HYDROLYSIS, *GLYCEOLLINS, *PHARMACOKINETICS, *MULTIDRUG resistance

Abstract

Pharmacokinetic modeling was used to describe 5 (and 6)-carboxy-2′,7′-dichloroflourescein (CDF) disposition in Caco-2 cells following CDF or CDFDA (CDF diacetate) dosing. CDF transcellular flux was modeled by simple passive diffusion. CDFDA dosing models were based on simultaneous fitting of CDF levels in apical, basolateral, and intracellular compartments. Predicted CDF efflux was 50% higher across the apical versus the basolateral membrane. This difference was similar following apical and basolateral CDFDA dosing, despite intracellular levels being 3-fold higher following basolateral dosing, thus supporting nonsaturable CDF efflux kinetics. A 3-compartment catenary model with intracellular CDFDA hydrolysis described CDF disposition. This model predicted that apical CDF efflux was not altered in the presence of MK-571, and that basolateral membrane clearance was enhanced to account for reduced intracellular CDF in the presence of this multidrug resistance-associated protein (MRP) inhibitor. Similar effects were predicted for glyceollin, while genistein exposure had no predicted effects on CDF efflux. These modulator effects are discussed in the context of model predicted intracellular CDF concentrations relative to reports of CDF affinity (measured by K m ) for MRP2 and MRP3. This model-based analysis confirms the complexity of efflux kinetics and suggests that other transporters may have contributed to CDF efflux. [ABSTRACT FROM AUTHOR]

Published

2018

28. Study on the Influencing Factors of Hypoglycemic Effect of Folate Targeted Polymersomes Encapsulating Insulin

Author

Yan Chun Gong, Cheng Wu Zhao, Zi Ling Li, Xiang Yuan Xiong, Yu Ping Li, and Dao Ge Chen

Subjects

Molar, medicine.medical_treatment, Pharmaceutical Science, 02 engineering and technology, Polyethylene glycol, Pharmacology, 030226 pharmacology & pharmacy, Diabetes Mellitus, Experimental, Polyethylene Glycols, 03 medical and health sciences, chemistry.chemical_compound, Folic Acid, 0302 clinical medicine, Hypoglycemic response, Oral administration, Cell Line, Tumor, medicine, Animals, Humans, Hypoglycemic Agents, Insulin, Drug Carriers, 021001 nanoscience & nanotechnology, Rats, chemistry, Folic acid, Polymersome, Caco-2 Cells, 0210 nano-technology

Abstract

Purpose To study the effects of the density of folic acid (FA) on the hypoglycemic ability of FA-targeted polymersomes as oral insulin carriers. Also to study the change of the hypoglycemic effect of FA-targeted mixed polymersomes added with various mass ratio of d -α-tocopherol polyethylene glycol 1000 succinate (TPGS). Methods The FA-targeted polymersomes with different FA molar contents were prepared. The in vitro insulin release experiments in different media for FA-targeted polymersomes with various FA contents were studied. Their quantitative cellular uptake in Caco-2 cells was examined. The in vivo hypoglycemic activity of FA-targeted polymersomes was also studied with diabetic rats. The polymersomes with the optimal FA molar content was chosen to prepare mixed polymersomes with various TPGS contents. Results Among insulin-loaded FA-targeted polymersomes with four different FA molar contents, insulin-loaded polymersomes with 10% FA molar content (insulin-loaded 10%FA-Ps) showed the hightest cellular uptake and the best hypoglycemic response. In addition, the insulin-loaded FA-Ps/TPGS5:1 mixed polymersomes exhibited higher cellular uptake and better hypoglycemic response than the other two insulin-loaded mixed polymersomes adding TPGS did. Conclusions FA-Ps/TPGS5:1 could be a promising formulation for the oral administration of insulin.

Published

2021

29. A Novel Fluorescence-Based Method to Evaluate Ileal Apical Sodium-Dependent Bile Acid Transporter ASBT

Author

Rikako Imamura, Hisakazu Komori, Qiunan Zhu, and Ikumi Tamai

Subjects

Taurocholic Acid, SLC10A2, Symporters, Bile acid, biology, medicine.drug_class, Reabsorption, Xenopus, Organic Anion Transporters, Sodium-Dependent, Pharmaceutical Science, Substrate (chemistry), Taurocholic acid, biology.organism_classification, Oocyte, Molecular biology, Bile Acids and Salts, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, Ileum, Caco-2, medicine, biology.protein, Humans, Caco-2 Cells

Abstract

This study aimed to demonstrate usefulness of the fluorophore-labeled bile acid derivative, N-(24-[7-(4-N,N-dimethylaminosulfonyl-2,1,3-benzoxadiazole)]amino-3α,7α,12α-trihydroxy-27-nor-5β-cholestan-26-oyl)-2′-aminoethane sulfonate (tauro-nor-THCA-24-DBD) as a substrate of apical sodium-dependent bile acid transporter (ASBT, SLC10A2), which is expressed at distal ileum for reabsorption of bile acids and to find a novel fluorescence-based method to evaluate ASBT activity. In HPLC analysis, chromatogram of tauro-nor-THCA-24-DBD showed double peaks: R- and S-isomers of the compound. When ASBT was expressed in Xenopus laevis oocytes, their uptakes were higher than those by control oocytes, demonstrating both are transported by ASBT. Therefore, results were analyzed separately as peak 1, peak 2 and sum of them. Concentration dependent uptake of tauro-nor-THCA-24-DBD in ASBT-expressing oocytes was saturable with Km 122 μM and Vmax 1.49 pmol/oocyte/30 min for peak 1, 30.7 μM and 1.34 pmol/oocyte/30 min for peak 2, and 40.6 μM and 2.36 pmol/oocyte/30 min for sum, respectively. These uptakes were decreased in the presence of taurocholic acid and in the Na+ free condition. Furthermore, in Caco-2 cells, tauro-nor-THCA-24-DBD uptake was also Na+-dependent and saturable. Additionally, these uptakes were decreased by elobixibat, a selective ASBT inhibitor. Accordingly, it was concluded that tauro-nor-THCA-24-DBD is a substrate of ASBT and useful to evaluate the intestinal ASBT transport activity.

