Construction of thymus organoids from decellularized thymus scaffolds

Abstract

One of the hallmarks of modern medicine is the development of therapeutics that can modulate immune responses, especially the adaptive arm of immunity, for disease intervention and prevention. While tremendous progress has been made in the past decades, manipulating the thymus, the primary lymphoid organ responsible for the development and education of T lymphocytes, remains a challenge. One of the major obstacles is the difficulty to reproduce its unique extracellular matrix (ECM) microenvironment that is essential for maintaining the function and survival of thymic epithelial cells (TECs), the predominant population of cells in the thymic stroma. Here, we describe the construction of functional thymus organoids from decellularized thymus scaffolds repopulated with isolated TECs. Thymus decellularization was achieved by freeze–thaw cycles to induce intracellular ice crystal formation, followed by detergent-induced cell lysis. Cellular debris was removed with extensive wash. The decellularized thymus scaffolds can largely retain the 3D extracellular matrix (ECM) microenvironment that can support the recolonization of TECs. When transplanted into athymic nude mice, the reconstructed thymus organoids can effectively promote the homing of bone marrow-derived lymphocyte progenitors and support the development of a diverse and functional T cell repertoire. Bioengineering of thymus organoids can be a promising approach to rejuvenate/modulate the function of T-cell mediated adaptive immunity in regenerative medicine.