UC Davis

Pluripotent stem cells (PSC) can be stabilized in vitro from pre-implantation stage embryos (embryonic stem cells, ESC) or by reprogramming adult somatic cells (induced pluripotent stem cells, iPSC). The last decade has seen significant advances in the livestock PSC field, particularly the development of robust methods for long-term culture of PSC from several livestock species. Along with this, considerable progress has been made in understanding the states of cellular pluripotency and what they mean for cell differentiation capacity, and significant efforts are ongoing to dissect the critical signaling pathways required for the maintenance of PSC in different species and distinct states of pluripotency. Among the cell types that can be generated from PSC, the germline holds special importance as they are the genetic link between generations; and devising methods to enable in vitro gametogenesis (IVG) and produce viable gametes could revolutionize animal agriculture, wildlife conservation, and human assisted reproduction alike. Within the last decade, many pivotal studies about IVG were published using rodent models, filling some critical knowledge gaps in the field. Most importantly, the entire female reproductive cycle was reproduced in vitro from mouse ESC. Although complete male gametogenesis in vitro has not yet been reported, significant advances were made showing the capacity of germline stem cell-like cells to generate healthy offspring. In this review, we provide an overview of PSC and advances in the establishment of livestock PSC; we present the breakthroughs made in rodents regarding IVG and the current progress towards livestock IVG, including the importance of a detailed understanding of fetal germline development. Finally, we discuss some key advances that will be critical to enable this technology at scale. Given the potential impact of IVG for animal agriculture, major efforts will likely continue to be employed by research institutions and industry towards the development of methods to achieve efficient generation of gametes in vitro.