Published

2021

30. Characterization of Dissolution-Permeation System using Hollow Fiber Membrane Module and Utility to Predict in Vivo Drug Permeation Across BCS Classes

Author

Asmita Adhikari, Paul R. Seo, and James E. Polli

Subjects

Intestinal Absorption, Solubility, Pharmaceutical Science, Humans, Caco-2 Cells, Permeability, Biopharmaceutics, Tablets

Abstract

A dissolution-permeation system has potential to provide insight into the kinetic contributions of dissolution and permeation to overall drug absorption. The goals of the study were to characterize a dissolution-hollow fiber membrane (D-HFM) system and compare its resulting in vitro drug permeation constants (K

Published

2022

31. Assessment of Passive Intestinal Permeability Using an Artificial Membrane Insert System.

Author

Berben, Philippe, Brouwers, Joachim, and Augustijns, Patrick

Subjects

*INTESTINAL absorption, *PERMEABILITY, *ARTIFICIAL membranes, *CELLULOSE, *ABSORPTION

Abstract

Despite reasonable predictive power of current cell-based and cell-free absorption models for the assessment of intestinal drug permeability, high costs and lengthy preparation steps hamper their use. The use of a simple artificial membrane (without any lipids present) as intestinal barrier substitute would overcome these hurdles. In the present study, a set of 14 poorly water-soluble drugs, dissolved in 2 different media (fasted state simulated/human intestinal fluids [FaSSIF/FaHIF]), were applied to the donor compartment of an artificial membrane insert system (AMI-system) containing a regenerated cellulose membrane. Furthermore, to investigate the predictive capacity of the AMI-system as substitute for the well-established Caco-2 system to assess intestinal permeability, the same set of 14 drugs dissolved in FaHIF were applied to the donor compartment of a Caco-2 system. For 14 drugs, covering a broad range of physicochemical parameters, a reasonable correlation between both absorption systems was observed, characterized by a Pearson correlation coefficient r of 0.95 (FaHIF). Using the AMI-system, an excellent predictive capacity of FaSSIF as surrogate medium for FaHIF was demonstrated (r = 0.96). Based on the acquired data, the AMI-system appears to be a time- and cost-effective tool for the early-stage estimation of passive intestinal permeability for poorly water-soluble drugs. [ABSTRACT FROM AUTHOR]

Published

2018

32. In Vitro and In Situ Characterization of Triterpene Glycosides From Cimicifuga racemosa Extract.

Author

Disch, Lucia, Forsch, Kristina, Siewert, Beate, Drewe, Jürgen, and Fricker, Gert

Subjects

*BUGBANE, *TRITERPENES, *GLYCOSIDES, *PLANT extracts, *IN vitro studies

Abstract

Cimicifuga racemosa products are widely used in the treatment of climacteric symptoms. The aim of this study was to evaluate C racemosa extract Ze 450 according to Biopharmaceutics Classification System (BCS). Triterpene glycosides served as analytical marker and were evaluated for solubility and absorption properties. pH-dependent thermodynamic solubility was tested via shake flask method, and dissolution performance of a herbal medicinal product containing C racemosa extract Ze 450 was assessed. Absorption was estimated by in vitro permeation through Caco-2 monolayers. Furthermore, different intestinal segments were screened for absorption performance using an in situ rat model. Over a physiological pH range, triterpene glycosides exhibited pH-dependent solubility with highest concentration at pH 7.5. Dissolution profiles showed rapid dissolution of actein and 23- epi -26-deoxyactein. Furthermore, 23- epi -26-deoxyactein as surrogate for contained triterpene glycosides showed a high permeability through Caco-2 monolayers. Results of in situ rat model showed absorption capacity for 23- epi -26-deoxyactein in duodenum, jejunum, ileum, and colon. The results indicate high bioavailability of triterpene glycosides from C racemosa extract Ze 450. With regard to BCS, triterpene glycosides can be classified into BCS class I (high solubility, high permeability). [ABSTRACT FROM AUTHOR]

Published

2017

33. Gastrointestinal Hormone Cholecystokinin Increases P-Glycoprotein Membrane Localization and Transport Activity in Caco-2 Cells.

