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1.
Clin Pharmacol Drug Dev ; 11(2): 235-245, 2022 02.
Article in English | MEDLINE | ID: mdl-34468080

ABSTRACT

Filgotinib, an oral Janus kinase-1 preferential inhibitor, is approved in Europe and Japan for adults with rheumatoid arthritis. Patients with rheumatoid arthritis are at higher risk of cardiovascular morbidity/mortality; thus, it is important to understand potential drug-drug interactions of filgotinib with lipid-lowering agents. This open-label, randomized, 2-way crossover study evaluated the pharmacokinetics of atorvastatin, pravastatin, and rosuvastatin with and without filgotinib coadministration. Healthy participants (N = 27) received single doses of atorvastatin (40 mg) and of a pravastatin (40 mg)/rosuvastatin (10 mg) cocktail-alone or with filgotinib (200 mg once daily for 11 days)-on 2 different occasions with washout in between. Serial pharmacokinetic blood samples were collected, and safety was assessed. Pharmacokinetic parameters were evaluated using 90% confidence intervals (CI) of the geometric least-squares mean (GLSM) ratio of the test treatment (statin coadministration with filgotinib) vs statin alone, with prespecified lack-of-interaction bounds of 0.70 to 1.43. Coadministration of filgotinib did not affect atorvastatin area under the plasma concentration-time curve extrapolated to infinity (AUCinf ; [GLSM ratios (90% CI): 0.91 (0.84-0.99)]), but maximum concentration [Cmax ] was slightly lower [0.82 (0.69-0.99)]. The exposure of 2-hydroxy-atorvastatin was unaffected (GLSM ratios [90% CI], 0.98 [0.81-1.19] for Cmax ; 1.11 [1.02-1.22] for AUCinf ). Pravastatin AUCinf was also unaffected (GLSM ratios, 1.22 [1.05-1.41], but Cmax was slightly higher 1.25 [1.01-1.54]). Rosuvastatin exposure was moderately higher with filgotinib coadministration-GLSM ratios (90% CI), 1.68 (1.43-1.97) for Cmax ; 1.42 (1.30-1.57) for AUCinf -but this was not considered clinically relevant. These results indicate that filgotinib has no clinically meaningful effect on exposure of atorvastatin, pravastatin, or rosuvastatin.


Subject(s)
Pravastatin , Adult , Atorvastatin/adverse effects , Atorvastatin/pharmacokinetics , Cross-Over Studies , Drug Interactions , Healthy Volunteers , Humans , Pravastatin/adverse effects , Pravastatin/pharmacokinetics , Pyridines , Rosuvastatin Calcium , Triazoles
2.
Clin Pharmacol Ther ; 111(2): 416-424, 2022 02.
Article in English | MEDLINE | ID: mdl-34623640

ABSTRACT

Tirabrutinib is an irreversible, small-molecule Bruton's tyrosine kinase (BTK) inhibitor, which was approved in Japan (VELEXBRU) to treat B-cell malignancies and is in clinical development for inflammatory diseases. As an application of model-informed drug development, a semimechanistic pharmacokinetic/pharmacodynamic (PK/PD) model for irreversible BTK inhibition of tirabrutinib was developed to support dose selection in clinical development, based on clinical PK and BTK occupancy data from two phase I studies with a wide range of PK exposures in healthy volunteers and in subjects with rheumatoid arthritis. The developed model adequately described and predicted the PK and PD data. Overall, the model-based simulation supported a total daily dose of at least 40 mg, either q.d. or b.i.d., with adequate BTK occupancy (> 90%) for further development in inflammatory diseases. Following the PK/PD modeling and simulation, the relationship between model-predicted BTK occupancy and preliminary clinical efficacy data was also explored and a positive trend was identified between the increasing time above adequate BTK occupancy and better efficacy in treatment for RA by linear regression.


