M. Ingram scite author profile

An in vitro model of the human kidney glomerulus — the major site of blood filtration — could facilitate drug discovery and illuminate kidney-disease mechanisms. Microfluidic organ-on-a-chip technology has been used to model the human proximal tubule, yet a kidney-glomerulus-on-a-chip has not been possible because of the lack of functional human podocytes — the cells that regulate selective permeability in the glomerulus. Here, we demonstrate an efficient (> 90%) and chemically defined method for directing the differentiation of human induced pluripotent stem (hiPS) cells into podocytes that express markers of the mature phenotype (nephrin+, WT1+, podocin+, Pax2−) and that exhibit primary and secondary foot processes. We also show that the hiPS-cell-derived podocytes produce glomerular basement-membrane collagen and recapitulate the natural tissue/tissue interface of the glomerulus, as well as the differential clearance of albumin and inulin, when co-cultured with human glomerular endothelial cells in an organ-on-a-chip microfluidic device. The glomerulus-on-a-chip also mimics adriamycin-induced albuminuria and podocyte injury. This in vitro model of human glomerular function with mature human podocytes may facilitate drug development and personalized-medicine applications.

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Quantitative prediction of human pharmacokinetic responses to drugs via fluidically coupled vascularized organ chips

Herland

et al. 2020

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Robotic fluidic coupling and interrogation of multiple vascularized organ chips

Novak¹,

Ingram²,

Marquez³

et al. 2020

Nat Biomed Eng

303

199

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M. Ingram

Mature induced-pluripotent-stem-cell-derived human podocytes reconstitute kidney glomerular-capillary-wall function on a chip

Quantitative prediction of human pharmacokinetic responses to drugs via fluidically coupled vascularized organ chips

Robotic fluidic coupling and interrogation of multiple vascularized organ chips

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