Abstract
ABSTRACTBACKGROUNDThe nucleic acid targeted pathogen reduction (PR) system utilizing amustaline (S‐303) and glutathione (GSH) is designed to inactivate blood‐borne pathogens and leukocytes in red blood cell concentrates (PR‐RBCC). Inactivation is attained after amustaline intercalates and forms covalent nucleic acid adducts preventing replication, transcription, and translation. After pathogen inactivation, amustaline spontaneously hydrolyzes to S‐300, the primary negatively charged reaction product; amustaline is below quantifiable levels in PR‐RBCC. GSH quenches free unreacted amustaline.STUDY DESIGN AND METHODSThe genotoxic and carcinogenic potential of PR‐RBCC, the reaction by‐products, and S‐300 were assessed in accordance with the International Conference on Harmonization (ICH) guidelines and performed in compliance with the Food and Drug Administration (FDA) good laboratory practice standards, 21 CFR Part 58. in vitro bacterial reverse mutagenicity and chromosomal aberration assays were performed with and without exogenous S9 metabolic activation, and in in vivo clastogenicity and carcinogenic assays using validated murine models.RESULTSPR‐RBCCs were not genotoxic in vitro and in vivo and were non‐carcinogenic in p53+/− transgenic mice transfused over 26 weeks. Estimated safety margins for human exposure ranged from >90 to >36 fold for 2 to 5 PR‐RBCCs per day, respectively. PR‐RBCCs and S‐300 did not induce chromosome aberration in the in vivo murine bone marrow micronucleus assay at systemically toxic doses.CONCLUSIONSPR‐RBCCs did not demonstrate genotoxicity in vitro or in vivo and were not carcinogenic in vivo. These studies support the safety of PR‐RBCCs and suggest that there is no measurable genotoxic hazard associated with transfusion of PR‐RBCCs.
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