HCA Data Explorer

Spatially resolved human kidney multi-omics single cell atlas highlights the key role of the fibrotic microenvironment in kidney disease progression

Updated May 12, 2023

Kidneys have one of the most complex three-dimensional cellular organizations in the body, but the spatial molecular principles of kidney health and disease are poorly understood. Here we generate high-quality single cell (sc), single nuclear (sn), spatial (sp) RNA expression and sn open chromatin datasets for 73 samples, capturing half a million cells from healthy, diabetic, and hypertensive diseased human kidneys. Combining the sn/sc and sp RNA information, we identify > 100 cell types and states and successfully map them back to their spatial locations. Computational deconvolution of spRNA-seq identifies glomerular/vascular, tubular, immune, and fibrotic spatial microenvironments (FMEs). Although injured proximal tubule cells appear to be the nidus of fibrosis, we reveal the complex, heterogenous cellular and spatial organization of human FMEs, including the highly intricate and organized immune environment. We demonstrate the clinical utility of the FME spatial gene signature for the classification of a large number of human kidneys for disease severity and prognosis. We provide a comprehensive spatially-resolved molecular roadmap for the human kidney and the fibrotic process and demonstrate the clinical utility of spatial transcriptomics.

Katalin SusztakUniversity of Pennsylvaniaksusztak@pennmedicine.upenn.edu
Amin Abedini1
Ziyuan Ma1
Julia Frederick1
Poonam Dhillon1
Michael Balzer1
Rojesh Shrestha1
Hongbo Liu1
Steven Vitale1
Kishor Devalaraja-Narashimha2
Paola Grandi3
Tanmoy Bhattacharyya3
Erding Hu3
Steven Pullen4
Carine Boustany-Kari4
Paolo Guarnieri4
Anil Karihaloo5
Hanying Yan1
Kyle Coleman1
Matthew Palmer1
Lea Sarov-Blat3
Lori Morton2
Christopher Hunter1
Mingyao Li6
Katalin Susztak1
1University of Pennsylvania
2Regeneron Pharmaceuticals Inc.
3GSK
4Boehringer Ingelheim Pharmaceuticals
5Novo Nordisk Research Center Seattle, Inc.
6University of Pennsylvania Perelman School of Medicine
Ida Zucchi

To reference this project, please use the following link:

https://explore.data.humancellatlas.dev.clevercanary.com/projects/e925633f-abd9-486a-81c6-1a6a66891d23
None
GEO Series Accessions:

Atlas

None

Analysis Portals

None

Project Label

KidneyFibroticMicroenvironment

Species

Homo sapiens

Sample Type

specimens

Anatomical Entity

kidney

Organ Part

Unspecified

Selected Cell Types

Unspecified

Disease Status (Specimen)

4 disease statuses

Disease Status (Donor)

4 disease statuses

Development Stage

human adult stage

Library Construction Method

3 library construction methods

Nucleic Acid Source

3 nucleic acid sources

Paired End

false, true

Analysis Protocol

matrix_generation_ATAC-seq, matrix_generation_RNA-seq, matrix_generation_visium

File Format

4 file formats

Cell Count Estimate

453.8k

Donor Count

48
rds.gz4 file(s)tif.gz7 file(s)txt.gz8 file(s)xlsx1 file(s)