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Bioengineering Self-Organizing Signaling Centers to Control Embryoid Body Pattern Elaboration

Fokion Glykofrydis, Élise Cachat, Ieva Berzanskyte, Elaine Dzierzak, Jamie A. Davies

2021ACS Synthetic Biology36 citationsDOIOpen Access PDF

Abstract

Multicellular systems possess an intrinsic capacity to autonomously generate nonrandom state distributions or morphologies in a process termed self-organization. Facets of self-organization, such as pattern formation, pattern elaboration, and symmetry breaking, are frequently observed in developing embryos. Artificial stem cell-derived structures including embryoid bodies (EBs), gastruloids, and organoids also demonstrate self-organization, but with a limited capacity compared to their in vivo developmental counterparts. There is a pressing need for better tools to allow user-defined control over self-organization in these stem cell-derived structures. Here, we employ synthetic biology to establish an efficient platform for the generation of self-organizing coaggregates, in which HEK-293 cells overexpressing P-cadherin (Cdh3) spontaneously form cell clusters attached mostly to one or two locations on the exterior of EBs. These Cdh3-expressing HEK cells, when further engineered to produce functional mouse WNT3A, evoke polarized and gradual Wnt/β-catenin pathway activation in EBs during coaggregation cultures. The localized WNT3A provision induces nascent mesoderm specification within regions of the EB close to the Cdh3-Wnt3a-expressing HEK source, resulting in pattern elaboration and symmetry breaking within EBs. This synthetic biology-based approach puts us closer toward engineering synthetic organizers to improve the realism in stem cell-derived structures.

Topics & Concepts

HEK 293 cellsEmbryoid bodyCell biologyWnt signaling pathwayWNT3AMulticellular organismBiologyStem cellCell fate determinationSynthetic biologyEmbryonic stem cellCellGeneticsCell cultureSignal transductionAdult stem cellTranscription factorGenePluripotent Stem Cells ResearchDevelopmental Biology and Gene RegulationPlanarian Biology and Electrostimulation