Time of flight mass spectrometry based in vitro and in vivo metabolite profiling of ribociclib and their toxicity prediction

The metabolic investigation in the drug discovery process is an imperative aspect for selection of drug candidates with excellent therapeutic efficacy and safety profile. Ribociclib (RIBO), an orally active Cyclin dependent kinases inhibitor recently approved by USFDA for its clinical efficacy against human epithelial growth factor receptor negative and hormonal receptor positive advanced breast Cancer. Although an in vitro metabolite identification study of RIBO is available in literature, no systematic metabolic investigation including detailed structural characterization and toxicity prediction of the metabolites generated in in vivo system is reported till date. Therefore, in this study, we focused on the characterization of its entire metabolites generated in in vitro as well as in vivo matrices. In vitro study includes incubation of RIBO in rat and human liver microsomes and human S9 fraction, while in vivo study was carried out using plasma, urine and faeces samples of male Sprague Dawley rats. A total of 22 metabolites were successfully separated on Agilent SB C18 (100 × 4.6 mm, 2.7µ) column using ammonium formate (pH 3.5) and acetonitrile as mobile phase. Metabolites were identified with the help of UHPLC-ESI-Q-TOF-MS/MS by accurate mass measurement. RIBO was found to be metabolised by N- dealkylation, sulphation, acetylation, oxidation, hydroxylation, carbonylation, dehydrogenation and by a combination of these reactions. The in silico toxicity profiling of all the metabolites was carried out with the help of ProTox-II software. Ten out of twenty two newly identified metabolites showed to have potential for possessing immunotoxicity. Novelty of this investigation can be justified by the unavailability of any previously published literature on complete in vitro and in vivo metabolite profiling of RIBO. Moreover, in silico toxicity of the metabolites were also not known till date.