Co‐Assembled Supramolecular Hydrogelators Enhance Glomerulogenesis in Kidney Organoids Through Cell‐Adhesive Motifs

Abstract

AbstractSoluble biochemical agents are being employed to generate kidney organoids from human‐induced pluripotent stem cells. However, this soluble factor approach does not consider the effect of the mechanical environment on lineage commitment. Here, a mechanoresponsive nano‐environment with cell‐adhesive properties composed of supramolecular hydrogelators that co‐assemble into fibrous superstructures to form a transient network is presented, which is used to encapsulate kidney organoids. The delayed sol‐gel transition of the transient network enables fibrous superstructures to diffuse into the densely packed extracellular organoid space during the encapsulation procedure. This allows the mechanoresponsive matrix to induce a biological response beyond the organoid‐hydrogel border, and tune glomerulogenesis inside kidney organoids. In this manner, biomaterials are used as a complementary tool to soluble biochemical agents in tuning lineage commitment and refining organoid maturation.