HCA Data Explorer

Transcriptional and Cellular Diversity of the Human Heart

Updated November 6, 2023

Background: The human heart requires a complex ensemble of specialized cell types to perform its essential function. A greater knowledge of the intricate cellular milieu of the heart is critical to increase our understanding of cardiac homeostasis and pathology. As recent advances in low-input RNA sequencing have allowed definitions of cellular transcriptomes at single-cell resolution at scale, we have applied these approaches to assess the cellular and transcriptional diversity of the nonfailing human heart. Methods: Microfluidic encapsulation and barcoding was used to perform single nuclear RNA sequencing with samples from 7 human donors, selected for their absence of overt cardiac disease. Individual nuclear transcriptomes were then clustered based on transcriptional profiles of highly variable genes. These clusters were used as the basis for between-chamber and between-sex differential gene expression analyses and intersection with genetic and pharmacologic data. Results: We sequenced the transcriptomes of 287 269 single cardiac nuclei, revealing 9 major cell types and 20 subclusters of cell types within the human heart. Cellular subclasses include 2 distinct groups of resident macrophages, 4 endothelial subtypes, and 2 fibroblast subsets. Comparisons of cellular transcriptomes by cardiac chamber or sex reveal diversity not only in cardiomyocyte transcriptional programs but also in subtypes involved in extracellular matrix remodeling and vascularization. Using genetic association data, we identified strong enrichment for the role of cell subtypes in cardiac traits and diseases. Intersection of our data set with genes on cardiac clinical testing panels and the druggable genome reveals striking patterns of cellular specificity. Conclusions: Using large-scale single nuclei RNA sequencing, we defined the transcriptional and cellular diversity in the normal human heart. Our identification of discrete cell subtypes and differentially expressed genes within the heart will ultimately facilitate the development of new therapeutics for cardiovascular diseases.

Patrick T EllinorPrecision Cardiology Laboratoryellinor@mgh.harvard.edu
Nathan R Tucker1
Mark Chaffin1
Stephen J Fleming1
Amelia W Hall1
Victoria A Parsons2
Kenneth C Bedi Jr3
Amer-Denis Akkad1
Caroline N Herndon1
Alessandro Arduini1
Irinna Papangeli1
Carolina Roselli1
François Aguet4
Seung Hoan Choi1
Kristin G Ardlie4
Mehrtash Babadi1
Kenneth B Margulies3
Christian M Stegmann1
Patrick T Ellinor (Principal Investigator)1
1Precision Cardiology Laboratory
2Massachusetts General Hospital
3University of Pennsylvania
4The Broad Institute of MIT and Harvard
Arsenios Chatzigeorgiou

To reference this project, please use the following link:

https://explore.data.humancellatlas.dev.clevercanary.com/projects/2184e63d-82d8-4ab2-839e-e93f8395f568

Supplementary links are provided by contributors and represent items such as additional data which can’t be hosted here; code that was used to analyze this data; or tools and visualizations associated with this specific dataset.

1.https://singlecell.broadinstitute.org/single_cell/study/SCP498/transcriptional-and-cellular-diversity-of-the-human-heart
None

Atlas

None

Analysis Portals

None

Project Label

HeartDiversityTucker10x

Species

Homo sapiens

Sample Type

specimens

Anatomical Entity

heart

Organ Part

4 organ parts

Selected Cell Types

Unspecified

Disease Status (Specimen)

normal

Disease Status (Donor)

normal

Development Stage

human adult stage

Library Construction Method

10x 3' v2

Nucleic Acid Source

single nucleus

Paired End

false

Analysis Protocol

processed_matrix_generation, raw_matrix_generation

File Format

5 file formats

Cell Count Estimate

287.3k

Donor Count

7
h5ad2 file(s)mtx1 file(s)tsv2 file(s)txt2 file(s)xlsx1 file(s)