Author

Yano, Kentaro, Shimizu, Saori, Tomono, Takumi, and Ogihara, Takuo

Subjects

*GASTROINTESTINAL hormones, *CHOLECYSTOKININ, *GLYCOPROTEINS, *MESSENGER RNA, *SCAFFOLD proteins

Abstract

It was reported that stimulation of taste receptor type 2 member 38 by a bitter substance, phenylthiocarbamide (PTC), increased P-glycoprotein (P-gp) mRNA level and transport activity via release of the gastrointestinal hormone cholecystokinin-8 (CCK-8) at 9 h. Therefore, we hypothesized that CCK-8 and PTC might also regulate P-gp activity more rapidly via a different mechanism. As a result, we found that the pretreatment of human colon adenocarcinoma (Caco-2) cells with 10-mM PTC significantly decreased the intracellular accumulation of P-gp substrate rhodamine 123 (Rho123) compared with the control after 90-min incubation. Moreover, CCK-8 treatments significantly reduced the accumulation of Rho123 within 30 min, compared with the control. On the other hand, when Caco-2 cells were pretreated with PTC, the efflux ratio of Rho123 was significantly increased compared with control. The efflux ratio of Rho123 in CCK-8 treatment cells was also significantly increased compared with control. Furthermore, CCK-8 increased the phosphorylation of the scaffold proteins ezrin, radixin, and moesin, which regulate translocation of P-gp to the plasma membrane. Therefore, our results indicate that PTC induced release of CCK-8, which in turn induced the phosphorylation of ezrin, radixin, and moesin proteins, leading to upregulation of P-gp transport activity via increased membrane localization of P-gp. [ABSTRACT FROM AUTHOR]

Published

2017

34. The Organic Anion–Transporting Peptide 2B1 Is Localized in the Basolateral Membrane of the Human Jejunum and Caco-2 Monolayers.

Author

Keiser, Markus, Kaltheuner, Lars, Wildberg, Charlotte, Müller, Janett, Grube, Markus, Partecke, Lars Ivo, Heidecke, Claus-Dieter, and Oswald, Stefan

Subjects

*ORGANIC anion transporters, *DRUG absorption, *CELL lines, *JEJUNUM, *PROTEOMICS

Abstract

The organic anion–transporting polypeptide (OATP) 2B1 which is ubiquitously expressed in the human body is assumed to play an important role in the cellular uptake of many drugs. Although the expression and function of this solute carrier transporter is well characterized in the human liver and other tissues, little is known about its localization and functional relevance in the intestine. Thus, it was the aim of this study to investigate its localization and function in the human jejunum and in the frequently used intestinal Caco-2 cell line. The basolateral membrane of jejunal tissue from 6 individuals showed a significant enrichment of OATP2B1 (17-fold) and the known basolateral proteins ABCC3 and Na/K-ATPase compared to the apical membrane as derived from targeted proteomics analysis. On the contrary, apical localization could be confirmed for ABCB1, ABCC2, and PEPT1. Basolateral localization of OATP2B1 could also be verified in Caco-2 cells. Bidirectional transport studies with established OATP2B1 substrates (sulfasalazine and pravastatin) across freshly exercised human jejunum and Caco-2 cell monolayers demonstrated a markedly higher transport from the basal to the apical compartment than in the opposite direction. Our data provide evidence for a basolateral localization of OATP2B1 which may improve our understanding of intestinal drug absorption. [ABSTRACT FROM AUTHOR]

Published

2017

35. SGLT1-Mediated Transport in Caco-2 Cells Is Highly Dependent on Cell Bank Origin.

Author

Steffansen, Bente, Pedersen, Maria D.L., Laghmoch, Abdel M., and Nielsen, Carsten U.

Subjects

*ADENOCARCINOMA, *CANCER treatment, *DRUG absorption, *SODIUM-glucose cotransporters, *CARRIER proteins, *GLUCOPYRANOSIDE

Abstract

The human colon adenocarcinoma (Caco-2) cell line is a well-established in vitro model for studying transport phenomena for prediction of intestinal nutrient and drug absorption. However, substances depending on transporters such predictions are complicated due to variable transporter expression and limited knowledge about transporter function during multiple cell passaging and cell thawings. In the case of sodium glucose transporter 1 (SGLT1), a key transporter of oral absorption of d -glucose, one reason for compromised prediction could be inadequate expression of SGLT1 in Caco-2 cells and thereby limited sensitivity in the determination of SGLT1-mediated permeability ( P SGLT1 ). Here, the objective is to characterize and compare SGLT1-mediated uptake in Caco-2 cells obtained from different cell banks. SGLT1-mediated uptake of the standard SGLT1 substrate, methyl-α- d -glucopyranoside, in Caco-2 cells was shown to be highly dependent on cell bank origin. The most robust and reliable SGLT1 functionality was identified in Caco-2 cells from Deutsche Sammlung für Mikroorganismen und Zellkulturen (DSMZ), whereas cells from the American Type Culture Collection and European Collection of Authenticated Cell Cultures have lower SGLT1 transport activity. Transepithelial P SGLT1 across Caco-2 cells from DSMZ showed that P SGLT1 likely accounts for approximately 97% of absorptive methyl-α- d -glucopyranoside P app(a-b) . In conclusion, Caco-2 cells from DSMZ provide a robust in vitro model for studying SGLT1-mediated uptake and transport—over multiple cell passages and independent cell stock thawings. [ABSTRACT FROM AUTHOR]

Published

2017

36. Development of a Novel Formulation That Improves Preclinical Bioavailability of Tenofovir Disoproxil Fumarate.

Author

Watkins, Melynda E., Wring, Steve, Randolph, Ryan, Park, Seonghee, Powell, Kendall, Lutz, Lissa, Nowakowski, Michelle, Ramabhadran, Ram, and Domanico, Paul L.

