Jessica M Vanslambrouck1, Sean B Wilson1, Ker Sin Tan1, Joanne Y-C Soo1, Michelle Scurr1, H Siebe Spijker1,2, Lakshi T Starks1, Amber Neilson3, Xiaoxia Cui3, Sanjay Jain4, Melissa Helen Little5,6,7, Sara E Howden1,6. 1. Murdoch Children's Research Institute, Melbourne, Victoria, Australia. 2. Department of Nephrology, Leiden University Medical Center, Leiden, The Netherlands. 3. Department of Genetics, Genome Engineering and iPSC Center and. 4. Department of Medicine, Kidney Translational Research Center, Washington University School of Medicine, St. Louis, Missouri; and. 5. Murdoch Children's Research Institute, Melbourne, Victoria, Australia; melissa.little@mcri.edu.au. 6. Faculty of Medicine, Dentistry and Health Sciences, Department of Paediatrics and. 7. Department of Anatomy and Neuroscience, University of Melbourne, Victoria, Australia.
Abstract
BACKGROUND: The generation of reporter lines for cell identity, lineage, and physiologic state has provided a powerful tool in advancing the dissection of mouse kidney morphogenesis at a molecular level. Although use of this approach is not an option for studying human development in vivo, its application in human induced pluripotent stem cells (iPSCs) is now feasible. METHODS: We used CRISPR/Cas9 gene editing to generate ten fluorescence reporter iPSC lines designed to identify nephron progenitors, podocytes, proximal and distal nephron, and ureteric epithelium. Directed differentiation to kidney organoids was performed according to published protocols. Using immunofluorescence and live confocal microscopy, flow cytometry, and cell sorting techniques, we investigated organoid patterning and reporter expression characteristics. RESULTS: Each iPSC reporter line formed well patterned kidney organoids. All reporter lines showed congruence of endogenous gene and protein expression, enabling isolation and characterization of kidney cell types of interest. We also demonstrated successful application of reporter lines for time-lapse imaging and mouse transplantation experiments. CONCLUSIONS: We generated, validated, and applied a suite of fluorescence iPSC reporter lines for the study of morphogenesis within human kidney organoids. This fluorescent iPSC reporter toolbox enables the visualization and isolation of key populations in forming kidney organoids, facilitating a range of applications, including cellular isolation, time-lapse imaging, protocol optimization, and lineage-tracing approaches. These tools offer promise for enhancing our understanding of this model system and its correspondence with human kidney morphogenesis.
BACKGROUND: The generation of reporter lines for cell identity, lineage, and physiologic state has provided a powerful tool in advancing the dissection of mouse kidney morphogenesis at a molecular level. Although use of this approach is not an option for studying human development in vivo, its application in human induced pluripotent stem cells (iPSCs) is now feasible. METHODS: We used CRISPR/Cas9 gene editing to generate ten fluorescence reporter iPSC lines designed to identify nephron progenitors, podocytes, proximal and distal nephron, and ureteric epithelium. Directed differentiation to kidney organoids was performed according to published protocols. Using immunofluorescence and live confocal microscopy, flow cytometry, and cell sorting techniques, we investigated organoid patterning and reporter expression characteristics. RESULTS: Each iPSC reporter line formed well patterned kidney organoids. All reporter lines showed congruence of endogenous gene and protein expression, enabling isolation and characterization of kidney cell types of interest. We also demonstrated successful application of reporter lines for time-lapse imaging and mouse transplantation experiments. CONCLUSIONS: We generated, validated, and applied a suite of fluorescence iPSC reporter lines for the study of morphogenesis within human kidney organoids. This fluorescent iPSC reporter toolbox enables the visualization and isolation of key populations in forming kidney organoids, facilitating a range of applications, including cellular isolation, time-lapse imaging, protocol optimization, and lineage-tracing approaches. These tools offer promise for enhancing our understanding of this model system and its correspondence with human kidney morphogenesis.
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