Publications by authors named "Marco Barsanti"
Although the thymus is a primary lymphoid organ, its function is compromised by an age-induced loss of resident epithelial cells, which results in reduced naïve T cell output. This has important implications for immune recovery in aged and elderly patients following damage from cytoablative therapies. As thymic architecture plays a crucial role in naïve T cell development, a tissue specific scaffold that provides essential supporting matrix may assist in stem cell-based thymus regeneration to recreate complex organoids.
View Article and Find Full Text PDFAlthough forkhead-box n1 (Foxn1) is a critical thymic epithelial cell regulator in thymus organogenesis, its association with epithelial differentiation and homeostasis in the postnatal and aged thymic microenvironment remains conflicting. Consequently, we have generated a Foxn1 knock-in mouse model that allows for refined investigation of the aging thymic epithelium. This reporter line differs from those previously published in that concomitant expression of enhanced green fluorescent protein enables live cell sorting of Foxn1 cell populations.
View Article and Find Full Text PDFArticle Synopsis
- Thymic epithelial cells (TECs) are essential for the development of T cells and maintaining self-tolerance, but they decline with age.
- Researchers identified a specific group of immature thymic epithelial progenitors (TEPCs) in adult thymus, which possess stem/progenitor-like capabilities and can develop into mature TEC lineages.
- These adult TEPCs are mostly inactive in the body but can form colonies and self-renew in lab conditions, and they retain their ability to differentiate in a supportive thymic environment, providing insights into TEC biology and potential therapeutic approaches for aging and regeneration.