Creating artificial signaling gradients to spatially pattern engineered tissues

Artificially constructing a fully-fledged tissue — comprising multiple cell types whose identities and spatial arrangements reflect those of a native tissue — remains daunting. There has been impressive progress in generating three-dimensional cell cultures (often dubbed ‘organoids’) from stem cells. However, it is critical to appreciate that not all such three-dimensional cultures will intrinsically self-organize to spontaneously recreate native tissue architecture. Instead, most tissues in vivo are exogenously patterned by extracellular signaling gradients emanating from organizer cells located outside the tissue. Innovations to impose artificial signaling gradients — using microfluidics, optogenetics, or introducing organizer cells — could thus prove decisive to create spatially patterned tissues in vitro. Additionally, unified terminology to describe these tissue-like simulacra as ‘aggregates’, ‘spheroids’, or ‘organoids’ will be critical for the field.