Subjects

*BIOAVAILABILITY, *BISOPROLOL, *TENOFOVIR, *PHARMACOKINETICS, *ORAL drug administration, *ESTERASES

Abstract

Tenofovir disoproxil fumarate (TDF), the bisphosphonate ester prodrug of tenofovir (TFV), has poor bioavailability due to intestinal degradation and efflux transport. Reformulation using U.S. Food and Drug Administration–approved esterase and efflux inhibitors to increase oral bioavailability could provide lower dose alternatives and reduce costs for patients with HIV in resource-limited settings. Inhibition of mucosal and intracellular esterases was studied in human and rat intestinal extracts (S9), where TDF was protected by the carboxylesterase inhibitor bis-para-nitrophenylphosphate, the ester mix EM1, and the generally recognized-as-safe (GRAS) excipient propylparaben. Permeability studies using Madin-Darby canine kidney and Caco-2 cell monolayers demonstrated that TDF was a substrate for the permeability glycoprotein with permeability glycoprotein inhibitors reducing basolateral to apical transport of TDF. These studies also showed that transport was increased by esterase inhibitors. TDF, TFV, and tenofovir monophosphonate ester transport across Caco-2 monolayers with esterase and efflux inhibitors revealed a maximum 38.7-fold increase in apical to basolateral TDF transport with the potent non-GRAS combination of EM1 and GF120918. Transport was increased 22.8-fold by the GRAS excipients, propylparaben, and d -a-tocopheryl polyethylene glycol 1000 succinate (a vitamin E derivative). TFV pharmacokinetics in rats following oral administration of TDF and GRAS esterase and efflux inhibitors confirmed enhanced bioavailability. Area under the curve increased 1.5- to 2.1-fold with various combinations of parabens and d -a-tocopheryl polyethylene glycol 1000 succinate. This significant inhibition of TDF hydrolysis and efflux in vivo exhibits the potential to safely increase TDF bioavailability in humans. [ABSTRACT FROM AUTHOR]

Published

2017

37. Polyarginine Nanocapsules as a Potential Oral Peptide Delivery Carrier.

Author

Lollo, Giovanna, Gonzalez-Paredes, Ana, Garcia-Fuentes, Marcos, Calvo, Pilar, Torres, Dolores, and Alonso, Maria Jose

Subjects

*NANOCAPSULES, *PEPTIDE drugs, *ANTINEOPLASTIC agents, *GASTROINTESTINAL system, *ELECTRICAL resistivity

Abstract

We have previously reported the development of novel nanocapsules made of polyarginine (PArg) specifically designed for the delivery of small anticancer drugs into cells. Our goal, in this work, has been to investigate the potential of these nanocarriers for oral delivery of peptide anticancer drugs. To reach this objective, we chose the antitumoral peptide, elisidepsin, and evaluated the characteristics of the PArg nanocapsules in terms of drug loading capacity, stability in simulated intestinal fluids, and ability to interact with the intestinal epithelium both in vitro (Caco-2 model cell line) and in vivo . Our results suggest that elisidepsin can be effectively loaded into the nanocapsules by adjusting the formulation parameters, using a solvent displacement technique. The resulting nanocapsules were stable upon incubation in simulated intestinal fluids and had the ability to reduce, in a transient manner, the transepithelial electrical resistance of the Caco-2 cell monolayer. Confocal images also revealed that PArg nanocapsules were internalized by the monolayer without evident signs of cytotoxicity. Finally, the in vivo fluorescent imaging study illustrates the retention of the nanocapsules in the gastrointestinal tract upon oral administration. Overall, the results underline the potential interest of PArg nanocapsules as carriers for the oral administration of peptide drugs. [ABSTRACT FROM AUTHOR]

Published

2017

38. The Past, Present and Future of Intestinal In Vitro Cell Systems for Drug Absorption Studies

Author

Sonia Youhanna and Volker M. Lauschke

Subjects

Drug, Absorption (pharmacology), media_common.quotation_subject, Cell, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Permeability, 03 medical and health sciences, 0302 clinical medicine, Drug permeability, medicine, Humans, Intestinal Mucosa, media_common, Chemistry, 021001 nanoscience & nanotechnology, Intestinal epithelium, In vitro, Pre-clinical development, Cell biology, Intestines, medicine.anatomical_structure, Intestinal Absorption, Pharmaceutical Preparations, Cell culture, Caco-2 Cells, 0210 nano-technology

Abstract

The intestinal epithelium acts as a selective barrier for the absorption of water, nutrients and orally administered drugs. To evaluate the gastrointestinal permeability of a candidate molecule, scientists and drug developers have a multitude of cell culture models at their disposal. Static transwell cultures constitute the most extensively characterized intestinal in vitro system and can accurately categorize molecules into low, intermediate and high permeability compounds. However, they lack key aspects of intestinal physiology, including the cellular complexity of the intestinal epithelium, flow, mechanical strain, or interactions with intestinal mucus and microbes. To emulate these features, a variety of different culture paradigms, including microfluidic chips, organoids and intestinal slice cultures have been developed. Here, we provide an updated overview of intestinal in vitro cell culture systems and critically review their suitability for drug absorption studies. The available data show that these advanced culture models offer impressive possibilities for emulating intestinal complexity. However, there is a paucity of systematic absorption studies and benchmarking data and it remains unclear whether the increase in model complexity and costs translates into improved drug permeability predictions. In the absence of such data, conventional static transwell cultures remain the current gold-standard paradigm for drug absorption studies.

