Matthew Wilson
Last active: 3/24/2020

Direct reprogramming to human nephron progenitor-like cells using inducible piggyBac transposon expression of SNAI2-EYA1-SIX1.

Vanslambrouck JM, Woodard LE, Suhaimi N, Williams FM, Howden SE, Wilson SB, Lonsdale A, Er PX, Li J, Maksimovic J, Oshlack A, Wilson MH, Little MH
Kidney Int. 2019 95 (5): 1153-1166

PMID: 30827514 · PMCID: PMC6478531 · DOI:10.1016/j.kint.2018.11.041

All nephrons in the mammalian kidney arise from a transient nephron progenitor population that is lost close to the time of birth. The generation of new nephron progenitors and their maintenance in culture are central to the success of kidney regenerative strategies. Using a lentiviral screening approach, we previously generated a human induced nephron progenitor-like state in vitro using a pool of six transcription factors. Here, we sought to develop a more efficient approach for direct reprogramming of human cells that could be applied in vivo. PiggyBac transposons are a non-viral integrating gene delivery system that is suitable for in vivo use and allows for simultaneous delivery of multiple genes. Using an inducible piggyBac transposon system, we optimized a protocol for the direct reprogramming of HK2 cells to induced nephron progenitor-like cells with expression of only 3 transcription factors (SNAI2, EYA1, and SIX1). Culture in conditions supportive of the nephron progenitor state further increased the expression of nephron progenitor genes. The refined protocol was then applied to primary human renal epithelial cells, which integrated into developing nephron structures in vitro and in vivo. Such inducible reprogramming to nephron progenitor-like cells could facilitate direct cellular reprogramming for kidney regeneration.

Copyright © 2019 International Society of Nephrology. All rights reserved.

MeSH Terms (14)

Cells, Cultured Cellular Reprogramming DNA Transposable Elements Genetic Engineering Gene Transfer Techniques Homeodomain Proteins Humans Intracellular Signaling Peptides and Proteins Nephrons Nuclear Proteins Primary Cell Culture Protein Tyrosine Phosphatases Regeneration Snail Family Transcription Factors

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