Ribociclib (KISQALI), a cyclin‐dependent kinase 4/6 inhibitor approved for the first‐line treatment of HR+/HER2– advanced breast cancer with an aromatase inhibitor, is administered with no restrictions on concomitant gastric pH‐elevating agents or food intake. The influence of proton pump inhibitors (PPIs) on ribociclib bioavailability was assessed using 1) biorelevant media solubility, 2) physiologically based pharmacokinetic (PBPK) modeling, 3) noncompartmental analysis (NCA) of clinical trial data, and 4) population PK (PopPK) analysis. This multipronged approach indicated no effect of gastric pH changes on ribociclib PK and served as a platform for supporting ribociclib labeling language, stating no impact of gastric pH‐altering agents on the absorption of ribociclib, without a dedicated drug–drug interaction trial. The bioequivalence of ribociclib exposure with or without a high‐fat meal was demonstrated in a clinical trial. Lack of restrictions on ribociclib dosing may facilitate better patient compliance and therefore clinical benefit.
New insight into the in vitro and in vivo metabolism of Cladribine (2-chloro-2'-deoxyadenosine, [2-CdA]) are presented. Following incubation of [(14)C]-2-CdA in mouse, rat, rabbit, dog, monkey and human hepatocyte cultures, variable turnover was observed with oxidations and direct glucuronidation pathways. The oxidative cleavage to 2-chloroadenine (2-CA, M1) was only observed in rabbit and rat. Following incubation of [(14)C]-2-CdA in whole blood from mouse, monkey and human, a significant turnover was observed. The main metabolites in monkey and human were 2-chlorodeoxyinosine (M11, 16% of total radioactivity) and 2-chlorodeoxyinosine (M12, 43%). In mouse, 2-CA was the major metabolite (2-CA; M1, 73%). After single intravenous and oral administration of [(14)C]-2-CdA to mice, 2-chlorodeoxyinosine (M11) was confirmed in plasma, while 2-chlorohypoxanthine (M12) and 2-CA (M1) were found in urine. Overall, the use of [(14)C]-2-CdA both in vitro (incubations in mouse, monkey and human whole blood) and in vivo (mouse) has confirmed the existence of an additional metabolism pathway leading to the formation of 2-chlorodeoxyinosine (M11) and 2-chlorohypoxanthine (M12). Formation of these two metabolites demonstrates that Cladribine as free form is not fully resistant to adenosine deaminase as suggested earlier, an enzyme involved in its mode of action.
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