Published

2021

39. Utility of a Systematic Approach to Selecting Candidate Prodrugs: A Case Study Using Candesartan Ester Analogues.

Author

Shimizu M, Fukami T, Okura K, Taniguchi T, Nomura Y, and Nakajima M

Subjects

Animals, Humans, Esters, Caco-2 Cells, Intestines, Prodrugs pharmacokinetics

Abstract

Development of prodrugs is a useful strategy to overcome some disadvantages of candidate drugs. Recently, we established a systematic approach to selecting appropriate prodrugs, and validated the utility of this approach using oseltamivir analogues. In this study, the utility of the approach was further examined using candesartan cilexetil and 20 kinds of its analogues having various types of side chain as model compounds. Log D values of analogues (2.5 to 4.7) were higher than that of candesartan (1.0), their active metabolite, and the results were reasonable for the purpose of improving permeability of candesartan. The analogues tended to be more soluble in artificial intestinal fluids than in artificial gastric fluid, owing to their acidic physicochemical characteristics. Their membrane permeabilities were not correlated with log D values, which can be attributed to the metabolism in Caco-2 cells used in this system. In human hepatocytes and enterocytes, 11 out of the 20 analogues were immediately hydrolyzed to candesartan, and species differences were observed in the hydrolysis efficiency. This study confirmed the utility of the systematic approach for selection of appropriate prodrugs that could be proceeded to in vivo pharmacokinetics study, with selection of suitable experimental animals., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 American Pharmacists Association. Published by Elsevier Inc. All rights reserved.)

Published

2023

40. Enhanced Oral Delivery of Bisphosphonate by Novel Absorption Enhancers: Improvement of Intestinal Absorption of Alendronate by N-Acyl Amino Acids and N-Acyl Taurates and Their Absorption-Enhancing Mechanisms.

Author

Nakaya, Yuka, Takaya, Mayu, Hinatsu, Yuta, Alama, Tammam, Kusamori, Kosuke, Katsumi, Hidemasa, Sakane, Toshiyasu, and Yamamoto, Akira

Subjects

*DIPHOSPHONATES, *ALENDRONATE, *AMINO acids, *HYDROXYAPATITE, *BONE resorption

Abstract

Bisphosphonates (BPs) are carbon-substituted pyrophosphate analogs that exhibit a high affinity to hydroxyapatite and specifically inhibit bone resorption. Alendronate sodium (sodium 4-amino-1-hydroxybutylidene-1,1-bisphosphonate trihydrate) is a typical BP compound in clinical use. BPs have very low bioavailability, typically <1% after their oral administration, and their intestinal absorption is further reduced by co-administered drugs or food. In this study, we examined the effects of N- acyl amino acids and N- acyl taurates on the small intestinal absorption of alendronate. All N- acyl amino acids and N- acyl taurates increased the small intestinal absorption of alendronate, especially 1% (wt/vol) sodium palmitoyl sarcosinate (PN), which elicited a 14-fold increase. In addition, the absorption-enhancing effects of these enhancers were reversible and they may not cause continuous and irreversible membrane toxicity in the rat small intestine. Furthermore, we examined the absorption-promoting mechanisms of PN and found that it increased the membrane fluidity of the lipid bilayers. In addition, it was found that PN may open the tight junctions by reducing the expression level of claudin-4, which is a major tight junction protein. These findings indicate that these enhancers are useful for promoting the intestinal absorption of alendronate. [ABSTRACT FROM AUTHOR]

Published

2016

41. The Evaluation of In Vitro Drug Dissolution of Commercially Available Oral Dosage Forms for Itraconazole in Gastrointestinal Simulator With Biorelevant Media.

Author

Kazuki Matsui, Yasuhiro Tsume, Amidon, Gregory E., and Amidon, Gordon L.

Subjects

*DRUG solubility, *DOSAGE forms of drugs, *ORAL drug administration, *ITRACONAZOLE, *PHARMACOKINETICS

Abstract

The purpose of this study was to assess the feasibility of a multicompartmental in vitro dissolution apparatus, gastrointestinal simulator (GIS), in assessing the drug dissolution of 2 commercially available oral dosage forms for itraconazole (ICZ). The GIS consists of 3 chambers, mimicking the upper gastrointestinal tract. In vitro dissolution of ICZ capsule or oral solution was evaluated in United States Pharmacopeia apparatus II and GIS. To investigate the suitability of fasted state simulated intestinal fluid (FaSSIF) to predict better in vivo, FaSSIF as well as phosphate buffer were used as dissolution media. Area under the dissolved drug amount-time curve (AUDC) was calculated for each dosage form in each apparatus, and the ratios of AUDCoral solution to AUDCcapsule were compared with human pharmacokinetic data. Based on this comparison, GIS with FaSSIF can adequately distinguish the pharmacokinetic profiles of 2 oral dosage forms for ICZ. Additionally, Caco-2 cell transepithelial transport study in combination with GIS revealed that improved drug dissolution by formulations resulted in enhanced permeation of ICZ through cell monolayer, suggesting the observed ICZ concentration in the GIS will directly reflect systemic exposure. These results indicate GIS would be a powerful tool to assess the formulations of ICZ as well as other Biopharmaceutics Classification System class II drug formulations. [ABSTRACT FROM AUTHOR]

Published

2016

42. Pharmaceutical Applications of Electrospraying.

Author

Nguyen, Duong Nhat, Clasen, Christian, and Van den Mooter, Guy

Subjects

*ELECTROHYDRODYNAMICS, *ATOMIZATION, *MICROSTRUCTURE, *DRUG solubility, *DRUG delivery systems

Abstract

The electrohydrodynamic atomization technique, or simply called electrospraying, has been extensively studied for biomedical as well as for pharmaceutical applications over the past years. The simplicity, flexibility, and efficiency of producing particles at the microscale or nanoscale, with tailored size, shape, morphology, and microstructure, make electrospraying to become one of the most promising and wellpracticed approaches to be applied in many biomedical and pharmaceutical fields, from improving the bioavailability of poorly aqueous soluble drugs, preparing targeted drug delivery systems, and controllable drug release systems to delivering sensitive therapeutic agents such as protein-based drugs or even living cells. Nevertheless, some issues still remain with respect to low throughput as well as the complex interplay between a great number of processing and formulation factors. A comprehensive understanding of these fundamental aspects is essential for the successful application of electrospraying for the production of particulate formulations with desired properties. [ABSTRACT FROM AUTHOR]

Published

2016

43. Breast Cancer Resistance Protein Abundance, but Not mRNA Expression, Correlates With Estrone-3-Sulfate Transport in Caco-2.