Subject(s)
Agammaglobulinaemia Tyrosine Kinase/antagonists & inhibitors , Anti-Inflammatory Agents/administration & dosage , Arthritis, Rheumatoid/drug therapy , Imidazoles/administration & dosage , Models, Biological , Protein Kinase Inhibitors/administration & dosage , Pyrimidines/administration & dosage , Adolescent , Adult , Agammaglobulinaemia Tyrosine Kinase/metabolism , Anti-Inflammatory Agents/pharmacokinetics , Arthritis, Rheumatoid/enzymology , Clinical Trials, Phase I as Topic , Computer Simulation , Drug Dosage Calculations , Female , Humans , Imidazoles/pharmacokinetics , Male , Middle Aged , Protein Kinase Inhibitors/pharmacokinetics , Pyrimidines/pharmacokinetics , Young Adult
3.
Clin Pharmacokinet ; 59(9): 1109-1117, 2020 09.
Article in English | MEDLINE | ID: mdl-32333325

ABSTRACT

BACKGROUND: Selonsertib is a first-in-class inhibitor of apoptosis signal-regulating kinase 1 (ASK1) with therapeutic potential for fibrotic diseases. This phase I study evaluated the safety, tolerability, pharmacokinetics (PK), and food effect of selonsertib in healthy subjects. METHODS: This was a double-blinded, randomized, placebo-controlled dose-escalation study. Healthy subjects received 1, 3, 10, 30, or 100 mg of selonsertib or placebo as single or multiple doses once daily for 14 days in the fasted state, or 30 mg or placebo single dose in the fed state. Blood and urine (single-dose cohorts only) samples for selonsertib PK were collected and safety was assessed throughout the study. Ex vivo pharmacodynamic (PD) assessment was performed in blood from a separate cohort of healthy donors using an auranofin-stimulated C-X-C motif chemokine ligand 1 (CXCL1) assay. RESULTS: Overall, 107 subjects (83 active, 24 placebo) were enrolled and randomized to 11 cohorts. Selonsertib was generally well tolerated; adverse events were generally mild to moderate. Selonsertib was rapidly absorbed with dose-proportional PK of both parent and inactive metabolite GS-607509. There was no food effect on selonsertib PK. Renal excretion was a minor pathway of selonsertib elimination. Selonsertib half maximal effective concentration (EC50) in human whole blood was determined to be 56 ng/mL. CONCLUSIONS: Selonsertib exhibited a favorable PK profile amenable to once-daily dosing without regard to food. PD data suggest pharmacologically relevant exposures were achieved in the dose range evaluated. Study results support further clinical development of selonsertib.


Subject(s)
Benzamides/pharmacokinetics , Imidazoles/pharmacokinetics , MAP Kinase Kinase Kinase 5 , Pyridines/pharmacokinetics , Area Under Curve , Benzamides/administration & dosage , Dose-Response Relationship, Drug , Double-Blind Method , Food-Drug Interactions , Healthy Volunteers , Humans , Imidazoles/administration & dosage , MAP Kinase Kinase Kinase 5/antagonists & inhibitors , Pyridines/administration & dosage
4.
FEBS Lett ; 590(16): 2527-35, 2016 08.
Article in English | MEDLINE | ID: mdl-27416800

ABSTRACT

Cellular retinoic acid binding proteins (CRABPs) bind all-trans-retinoic acid (atRA) tightly. This study aimed to determine whether atRA is channeled directly to cytochrome P450 (CYP) CYP26B1 by CRABPs, and whether CRABPs interact directly with CYP26B1. atRA bound to CRABPs (holo-CRABP) was efficiently metabolized by CYP26B1. Isotope dilution experiments showed that delivery of atRA to CYP26B1 in solution was similar with or without CRABP. Holo-CRABPs had higher affinity for CYP26B1 than free atRA, but both apo-CRABPs inhibited the formation of 4-OH-RA by CYP26B1. Similar protein-protein interactions between soluble binding proteins and CYPs may be important for other lipophilic CYP substrates.


Subject(s)
Protein Interaction Maps/genetics , Receptors, Retinoic Acid/metabolism , Retinoic Acid 4-Hydroxylase/metabolism , Tretinoin/metabolism , Amino Acid Sequence/genetics , Carrier Proteins/genetics , Carrier Proteins/metabolism , Endoplasmic Reticulum/genetics , Endoplasmic Reticulum/metabolism , Gene Expression Regulation , Humans , Kinetics , Receptors, Retinoic Acid/genetics , Retinoic Acid 4-Hydroxylase/chemistry , Retinoic Acid 4-Hydroxylase/genetics , Retinol-Binding Proteins, Cellular/genetics , Retinol-Binding Proteins, Cellular/metabolism , Substrate Specificity , Tretinoin/chemistry
5.
Curr Top Med Chem ; 13(12): 1402-28, 2013.
Article in English | MEDLINE | ID: mdl-23688132

