Extended culture of 2D gastruloids to model human mesoderm development.

Micropatterned human pluripotent stem cells treated with BMP4 (two-dimensional (2D) gastruloids) are among the most widely used stem cell models for human gastrulation. Due to its simplicity and reproducibility, this system is ideal for high-throughput quantitative studies of tissue patterning and has led to many insights into the mechanisms of mammalian gastrulation. However, 2D gastruloids have been studied only up to about 2 days owing to a loss of organization beyond this time with earlier protocols. Here we report an extended 2D gastruloid model to up to 10 days. We discovered a phase of highly reproducible morphogenesis between 2 and 4 days during which directed migration from the primitive streak-like region gives rise to a mesodermal layer beneath an epiblast-like layer. Multiple types of mesoderm arise with striking spatial organization including lateral plate mesoderm-like cells on the colony border and paraxial mesoderm-like cells further inside the colony. Single-cell transcriptomics showed strong similarity of these cells to mesoderm in human and nonhuman primate embryos. Our results illustrate that extended culture of 2D gastruloids provides a powerful model for human mesoderm differentiation and morphogenesis.