ReBuilding the Kidney Coordinating Center

Key Personnel

• Hongsuda Tangmunarunkit
  University of Southern California
• Cris Williams
  University of Southern California

Project Description

The Coordinating Center manages activities of the Consortium, including research and collaboration opportunities, and facilitates communication of research results, data, and methods within the Consortium and to the community. We created and manage a data hub to accelerate the pace of collaboration within the Consortium and disseminate results to the broader research community.

Publications

1. Abstract

   Conserved and Divergent Features of Human and Mouse Kidney Organogenesis.

   Lindström, NO; McMahon, JA; Guo, J; Tran, T; Guo, Q; Rutledge, E; Parvez, RK; Saribekyan, G; Schuler, RE; Liao, C; Kim, AD; Abdelhalim, A; Ruffins, SW; Thornton, ME; Basking, L; Grubbs, B; Kesselman, C; McMahon, AP. J Am Soc Nephrol . February 2018.

   Human kidney function is underpinned by approximately 1,000,000 nephrons, although the number varies substantially, and low nephron number is linked to disease. Human kidney development initiates around 4 weeks of gestation and ends around 34-37 weeks of gestation. Over this period, a reiterative inductive process establishes the nephron complement. Studies have provided insightful anatomic descriptions of human kidney development, but the limited histologic views are not readily accessible to a broad audience. In this first paper in a series providing comprehensive insight into human kidney formation, we examined human kidney development in 135 anonymously donated human kidney specimens. We documented kidney development at a macroscopic and cellular level through histologic analysis, RNA in situ hybridization, immunofluorescence studies, and transcriptional profiling, contrasting human development (4-23 weeks) with mouse development at selected stages (embryonic day 15.5 and postnatal day 2). The high-resolution histologic interactive atlas of human kidney organogenesis generated can be viewed at the GUDMAP database (www.gudmap.org) together with three-dimensional reconstructions of key components of the data herein. At the anatomic level, human and mouse kidney development differ in timing, scale, and global features such as lobe formation and progenitor niche organization. The data also highlight differences in molecular and cellular features, including the expression and cellular distribution of anchor gene markers used to identify key cell types in mouse kidney studies. These data will facilitate and inform in vitro efforts to generate human kidney structures and comparative functional analyses across mammalian species.

2. Abstract

   Kidney repair and regeneration: perspectives of the NIDDK (Re)Building a Kidney consortium

   Naved, Bilal A.; Bonventre, Joseph V.; Hubbell, Jeffrey A.; Hukriede, Neil A.; Humphreys, Benjamin D.; Kesselman, Carl; Valerius, M. Todd; McMahon, Andrew P.; Shankland, Stuart J.; Wertheim, Jason A.; White, Michael J.V.; de Caestecker, Mark P.; Drummond, Iain A. Kidney International . March 2022.

   Acute kidney injury impacts ∼13.3 million individuals and causes ∼1.7 million deaths per year globally. Numerous injury pathways contribute to acute kidney injury, including cell cycle arrest, senescence, inflammation, mitochondrial dysfunction, and endothelial injury and dysfunction, and can lead to chronic inflammation and fibrosis. However, factors enabling productive repair versus nonproductive, persistent injury states remain less understood. The (Re)Building a Kidney (RBK) consortium is a National Institute of Diabetes and Digestive and Kidney Diseases consortium focused on both endogenous kidney repair mechanisms and the generation of new kidney tissue. This short review provides an update on RBK studies of endogenous nephron repair, addressing the following questions: (i) What is productive nephron repair? (ii) What are the cellular sources and drivers of repair? and (iii) How do RBK studies promote development of therapeutics? Also, we provide a guide to RBK’s open access data hub for accessing, downloading, and further analyzing data sets.

3. Abstract

   Conserved and Divergent Features of Human and Mouse Kidney Organogenesis.

   Lindström, NO; McMahon, JA; Guo, J; Tran, T; Guo, Q; Rutledge, E; Parvez, RK; Saribekyan, G; Schuler, RE; Liao, C; Kim, AD; Abdelhalim, A; Ruffins, SW; Thornton, ME; Basking, L; Grubbs, B; Kesselman, C; McMahon, AP. J Am Soc Nephrol . February 2018.

   Human kidney function is underpinned by approximately 1,000,000 nephrons, although the number varies substantially, and low nephron number is linked to disease. Human kidney development initiates around 4 weeks of gestation and ends around 34-37 weeks of gestation. Over this period, a reiterative inductive process establishes the nephron complement. Studies have provided insightful anatomic descriptions of human kidney development, but the limited histologic views are not readily accessible to a broad audience. In this first paper in a series providing comprehensive insight into human kidney formation, we examined human kidney development in 135 anonymously donated human kidney specimens. We documented kidney development at a macroscopic and cellular level through histologic analysis, RNA in situ hybridization, immunofluorescence studies, and transcriptional profiling, contrasting human development (4-23 weeks) with mouse development at selected stages (embryonic day 15.5 and postnatal day 2). The high-resolution histologic interactive atlas of human kidney organogenesis generated can be viewed at the GUDMAP database (www.gudmap.org) together with three-dimensional reconstructions of key components of the data herein. At the anatomic level, human and mouse kidney development differ in timing, scale, and global features such as lobe formation and progenitor niche organization. The data also highlight differences in molecular and cellular features, including the expression and cellular distribution of anchor gene markers used to identify key cell types in mouse kidney studies. These data will facilitate and inform in vitro efforts to generate human kidney structures and comparative functional analyses across mammalian species.

4. Abstract

   (Re)Building a Kidney.

   Oxburgh, L; Carroll, TJ; Cleaver, O; Gossett, DR; Hoshizaki, DK; Hubbell, JA; Humphreys, BD; Jain, S; Jensen, J; Kaplan, DL; Kesselman, C; Ketchum, CJ; Little, MH; McMahon, AP; Shankland, SJ; Spence, JR; Valerius, MT; Wertheim, JA; Wessely, O; Zheng, Y; Drummond, IA. J Am Soc Nephrol . 28(5):1370–1378. May 2017.

   (Re)Building a Kidney is a National Institute of Diabetes and Digestive and Kidney Diseases-led consortium to optimize approaches for the isolation, expansion, and differentiation of appropriate kidney cell types and the integration of these cells into complex structures that replicate human kidney function. The ultimate goals of the consortium are two-fold: to develop and implement strategies for in vitro engineering of replacement kidney tissue, and to devise strategies to stimulate regeneration of nephrons in situ to restore failing kidney function. Projects within the consortium will answer fundamental questions regarding human gene expression in the developing kidney, essential signaling crosstalk between distinct cell types of the developing kidney, how to derive the many cell types of the kidney through directed differentiation of human pluripotent stem cells, which bioengineering or scaffolding strategies have the most potential for kidney tissue formation, and basic parameters of the regenerative response to injury. As these projects progress, the consortium will incorporate systematic investigations in physiologic function of in vitro and in vivo differentiated kidney tissue, strategies for engraftment in experimental animals, and development of therapeutic approaches to activate innate reparative responses.