Ons of DN203368 at m/z 356.2005, 267.1479, 237.1266, 159.0799, 143.0851 and 107.0491; having said that, the fragment ion (m/z 86.0966) getting an N-ethylisopropyl group was not observed as a result of the loss of isopropyl group. The MS/MS spectrum of M5 indicated that the isopropyl moiety loss occurred inside the piperazine ring. 3.2. Profiling of DN203368 Metabolites Applying a Metabolomic Approach Compared together with the standard strategy, the LC-MS-based metabolomic approach is additional helpful for the extensive profiling of drug metabolites. The multivariate statistical ErbB3/HER3 list analysis can facilitate drug metabolite characterization and metabolic pathway enrichment [18,25,26]. Within this study, a metabolomics approach was applied to characterize drug metabolites of DN203368 comprehensively. PCA evaluation showed a clear difference in between the DN203368 treatment group as well as the heat-deactivated handle group, as shown in Figure 5A (RLM) and 5D (HLM). R2 X (0.91) and Q2 (0.66) indicate the goodness of fit and predictability from the model, respectively. OPLS-DA analysis also yielded clear CYP26 Species separation among the two groups. (RLM (R2 X = 0.955, Q2 = 1, and p = 0.03102) and HLM (R2 X = 0.942, Q2 = 1, and p = 0.02843)). The S-plot of OPLS-DA was made use of to recognize variables contributing to this group separation. Metabolite profiling focused principally on the topranking variables, which had been observed at the top proper position within the S-plot [25,27]. The Splot revealed numerous possible DN203368 metabolites and their connected ions contributing by far the most for the separation (Figure 5C,F), which included metabolites located inside the conventional approach, which include hydroxylated (M1 three) and N-deisopropylated (M5) DN203368 and Noxide metabolite (M4). Two novel metabolites (M6 and M7) produced by unexpected biotransformations have been also identified.Pharmaceutics 2021, 13,11 ofFigure 5. Multivariate information analysis of DN203368 metabolites in rat liver microsomes (RLM, (A )) and human liver microsomes (HLM, (D )). Score plots generated by a principal element analysis (A,D) and orthogonal partial leastsquares discriminant analysis (B,E); loading S-plot generated by an OPLS-DA for RLM (C) and HLM (F). The p(corr)(1) values represent the interclass difference, plus the p(1) values represent the relevant abundance of ions. Data processing and model construction are described inside the Materials and Strategies. Metabolites of DN203368 are labeled in the S-plot.The protonated molecular ion of M6 was observed at m/z 415.2729 and eluted at 7.18 min. The accurate mass measurement indicated that the chemical formula was C28 H34 N2 O, suggesting the loss of C2 H2 from DN203368. The fragment ions of M6 at m/z 356.2000, 237.1270, 159.0801, 143.0853, and 107.0493 have been equal to these from the parent, suggesting that loss in the ethyl group occurred in the isopropylpiperazine group of DN203368 (Figures 3G and 4G). The fragment ion at m/z 86.0969 was also observed in the item ion scan mass spectrum of both M6 and DN203368, indicating that the ring opening occurred around the piperazine ring. Based on these outcomes, metabolite M6 was identified as N,N-desethyl-DN203368. This N,N-dealkylated metabolite has been reported previously in the metabolism of drugs containing a piperazine ring [12,28]. The protonated molecular ion of M7 was observed at m/z 455.2683 and eluted at 7.01 min. The fragment ions of M7 were located at m/z 323.1744, 281.1276, and 251.1046, 14 Da greater than those on the parent compound (Figures 3H and 4H). Fragment.