Author

Harwood, Matthew D., Neuhoff, Sibylle, Rostami-Hodjegan, Amin, and Warhurst, Geoffrey

Subjects

*DRUG resistance in cancer cells, *BREAST cancer treatment, *ESTRONE, *MESSENGER RNA, *PROTEIN expression

Abstract

Transporter mRNA and protein expression data are used to extrapolate in vitro transporter kinetics to in vivo drug disposition predictions. Breast cancer resistance protein (BCRP) possesses broad substrate specificity; therefore, understanding BCRP expression–activity relationships are necessary for the translation to in vivo . Bidirectional transport of estrone-3-sulfate (E-3-S), a BCRP probe, was evaluated with respect to relative BCRP mRNA expression and absolute protein abundance in 10- and 29-day cultured Caco-2 cells. BCRP mRNA expression was quantified by real-time PCR against a housekeeper gene, Cyclophilin A. The BCRP protein abundance in total membrane fractions was quantified by targeted proteomics, and [ 3 H]-E-3-S bidirectional transport was determined in the presence or absence of Ko143, a potent BCRP inhibitor. BCRP mRNA expression was 1.5-fold higher in 29- versus 10-day cultured cells ( n = 3), whereas a 2.4-fold lower ( p < 0.001) BCRP protein abundance was observed in 29- versus 10-day cultured cells (1.28 ± 0.33 and 3.06 ± 0.22 fmol/μg protein, n = 6, respectively). This correlated to a 2.45-fold lower ( p < 0.01) efflux ratio for E-3-S in 29- versus 10-day cultured cells (8.97 ± 2.51 and 3.32 ± 0.66, n = 6, respectively). Caco-2 cell BCRP protein abundance, but not mRNA levels, correlates with BCRP activity, suggesting that extrapolation strategies incorporating BCRP protein abundance–activity relationships may be more successful. [ABSTRACT FROM AUTHOR]

Published

2016

44. Genetically Modified Caco-2 Cells With Improved Cytochrome P450 Metabolic Capacity.

Author

Küblbeck, Jenni, Hakkarainen, Jenni J., Petsalo, Aleksanteri, Vellonen, Kati-Sisko, Tolonen, Ari, Reponen, Petri, Forsberg, Markus M., and Honkakoski, Paavo

Subjects

*CYTOCHROME P-450, *CELL lines, *INTESTINAL absorption, *GENE expression, *ANDROSTANE receptors, *MESSENGER RNA

Abstract

The human intestinal Caco-2 cell line has been extensively used as a model of small intestinal absorption but it lacks expression and function of cytochrome P450 enzymes, particularly CYP3A4 and CYP2C9, which are normally expressed in the intestinal epithelium. In order to increase the expression and activity of CYP isozymes in these cells, we created 2 novel Caco-2 sublines expressing chimeric constitutive androstane or pregnane X receptors and characterized these cells for their metabolic and absorption properties. In spite of elevated mRNA expression of transporters and differentiation markers, the permeation properties of the modified cell lines did not significantly differ from those of the wild-type cells. In contrast, the metabolic activity was increased beyond the currently used models. Specifically, CYP3A4 activity was increased up to 20-fold as compared to vitamin D treated wild-type Caco-2 cells. [ABSTRACT FROM AUTHOR]

Published

2016

45. Carrier-Mediated Prodrug Uptake to Improve the Oral Bioavailability of Polar Drugs: An Application to an Oseltamivir Analogue.

Author

Incecayir, Tuba, Jing Sun, Yasuhiro Tsume, Hao Xu, Tomoka Gose, Takeo Nakanishi, Ikumi Tamai, Hilfinger, John, Lipka, Elke, and Amidon, Gordon L.

Subjects

*PRODRUGS, *ORAL drug administration, *OSELTAMIVIR, *MEMBRANE permeability (Biology), *INTESTINAL mucosa

Abstract

The goal of this study was to improve the intestinal mucosal cell membrane permeability of the poorly absorbed guanidino analogue of a neuraminidase inhibitor, oseltamivir carboxylate (GOC) using a carriermediated strategy. Valyl amino acid prodrug of GOC with isopropyl-methylene-dioxy linker (GOC-ISPVal) was evaluated as the potential substrate for intestinal oligopeptide transporter, hPEPT1 in Xenopus laevis oocytes heterologously expressing hPEPT1, and an intestinal mouse perfusion system. The diastereomers of GOC-ISP-Val were assessed for chemical and metabolic stability. Permeability of GOC-ISPVal was determined in Caco-2 cells and mice. Diastereomer 2 was about 2 times more stable than diastereomer 1 in simulated intestinal fluid and rapidly hydrolyzed to the parent drug in cell homogenates. The prodrug had a 9 timeseenhanced apparent permeability (Papp) in Caco-2 cells compared with the parent drug. Both diastereomer exhibited high effective permeability (Peff) in mice, 6.32 ? 3.12 and 5.20 ? 2.81 x 10-5 cm/s for diastereomer 1 and 2, respectively. GOC-ISP-Val was found to be a substrate of hPEPT1. Overall, this study indicates that the prodrug, GOC-ISP-Val, seems to be a promising oral antiinfluenza agent that has sufficient stability at physiologically relevant pHs before absorption, significantly improved permeability via hPEPT1 and potentially rapid activation in the intestinal cells. [ABSTRACT FROM AUTHOR]

Published

2016

46. Usefulness of A Model-Based Approach for Estimating In Vitro P-Glycoprotein Inhibition Potency in a Transcellular Transport Assay.