ABSTRACT

Retinoic acid (RA), the active metabolite of vitamin A, is an important endogenous signaling molecule regulating cell cycle and maintenance of epithelia. RA isomers are also used as drugs to treat various cancers and dermatological diseases. However, the therapeutic uses of RA isomers are limited due to side effects such as teratogenicity and resistance to treatment emerging mainly from autoinduction of RA metabolism. To improve the therapeutic usefulness of retinoids, RA metabolism blocking agents (RAMBAs) have been developed. These inhibitors generally target the cytochrome P450 (CYP) enzymes because RA clearance is predominantly mediated by P450s. Since the initial identification of inhibitors of RA metabolism, CYP26 enzymes have been characterized as the main enzymes responsible for RA clearance. This makes CYP26 enzymes an attractive target for the development of novel therapeutics for cancer and dermatological conditions. The basic principle of development of CYP26 inhibitors is that endogenous RA concentrations will be increased in the presence of a CYP26 inhibitor, thus, potentiating the activity of endogenous RA in a cell-type specific manner. This will reduce side effects compared to administration of RA and allow for more targeted therapy. In clinical trials, inhibitors of RA metabolism have been effective in treatment of psoriasis and other dermatological conditions as well as in some cancers. However, no CYP26 inhibitor has yet been approved for clinical use. This review summarizes the history of development of RAMBAs, the clinical and preclinical studies with the various structural series and the available knowledge of structure activity relationships of CYP26 inhibitors.


Subject(s)
Cytochrome P-450 Enzyme Inhibitors , Enzyme Inhibitors/pharmacology , Xenobiotics/pharmacology , Animals , Cytochrome P-450 Enzyme System/metabolism , Enzyme Inhibitors/chemistry , Enzyme Inhibitors/therapeutic use , Humans , Molecular Structure , Retinoic Acid 4-Hydroxylase , Structure-Activity Relationship , Xenobiotics/chemistry , Xenobiotics/therapeutic use
6.
Antiviral Res ; 85(3): 482-9, 2010 Mar.
Article in English | MEDLINE | ID: mdl-19969024

ABSTRACT

Cidofovir (HPMPC) is a broad-spectrum antiviral agent, currently used to treat AIDS-related human cytomegalovirus retinitis. Cidofovir has recognized therapeutic potential for orthopox virus infections, although its use is hampered by its inherent low oral bioavailability. Val-Ser-cyclic HPMPC (Val-Ser-cHPMPC) is a promising peptide prodrug which has previously been shown by us to improve the permeability and bioavailability of the parent compound in rodent models (Eriksson et al., 2008. Molecular Pharmaceutics 5, 598-609). Puromycin-sensitive aminopeptidase was partially purified from Caco-2 cell homogenates and identified as a prodrug activating enzyme for Val-Ser-cHPMPC. The prodrug activation process initially involves an enzymatic step where the l-Valine residue is removed by puromycin-sensitive aminopeptidase, a step that is bestatin-sensitive. Subsequent chemical hydrolysis results in the generation of cHPMPC. A recombinant puromycin-sensitive aminopeptidase was generated and its substrate specificity investigated. The k(cat) for Val-pNA was significantly lower than that for Ala-pNA, suggesting that some amino acids are preferred over others. Furthermore, the three-fold higher k(cat) for Val-Ser-cHPMPC as compared to Val-pNA suggests that the leaving group may play an important role in determining hydrolytic activity. In addition to its ability to hydrolyze a variety of substrates, these observations strongly suggest that puromycin-sensitive aminopeptidase is an important enzyme for activating Val-Ser-cHPMPC in vivo. Taken together, our data suggest that puromycin-sensitive aminopeptidase makes an attractive target for future prodrug design.


Subject(s)
Aminopeptidases/metabolism , Antiviral Agents/metabolism , Cytosine/analogs & derivatives , Organophosphonates/metabolism , Prodrugs/metabolism , Aminopeptidases/genetics , Aminopeptidases/isolation & purification , Caco-2 Cells , Cidofovir , Cytosine/metabolism , Humans , Kinetics , Recombinant Proteins/genetics , Recombinant Proteins/isolation & purification , Recombinant Proteins/metabolism , Substrate Specificity
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