Spatially patterned kidney assembloids recapitulate progenitor self-assembly and enable high-fidelity in vivo disease modeling
Biao Huang, Pedro P. Medina, Jincan He, Zipeng Zeng, Sung‐Hyun Kim, J.C.M. Romo, Kari Koppitch, Chennan C. Zhang, Georgina Gyarmati, Yohan Park, Ruslan Bohovyk, Pierre-Emmanuel N'Guetta, Jinjin Guo, Tianyi Ma, Megan E. Schreiber, Cong Xu, Jessica Pham, Riana K. Parvez, Jianlong Su, Mateo W Xia, Zhenqing Liu, Laura Perin, Danny El‐Nachef, Charles E. Murry, Sanjeev Kumar, Lori L. O’Brien, Kurt A. Zimmerman, Justin K. Ichida, Nils O. Lindström, Núria M. Pastor‐Soler, Kenneth R. Hallows, Alexander Staruschenko, János Peti‐Peterdi, Cizhong Jiang, Andrew McMahon, Zhongwei Li
Topics & Concepts
BiologyProgenitor cellProgenitorPolycystic kidney diseaseNephronKidneyRenal stem cellKidney developmentCell biologyKidney diseaseRegeneration (biology)Cystic kidney diseaseOrganoidStem cellCrosstalkDiseaseEx vivoLimitingAutosomal dominant polycystic kidney diseaseParacrine signallingNeuroscienceReprogrammingRegenerative medicinePhenotypeRenal and related cancersTissue Engineering and Regenerative MedicineMicro and Nano Robotics