Therapies involving the use of stem Leydig cells (SLCs), as testicular mesenchymal stromal cells, have shown great promise in the treatment of Leydig cell (LC) dysfunction in aging males. However, the outcomes of these therapies are not satisfactory. In this study, it is demonstrated that the aging microenvironment of the testicular interstitium impairs the function of SLCs, leading to poor regeneration of LCs and, consequently, inefficient functional restoration. The study develops a decellularized testicular extracellular matrix (dTECM) hydrogel from young pigs and evaluates its safety and feasibility as a supportive niche for the expansion and differentiation of SLCs. dTECM hydrogel facilitates the steroidogenic differentiation of SLCs into LCs, the primary producers of testosterone. The combination of SLCs with a dTECM hydrogel leads to a significant and sustained increase in testosterone levels, which promotes the restoration of spermatogenesis and fertility in an LC-deficient and aged mouse model. Mechanistically, collagen 1 within the dTECM is identified as a key factor contributing to these effects. Notably, symptoms associated with testosterone deficiency syndrome are significantly alleviated in aged mice. These findings may aid the design of therapeutic interventions for patients with testosterone deficiency in the clinic.
Keywords: Leydig cell; aging; extracellular matrix; stem Leydig cell.
© 2024 The Author(s). Advanced Science published by Wiley‐VCH GmbH.