Abstract
Background and Objectives: Peripheral blood mononuclear cells (PBMCs) and urine‐derived epithelial cells have both emerged as valuable sources for induced pluripotent stem cell (iPSC) generation, each presenting unique advantages in terms of accessibility and reprograming efficiency. This study aimed to assess and compare the potential of PBMC‐derived iPSCs (PiPSCs) and urine‐derived iPSCs (UiPSCs) in generating functional endothelial cells (ECs) and vascular smooth muscle cells (VSMCs), which are critical for vascular tissue engineering and disease modeling. Phenotypic characteristics, differentiation efficacy, and functional properties of iPSC‐derived ECs and VSMCs from these distinct sources were investigated to reveal variations attributed to cellular origin.Methods and Results: PiPSCs and UiPSCs both successfully differentiated into functional ECs and VSMCs. EC differentiation efficiency was similar, yielding about 45% mature ECs with characteristic morphology, marker expression, and tube formation abilities, showing no significant differences between cell types. Transcriptomic analysis revealed upregulation of key endothelial markers (platelet endothelial cell adhesion molecule 1 [PECAM1], cadherin 5 [CDH5], and melanoma cell adhesion molecule [MCAM]) and downregulation of lymphatic markers (Fms‐related tyrosine kinase 4 [FLT4], prospero homeobox protein 1 [PROX1], and podoplanin [PDPN]), confirming blood EC identity. The upregulation of collagen type IV alpha 1 chain (COL4A1) and collagen type I alpha 1 chain (COL1A1) indicated a mature endothelial state with enhanced extracellular matrix (ECM) production. VSMC differentiation resulted in high percentages of α‐smooth muscle actin (α‐SMA) positive cells for both PiPSCs (96%) and UiPSCs (94%). These VSMCs exhibited typical spindle‐shaped morphology, expressed VSMC markers, and responded to carbachol. Transcriptomic analysis showed significant upregulation of VSMC markers (actin alpha 2 [ACTA2], caldesmon 1 [CALD1], calponin 1 [CNN1], transgelin [TAGLN], tropomyosin 2 [TPM2]), with concurrent downregulation of ACTA1 and upregulation of ACTA2, confirming their vascular smooth muscle phenotype. The upregulation of COL6A1 in VSMCs indicated a mature phenotype with enhanced ECM production, crucial for vascular tissue integrity and function. Gene set enrichment analysis highlighted the upregulation of multiple hallmark pathways, delineating a distinctive transcriptional profile.Conclusions: This study presents a comprehensive comparative analysis of functionally differentiated ECs and VSMCs derived from PiPSCs and UiPSCs, providing critical insights into the expression patterns and phenotypic transitions during differentiation. Our findings enhance the understanding of distinct molecular signatures in iPSCs from different sources and their progeny.
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