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Inter- and trans-generational impacts of environmental exposures on the germline resolved at the single-cell level.

Dylan HataiMax T LevensonVirender K RehanPatrick Allard
Published in: Current opinion in toxicology (2024)
Reproduction is a remarkably intricate process involving the interaction of multiple cell types and organ systems unfolding over long periods of time and that culminates with the production of gametes. The initiation of germ cell development takes place during embryogenesis but only completes decades later in humans. The complexity inherent to reproduction and its study has long hampered our ability to decipher how environmental agents disrupt this process. Single-cell approaches provide an opportunity for a deeper understanding of the action of toxicants on germline function and analyze how the response to their exposure is differentially distributed across tissues and cell types. In addition to single-cell RNA sequencing, other single-cell or nucleus level approaches such as ATAC-sequencing and multi-omics have expanded the strategies that can be implemented in reproductive toxicological studies to include epigenomic and the nuclear transcriptomic data. Here we will discuss the current state of single-cell technologies and how they can best be utilized to advance reproductive toxicological studies. We will then discuss case studies in two model organisms ( Caenorhabditis elegans and mouse) studying different environmental exposures (alcohol and e-cigarettes respectively) to highlight the value of single-cell and single-nucleus approaches for reproductive biology and reproductive toxicology.
Keyphrases
  • single cell
  • rna seq
  • high throughput
  • germ cell
  • gene expression
  • dna repair
  • stem cells
  • electronic health record
  • big data
  • dna damage
  • machine learning
  • case control
  • bone marrow
  • gram negative