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An ultrathin membrane mediates tissue-specific morphogenesis and barrier function in a human kidney chip

Xingrui Mou, Jessica Shah, Yasmin Roye, Carolyn Du, Samira Musah

2024Science Advances39 citationsDOIOpen Access PDF

Abstract

Organ-on-chip (OOC) systems are revolutionizing tissue engineering by providing dynamic models of tissue structure, organ-level function, and disease phenotypes using human cells. However, nonbiological components of OOC devices often limit the recapitulation of in vivo-like tissue-tissue cross-talk and morphogenesis. Here, we engineered a kidney glomerulus-on-a-chip that recapitulates glomerular morphogenesis and barrier function using a biomimetic ultrathin membrane and human-induced pluripotent stem cells. The resulting chip comprised a proximate epithelial-endothelial tissue interface, which reconstituted the selective molecular filtration function of healthy and diseased kidneys. In addition, fenestrated endothelium was successfully induced from human pluripotent stem cells in an OOC device, through in vivo-like paracrine signaling across the ultrathin membrane. Thus, this device provides a dynamic tissue engineering platform for modeling human kidney-specific morphogenesis and function, enabling mechanistic studies of stem cell differentiation, organ physiology, and pathophysiology.

Topics & Concepts

MorphogenesisFunction (biology)Cell biologyOrgan-on-a-chipKidneyMembraneBiologyNanotechnologyBiophysicsMaterials scienceBiochemistryGeneMicrofluidicsEndocrinology3D Printing in Biomedical ResearchTissue Engineering and Regenerative MedicinePluripotent Stem Cells Research
An ultrathin membrane mediates tissue-specific morphogenesis and barrier function in a human kidney chip | Litcius