Regenerative Therapy (Jun 2024)
Exploring SSEA3 as an emerging biomarker for assessing the regenerative potential of dental pulp-derived stem cells
Abstract
Background: Human dental pulp-derived stem cells (hDPSCs) have emerged as a promising source for adult stem cell-based regenerative medicine. Stage-specific embryonic antigen 3 (SSEA3) is a cell surface marker associated with Multilineage-differentiating stress-enduring (Muse) cells, a subpopulation of human bone marrow-derived stem cells (hBMSCs), known for their potent regenerative potential and safety profile. In this study, we investigated the influence of the prolonged culture period and the number of culture passages on the regenerative capacity of hDPSCs and explored the association between SSEA3 expression and their regenerative abilities. Methods: hDPSCs were isolated and cultured for up to 20 passages. Cell proliferation, migration, and osteogenic, adipogenic and neurogenic differentiation potential were assessed at passages 5, 10, and 20. Flow cytometry and immunofluorescence were employed to analyze SSEA3 expression. RNA sequencing (RNA-seq) was performed on SSEA3-positive and SSEA3-negative hDPSCs to identify differentially expressed genes and associated pathways. Results: Our findings demonstrated a progressive decline in hDPSCs proliferation and migration capacity with increasing passage number. Conversely, cell size exhibited a positive correlation with passage number. Early passage hDPSCs displayed superior osteogenic and adipogenic differentiation potential. Notably, SSEA3 expression exhibited a significant negative correlation with passage numbers, reflecting the observed decline in differentiation capacity. RNA-seq analysis revealed distinct transcriptional profiles between SSEA3-positive and SSEA3-negative hDPSCs. SSEA3-positive cells displayed upregulation of genes associated with ectodermal differentiation and downregulation of genes involved in cell adhesion. Conclusions: This study elucidates the impact of passaging on hDPSC behavior and suggests SSEA3 as a valuable biomarker for evaluating stemness and regenerative potential. SSEA3-positive hDPSCs, functionally analogous to Muse cells, represent a promising cell population for developing targeted regenerative therapies with potentially improved clinical outcomes.