A Multimodal and Integrated Approach to Interrogate Human Kidney Biopsies with Rigor and Reproducibility: Guidelines from the Kidney Precision Medicine Project

Overview

Journal Physiol Genomics

Publisher American Physiological Society

Specialties Genetics
Molecular Biology

Date 2020 Nov 16

PMID 33197228

Citations 39

Authors

Tarek M El-Achkar

Michael T Eadon

Rajasree Menon

Blue B Lake

Tara K Sigdel

Theodore Alexandrov

Samir Parikh

Guanshi Zhang

Dejan Dobi

Kenneth W Dunn

Edgar A Otto

Christopher R Anderton

Jonas M Carson

Jinghui Luo

Chris Park

Habib Hamidi

Jian Zhou

Paul Hoover

Andrew Schroeder

Marianinha Joanes

Evren U Azeloglu

Rachel Sealfon

Seth Winfree

Becky Steck

Yongqun He

Vivette DAgati

Ravi Iyengar

Olga G Troyanskaya

Laura Barisoni

Joseph Gaut

Kun Zhang

Zoltan Laszik

Brad H Rovin

Pierre C Dagher

Kumar Sharma

Minnie M Sarwal

Jeffrey B Hodgin

Charles E Alpers

Matthias Kretzler

Sanjay Jain

Affiliations

Soon will be listed here.

Abstract

Comprehensive and spatially mapped molecular atlases of organs at a cellular level are a critical resource to gain insights into pathogenic mechanisms and personalized therapies for diseases. The Kidney Precision Medicine Project (KPMP) is an endeavor to generate three-dimensional (3-D) molecular atlases of healthy and diseased kidney biopsies by using multiple state-of-the-art omics and imaging technologies across several institutions. Obtaining rigorous and reproducible results from disparate methods and at different sites to interrogate biomolecules at a single-cell level or in 3-D space is a significant challenge that can be a futile exercise if not well controlled. We describe a "follow the tissue" pipeline for generating a reliable and authentic single-cell/region 3-D molecular atlas of human adult kidney. Our approach emphasizes quality assurance, quality control, validation, and harmonization across different omics and imaging technologies from sample procurement, processing, storage, shipping to data generation, analysis, and sharing. We established benchmarks for quality control, rigor, reproducibility, and feasibility across multiple technologies through a pilot experiment using common source tissue that was processed and analyzed at different institutions and different technologies. A peer review system was established to critically review quality control measures and the reproducibility of data generated by each technology before their being approved to interrogate clinical biopsy specimens. The process established economizes the use of valuable biopsy tissue for multiomics and imaging analysis with stringent quality control to ensure rigor and reproducibility of results and serves as a model for precision medicine projects across laboratories, institutions and consortia.

Citing Articles

Human BioMolecular Atlas Program (HuBMAP): 3D Human Reference Atlas construction and usage.

Borner K, Blood P, Silverstein J, Ruffalo M, Satija R, Teichmann S Nat Methods. 2025; .

PMID: 40082611 DOI: 10.1038/s41592-024-02563-5.

Construction, Deployment, and Usage of the Human Reference Atlas Knowledge Graph for Linked Open Data.

Bueckle A, Herr 2nd B, Herr B, Hardi J, Quardokus E, Musen M bioRxiv. 2025; .

PMID: 39764040 PMC: 11703146. DOI: 10.1101/2024.12.22.630006.

Integrated multiomic analyses: An approach to improve understanding of diabetic kidney disease.

Hill C, McKnight A, Smyth L Diabet Med. 2024; 42(2):e15447.

PMID: 39460977 PMC: 11733670. DOI: 10.1111/dme.15447.

Thermal Denaturation of Fresh Frozen Tissue Enhances Mass Spectrometry Detection of Peptides.

Kruse A, Judd A, Gutierrez D, Allen J, Dufresne M, Farrow M Anal Chem. 2024; 96(42):16861-16870.

PMID: 39392310 PMC: 11503521. DOI: 10.1021/acs.analchem.4c03625.

The Kidney Precision Medicine Project and Single-Cell Biology of the Injured Proximal Tubule.

Janosevic D, De Luca T, Eadon M Am J Pathol. 2024; 195(1):7-22.

PMID: 39332674 PMC: 11686451. DOI: 10.1016/j.ajpath.2024.09.006.

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