Author

Wataru Kishimoto, Naoki Ishiguro, Ludwig-Schwellinger, Eva, Ebner, Thomas, Kazuya Maeda, and Yuichi Sugiyama

Subjects

*P-glycoprotein, *TRANSCYTOSIS, *DRUG interactions, *DIGOXIN, *ATP-binding cassette transporters

Abstract

In vitro half-maximal inhibitory concentration (IC50) is a key parameter for accurately predicting the potential risk for P-glycoprotein (P-gp)emediated drugedrug interactions. We aimed to compare the IC50 values estimated by different approaches and determine the usefulness of model-based approaches. Transcellular transport of digoxin across Caco-2 monolayer was investigated using various concentrations of P-gp inhibitors, quinidine, verapamil, and zosuquidar. To calculate IC50 values, 3 traditional parameters were used: apical-to-basal (AtoB) and basal-to-apical (BtoA) clearance (CL) with inhibitors (CLAtoB,i and CLBtoA,i) and the difference between the efflux ratios (ERs) with P-gp inhibitors (ERi) and those under complete P-gp inhibition [ER(-P-gp)]. Furthermore, a new model-based approach was applied that uses the difference between the reciprocals of CLAtoB with P-gp inhibitors (1/CLAtoB,i) and those under complete P-gp inhibition [1/CLAtoB(-P-gp)] as parameters. IC50 values obtained from 2 model-based approaches [ERi - ER(-P-gp) and 1/CLAtoB,i - 1/CLAtoB(-P-gp)] were comparable, whereas 2.6- to 6.6-fold larger IC50 values were estimated from empirical approaches (CLAtoB,i and CLBtoA,i). The reason for such difference in IC50 values is that indicators for model-based approaches, but not empirical approaches, directly reflect the P-gp function. Our new approach [1/ CLAtoB,i - 1/CLAtoB(-P-gp)] based on only AtoB transcellular transport could substitute for current estimation methods using ER. [ABSTRACT FROM AUTHOR]

Published

2016

47. The Proteome of Filter-Grown Caco-2 Cells With a Focus on Proteins Involved in Drug Disposition.

Author

Ölander, Magnus, Wiśniewski, Jacek R., Matsson, Pär, Lundquist, Patrik, and Artursson, Per

Subjects

*CELL physiology, *PROTEOMICS, *ENTEROCYTES, *CELL differentiation, *HYDROLASES

Abstract

Caco-2 cells are widely used in studies of intestinal cell physiology and drug transport. Here, the global proteome of filter-grown Caco-2 cells was quantified using the total protein approach and compared with the human colon and jejunum proteomes. In total, 8096 proteins were identified. In-depth analysis of proteins defining enterocyte differentiation-including brush-border hydrolases, integrins, and adherens and tight junctions-gave near-complete coverage of the expected proteins. Three hundred twenty-seven absorption, distribution, metabolism and excretion proteins were identified, including 112 solute carriers and 20 ATP-binding cassette transporters. OATP2B1 levels were 16-fold higher in Caco-2 cells than in jejunum. To investigate the impact of this difference on in vitro-in vivo extrapolations, we studied the uptake kinetics of the OATP2B1 substrate pitavastatin in Caco-2 monolayers, and found that the contribution of OATP2B1 was 60%-70% at clinically relevant intestinal concentrations. Pitavastatin kinetics was combined with transporter concentrations to model the contribution of active transport and membrane permeation in the jejunum. The lower OATP2B1 expression in jejunum led to a considerably lower transporter contribution (<5%), suggesting that transmembrane diffusion dominates pitavastatin absorption in vivo. In conclusion, we present the first in-depth quantification of the filter-grown Caco-2 proteome. We also demonstrate the crucial importance of considering transporter expression levels for correct interpretation of drug transport routes across the human intestine. [ABSTRACT FROM AUTHOR]

Published

2016

48. Constructing an In Silico Three-Class Predictor of Human Intestinal Absorption With Caco-2 Permeability and Dried-DMSO Solubility

Author

Tsuyoshi Esaki, Hitoshi Kawashima, Reiko Watanabe, Yayoi Natsume-Kitatani, Kenji Mizuguchi, Hiroshi Komura, Chioko Nagao, and Rikiya Ohashi

Subjects

Membrane permeability, Chemical structure, In silico, Biological Availability, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Permeability, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Caco 2 permeability, Cell Line, Tumor, Drug Discovery, Humans, Computer Simulation, Dimethyl Sulfoxide, Solubility, Chromatography, Drug discovery, Sulfoxide, 021001 nanoscience & nanotechnology, Bioavailability, Intestinal Absorption, chemistry, Caco-2 Cells, 0210 nano-technology

Abstract

Absorption of drugs is the first step after dosing, and it largely affects drug bioavailability. Hence, estimating the fraction of absorption (Fa) in humans is important in the early stages of drug discovery. To achieve correct exclusion of low Fa compounds and retention of potential compounds, we developed a freely available model to classify compounds into 3 levels of Fa capacity using only the chemical structure. To improve Fa prediction, we added predicted binary classification results of membrane permeability measured using Caco-2 cell line (Papp) and dried-dimethyl sulfoxide solubility (accuracy, 0.836; kappa, 0.560). The constructed models can be accessed via a web application.

