The critical role of PDGFRa + Sca1 + fibroblasts in angiogenesis and vascular repair in the corpus cavernosum

The critical role of PDGFRa + Sca1 + fibroblasts in angiogenesis and vascular repair in the corpus cavernosum

Abstract Background Erectile dysfunction (ED) is an important cause of reduced quality of life for men and their partners. A common pathological feature across various types of ED, including diabetes mellitus-induced ED (DMED) and bilateral cavernous nerve injury-induced ED (CNIED), is the loss of e...

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Main Authors: Biao Liu, Zitaiyu Li, Zhitao Han, Yuzhuo Chen, Yanghua Xu, Jiarong Xu, Hongji Hu, Ningjing Ou, Xiaoping Zheng, Yinghao Yin, Dongyi Peng, Liangyu Zhao, Yuxin Tang
Format: Article
Language:English
Published: BMC 2025-06-01
Series:Stem Cell Research & Therapy
Subjects:
Erectile dysfunction
Single-cell transcriptome
Fibroblast
Stem cell
Online Access:https://doi.org/10.1186/s13287-025-04434-y
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Summary:Abstract Background Erectile dysfunction (ED) is an important cause of reduced quality of life for men and their partners. A common pathological feature across various types of ED, including diabetes mellitus-induced ED (DMED) and bilateral cavernous nerve injury-induced ED (CNIED), is the loss of endothelial cells (ECs) and smooth muscle cells (SMCs) in the corpus cavernosum (CC). Stem cell-based therapies have garnered attention due to their potential to differentiate into specialized cell types, offering promise for the treatment of ED. Fibroblasts (FBs), the most abundant cell type in the CC, have raised considerable interest in recent years. However, the functional role of FBs in the progression of ED remains unclear. Methods We established DMED and CNIED animal models and performed single-cell RNA sequencing (scRNA-seq) to analyze cell subsets within the pathological environments of these two ED types. To further investigate the cellular landscape, we combined spatial transcriptomics with scRNA-seq and multiplexed immunofluorescence to identify specific FB subsets in the CC. Results scRNA-seq revealed a distinct subset of FBs that overexpress both Sca1 and PDGFRa. CytoTRACE analysis and Gene Set Enrichment Analysis (GSEA) indicated that PDGFRa + Sca1 + FBs may be associated with angiogenesis and possess the potential to differentiate into ECs and SMCs. Immunofluorescence analysis confirmed that PDGFRa + Sca1 + FBs were localized to the vessel walls, with co-localization of Sca1 and PDGFRa observed with markers for SMCs and ECs. Our findings shed light on the role of PDGFRa + Sca1 + FBs in the CC, demonstrating their involvement in angiogenesis and vascular repair. The depletion of these FBs in disease conditions may contribute to the exhaustion of ECs and SMCs, providing new insights into the pathogenesis of ED. Conclusion These results open potential avenues for novel therapeutic strategies aimed at targeting PDGFRa + Sca1 + FBs to restore vascular function in ED.
ISSN:1757-6512

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