Stem Cell Reports (Mar 2018)

Renal Subcapsular Transplantation of PSC-Derived Kidney Organoids Induces Neo-vasculogenesis and Significant Glomerular and Tubular Maturation In Vivo

  • Cathelijne W. van den Berg,
  • Laila Ritsma,
  • M. Cristina Avramut,
  • Loes E. Wiersma,
  • Bernard M. van den Berg,
  • Daniëlle G. Leuning,
  • Ellen Lievers,
  • Marije Koning,
  • Jessica M. Vanslambrouck,
  • Abraham J. Koster,
  • Sara E. Howden,
  • Minoru Takasato,
  • Melissa H. Little,
  • Ton J. Rabelink

Journal volume & issue
Vol. 10, no. 3
pp. 751 – 765

Abstract

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Summary: Human pluripotent stem cell (hPSC)-derived kidney organoids may facilitate disease modeling and the generation of tissue for renal replacement. Long-term application, however, will require transferability between hPSC lines and significant improvements in organ maturation. A key question is whether time or a patent vasculature is required for ongoing morphogenesis. Here, we show that hPSC-derived kidney organoids, derived in fully defined medium conditions and in the absence of any exogenous vascular endothelial growth factor, develop host-derived vascularization. In vivo imaging of organoids under the kidney capsule confirms functional glomerular perfusion as well as connection to pre-existing vascular networks in the organoids. Wide-field electron microscopy demonstrates that transplantation results in formation of a glomerular basement membrane, fenestrated endothelial cells, and podocyte foot processes. Furthermore, compared with non-transplanted organoids, polarization and segmental specialization of tubular epithelium are observed. These data demonstrate that functional vascularization is required for progressive morphogenesis of human kidney organoids. : In this article, Van den Berg and colleagues show that PSC-derived kidney organoids contain nephron structures but remain disorganized and immature after prolonged culture. Upon transplantation, the organoids develop host-derived vascularization, functional glomerular perfusion, and connection to pre-existing vascular networks. The authors conclude that patent vasculature is required for ongoing morphogenesis and maturation of these kidney organoids. Keywords: human pluripotent stem cells, directed differentiation, kidney organoids, transplantation, intravital microscopy, vascularization, maturation