Published

2019

49. In Vitro and In Vivo Evaluation of Core–Shell Mesoporous Silica as a Promising Water-Insoluble Drug Delivery System: Improving the Dissolution Rate and Bioavailability of Celecoxib With Needle-Like Crystallinity

Author

Shanqiang Zhang, Wenquan Zhu, Yan Dong, Baiyu Jian, Haitao Huang, Xiaoyu Sui, and Cuiyan Han

Subjects

Male, Biocompatibility, Biological Availability, Pharmaceutical Science, Nanoparticle, 02 engineering and technology, 030226 pharmacology & pharmacy, Rats, Sprague-Dawley, 03 medical and health sciences, Crystallinity, Drug Delivery Systems, 0302 clinical medicine, Pharmacokinetics, In vivo, Cell Line, Tumor, Animals, Humans, Dissolution, Drug Carriers, Chemistry, Water, Mesoporous silica, Silicon Dioxide, 021001 nanoscience & nanotechnology, Rats, Bioavailability, Solubility, Celecoxib, Gastric Mucosa, Solvents, Nanoparticles, Caco-2 Cells, 0210 nano-technology, Porosity, Nuclear chemistry

Abstract

The objective of our study was to prepare mesoporous silica nanoparticles with a core–shell structure (CSMSNs) and improve the dissolution and bioavailability of Celecoxib (Cxb), a water-insoluble drug, by changing its needlelike crystal form. CSMSNs are prepared by a core-shell segmentation self-assembly method. The S BET and V t of CSMSNs were 890.65 m 2 /g and 1.23 cm 3 /g, respectively. Cxb was incorporated into CSMSNs by the solvent evaporation method. The gastrointestinal irritancy of the CSMSNs was evaluated by a gastric mucosa irritation test. In vitro dissolution and in vivo pharmacokinetic tests were carried out to study the improvement in the dissolution behavior and oral bioavailability of Cxb. In conclusion, Gastric mucosa irritation study indicated the good biocompatibility of CSMSNs. The cumulative dissolution of CSMSNs-Cxb is 86.2% within 60 min in SIF solution, which may be ascribed to the crystal form change caused by control of the nano-channel for CSMSNs. Moreover, CSMSNs could enhance the 9.9-fold AUC of Cxb. The cumulative dissolution and bioavailability of Cxb were both significantly enhanced by CSMSNs. CSMSNs with a core–shell structure are suitable as a carrier for a poorly water-soluble drug (Cxb).

Published

2019

50. Improved Intestinal Mucus Permeation of Vancomycin via Incorporation Into Nanocarrier Containing Papain-Palmitate

Author

Nuri Ari Efiana, Christian W. Huck, Andreas Bernkop-Schnürch, and Aida Dizdarević

Subjects

Palmitates, Pharmaceutical Science, 02 engineering and technology, 030226 pharmacology & pharmacy, Permeability, 03 medical and health sciences, Drug Delivery Systems, 0302 clinical medicine, Pulmonary surfactant, Vancomycin, Cell Line, Tumor, Papain, medicine, Zeta potential, Humans, Intestinal Mucosa, Drug Carriers, Chromatography, Chemistry, Kolliphor EL, Permeation, 021001 nanoscience & nanotechnology, Mucus, Emulsifying Agents, Drug delivery, Lipophilicity, Nanoparticles, Emulsions, Caco-2 Cells, Nanocarriers, 0210 nano-technology, Hydrophobic and Hydrophilic Interactions, medicine.drug

Abstract

The aim of this study was to improve intestinal mucus permeation of a peptide antibiotic via incorporation into papain-palmitate–modified self-emulsifying drug delivery systems (SEDDS) as nanocarrier. Vancomycin as a peptide antibiotic was lipidized by hydrophobic ion pair formation using sodium bis-2-ethylhexyl-sulphosuccinate before incorporation in SEDDS comprising Capmul MCM, propylenglycol, and Kolliphor EL (2:1:2). As mucolytic agent, 0.5% papain-palmitate was introduced in SEDDS formulation containing the vancomycin-sodium bis-2-ethylhexyl-sulphosuccinate ion pair. The formulation was evaluated regarding droplet size, zeta potential, and cytotoxicity using Caco-2 cells previous to intestinal mucus permeation studies using Transwell diffusion and rotating tube method. The hydrophobic ion pair product yielded from surfactant to drug ratio of 3:1 provided a 25-fold increase in lipophilicity, drug payload in SEDDS of 5%, and log DSEDDS/release medium of 2.2. The formulation exhibited a droplet size and zeta potential of 221.5 ± 14.8 nm and −4.2 ± 0.8 mV, respectively. Cytotoxicity study showed that SEDDS formulations were not toxic. Introducing 0.5% papain-palmitate increased the mucus permeability of SEDDS 2.8-fold and 3.3-fold in Transwell diffusion and rotating tube studies, respectively. According to these results, papain decorated SEDDS might be a potential strategy to improve the mucus permeating properties of peptide antibiotics.

Published

2019