HCA Data Explorer

Single cell and lineage tracing studies reveal the impact of CD34+ cells on myocardial fibrosis during heart failure

Updated March 6, 2024

Background: CD34+ cells have been used to treat the patients with heart failure, but the outcome is variable. It is of great significance to scrutinize the fate and the mechanism of CD34+ cell differentiation in vivo during heart failure and explore its intervention strategy. Methods We performed single-cell RNA sequencing (scRNA-seq) of the total non-cardiomyocytes and enriched Cd34-tdTomato+ lineage cells in the murine (male Cd34-CreERT2; Rosa26-tdTomato mice) pressure overload model (transverse aortic constriction, TAC), and total non-cardiomyocytes from human adult hearts. Then, in order to determine the origin of CD34+ cell that plays a role in myocardial fibrosis, bone marrow transplantation model was performed. Furthermore, to further clarify the role of +cells in myocardial remodeling in response to TAC injury, we generated Cd34-CreERT2; Rosa26-eGFP-DTA (Cre/DTA) mice. Results: By analyzing the transcriptomes of 59,505 single cells from the mouse heart and 22,537 single cells from the human heart, we illustrated the dynamics of cell landscape during the progression of heart hypertrophy, including CD34+ cells, fibroblasts, endothelial and immune cells. By combining genetic lineage tracing and bone marrow transplantation models, we demonstrated that non-bone-marrow-derived CD34+ cells give rise to fibroblasts and endothelial cells, while bone-marrow-derived CD34+ cell turned into immune cells only in response to pressure overload. Interestingly, partial depletion of CD34+ cells alleviated the severity of myocardial fibrosis with a significant improvement of cardiac function in Cd34-CreERT2; Rosa26-eGFP-DTA model. Similar changes of non-cardiomyocyte composition and cellular heterogeneity of heart failure were also observed in human patient with heart failure. Furthermore, immunostaining showed a double labeling of CD34 and fibroblast markers in human heart tissue. Mechanistically, our single-cell pseudotime analysis of scRNA-seq data and in vitro cell culture study revealed that Wnt-β-catenin and TGFβ1/Smad pathways are critical in regulating CD34+ cell differentiation toward fibroblasts. Conclusions: Our study provides a cellular landscape of CD34+ cell-derived cells in the hypertrophy heart of human and animal models, indicating that non-bone-marrow-derived CD34+ cells differentiating into fibroblasts largely account for cardiac fibrosis. These findings may provide novel insights for the pathogenesis of cardiac fibrosis and have further potential therapeutic implications for the heart failure.

Weidong LiZhejiang Universityliweidong@zju.edu.cn
Ting ChenZhejiang Universityct010151452@zju.edu.cn
Qingbo XuZhejiang Universityqingbo_xu@zju.edu.cn
Luping Du (Co-Investigator)1
Xiaotong Sun (Co-Investigator)1
Hui Gong (Co-Investigator)1
Ting Wang1
Liujun Jiang1
Chengchen Huang1
Xiaodong Xu1
Zhoubin Li1
Hongfei Xu1
Liang Ma1
Weidong Li (Principal Investigator)1
Ting Chen (Principal Investigator)1
Qingbo Xu (Principal Investigator)1
1Zhejiang University
Arsenios Chatzigeorgiou

To reference this project, please use the following link:

https://explore.data.humancellatlas.dev.clevercanary.com/projects/86fe0a0c-88b3-4a3e-94a1-6f9feadc401e

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://ngdc.cncb.ac.cn/gsa-human/browse/HRA0017652.https://ngdc.cncb.ac.cn/gsa-human/browse/HRA002066
INSDC Project Accessions:
SRP415789, SRP364684
GEO Series Accessions:INSDC Study Accessions:

Atlas

None

Analysis Portals

None

Project Label

CD34LineageMyocardialDu

Species

2 species

Sample Type

specimens

Anatomical Entity

heart

Organ Part

heart left ventricle

Selected Cell Types

Unspecified

Disease Status (Specimen)

3 disease statuses

Disease Status (Donor)

3 disease statuses

Development Stage

2 development stages

Library Construction Method

10x 3' v3

Nucleic Acid Source

single cell

Paired End

false

Analysis Protocol

cellranger_v3, cellranger_v5

File Format

3 file formats

Cell Count Estimate

82.0k

Donor Count

21
fastq.gz224 file(s)tar.gz9 file(s)xlsx1 file(s)