Next Generation Sequencing Workshop at the Royal Society of Medicine (London, May 2022): How genomics is on the path to modernizing Genetic Toxicology.
Anthony M LynchThalita B ZanoniJesse J SalkInigo MartincorenaRobert R YoungJill KucabCharles C ValentineCarole L YaukPatricia A EscobarKristine L WittRoland FrötschlSimon H ReedAnne AshfordPublished in: Mutagenesis (2023)
The use of error-corrected Next Generation Sequencing (ecNG) to determine mutagenicity has been a subject of growing interest and potentially a disruptive technology that could supplement, and in time, replace current testing paradigms in preclinical safety assessment. Considering this, a Next Generation Sequencing Workshop was held at the Royal Society of Medicine in London in May 2022, supported by the United Kingdom Environmental Mutagen Society (UKEMS) and TwinStrand Biosciences (WA, USA), to discuss progress and future applications of this technology. In this meeting report, the invited speakers provide an overview of the Workshop topics covered and identify future directions for research. In the area of somatic mutagenesis, several speakers reviewed recent progress made with correlating ecNGS to classic in vivo transgenic rodent mutation assays as well as exploring the use of this technology directly in humans and animals, and in complex organoid models. Additionally, ecNGS has been used for detecting off-target effects of gene editing tools and emerging data suggest ecNGS potential to measure clonal expansion of cells carrying mutations in cancer driver genes as an early marker of carcinogenic potential and for direct human biomonitoring. As such, the workshop demonstrated the importance of raising awareness and support for advancing the science of ecNGS for mutagenesis, gene editing and carcinogenesis research. Furthermore, the potential of this new technology to contribute to advances in drug and product development and improve safety assessment were extensively explored.
Keyphrases
- copy number
- human health
- genome wide
- induced apoptosis
- public health
- circulating tumor
- current status
- endothelial cells
- multidrug resistant
- risk assessment
- stem cells
- big data
- endoplasmic reticulum stress
- cell cycle arrest
- papillary thyroid
- signaling pathway
- mesenchymal stem cells
- climate change
- drug induced
- lymph node metastasis
- circulating tumor cells
- cell free