Use of the bacterial reverse mutation assay to predict carcinogenicity of N-nitrosamines

Alejandra Trejo-Martin; Joel P Bercu; Andrew Thresher; Rachael E Tennant; Robert F Thomas; Kevin Cross; Andreas Czich; Kerstin Waese; John J Nicolette; Joel Murray; Paul Sonders; Alison Kondratiuk; Jennifer R Cheung; Dean Thomas; Anthony Lynch; James Harvey; Susanne Glowienke; Laura Custer; Patricia A Escobar

doi:10.1016/j.yrtph.2022.105247

Use of the bacterial reverse mutation assay to predict carcinogenicity of N-nitrosamines

Regul Toxicol Pharmacol. 2022 Nov:135:105247. doi: 10.1016/j.yrtph.2022.105247. Epub 2022 Aug 23.

Authors

Alejandra Trejo-Martin¹, Joel P Bercu², Andrew Thresher³, Rachael E Tennant³, Robert F Thomas³, Kevin Cross⁴, Andreas Czich⁵, Kerstin Waese⁵, John J Nicolette⁶, Joel Murray⁷, Paul Sonders⁷, Alison Kondratiuk⁷, Jennifer R Cheung⁸, Dean Thomas⁹, Anthony Lynch⁹, James Harvey⁹, Susanne Glowienke¹⁰, Laura Custer¹¹, Patricia A Escobar¹²

Affiliations

¹ Gilead Sciences, Inc., Nonclinical Safety and Pathobiology (NSP), Foster City, CA, 94404, USA. Electronic address: Alejandra.Trejo-Martin@gilead.com.
² Gilead Sciences, Inc., Nonclinical Safety and Pathobiology (NSP), Foster City, CA, 94404, USA.
³ Lhasa Limited, Granary Wharf House, 2 Canal Wharf, Leeds, West Yorkshire, LS11 5PS, UK.
⁴ Leadscope, Inc., an Instem Company, Columbus, OH, 43215, USA.
⁵ Sanofi, R&D Preclinical Safety, D-65926, Frankfurt, Germany.
⁶ Janssen Pharmaceuticals, Global Toxicology, Raritan, New Jersey, USA.
⁷ AbbVie, Inc., Pre-clinical Safety, North Chicago, IL, USA.
⁸ Pfizer Worldwide Research and Development, Genetic Toxicology, Eastern Point Road, Groton, CT, USA.
⁹ GlaxoSmithKline R&D, Park Road, Ware, Hertfordshire, SG12 0DP, UK.
¹⁰ Novartis AG, NIBR, Pre-clinical Safety, WSJ-340, CH-4002 Basel, Switzerland.
¹¹ Bristol-Myers Squibb, Nonclinical Safety, 1 Squibb Dr, New Brunswick, NJ, 08903, USA.
¹² Merck & Co., Inc., Kenilworth, MSD, NJ, USA.

PMID: 35998738
DOI: 10.1016/j.yrtph.2022.105247

Abstract

Under ICH M7, impurities are assessed using the bacterial reverse mutation assay (i.e., Ames test) when predicted positive using in silico methodologies followed by expert review. N-Nitrosamines (NAs) have been of recent concern as impurities in pharmaceuticals, mainly because of their potential to be highly potent mutagenic carcinogens in rodent bioassays. The purpose of this analysis was to determine the sensitivity of the Ames assay to predict the carcinogenic outcome with curated proprietary Vitic (n = 131) and Leadscope (n = 70) databases. NAs were selected if they had corresponding rodent carcinogenicity assays. Overall, the sensitivity/specificity of the Ames assay was 93-97% and 55-86%, respectively. The sensitivity of the Ames assay was not significantly impacted by plate incorporation (84-89%) versus preincubation (82-89%). Sensitivity was not significantly different between use of rat and hamster liver induced S9 (80-93% versus 77-96%). The sensitivity of the Ames is high when using DMSO as a solvent (87-88%). Based on the analysis of these databases, the Ames assay conducted under OECD 471 guidelines is highly sensitive for detecting the carcinogenic hazards of NAs.

Keywords: Ames; Carcinogenicity; Impurities; Nitrosamines; OECD 471; Pharmaceuticals; Sensitivity.

MeSH terms

Animals
Bacteria
Biological Assay
Carcinogens / toxicity
Cricetinae
Dimethyl Sulfoxide*
Mutation
Nitrosamines* / metabolism
Nitrosamines* / toxicity
Pharmaceutical Preparations
Rats
Rodentia / metabolism
Solvents

Substances

Carcinogens
Nitrosamines
Pharmaceutical Preparations
Solvents
Dimethyl Sulfoxide