Abstract
The extracellular matrix (ECM) supports spermatogonial stem cell (SSC) function by mimicking biochemical and structural features of the native niche. However, optimal feeder systems and ECM materials remain key limitations in porcine SSC (pSSC) cultures. We developed a porcine-derived ECM (pECM) from porcine feet and evaluated its effectiveness in supporting pSSC maintenance and proliferation under feeder-dependent conditions. We examined protein molecular weight distribution and pECM extract composition. Surface characterization was performed using scanning electron microscopy and atomic force microscopy. We compared pECM with conventional coatings, including gelatin and non-coated controls, using morphological analysis, WST-1 assay, cell cycle analysis, and gene/protein expression of SSC markers. pECM promoted larger, well-defined pSSC colonies and enhanced stemness-related marker expression, including PGP9.5, Thy-1, PLZF, GFRA1, NANOG, and VASA. Additionally, pECM facilitated active pSSC proliferation while suppressing feeder overgrowth, contributing to a stable and functional co-culture environment. Conversely, gelatin supported early feeder proliferation but led to growth saturation, whereas N/C showed delayed attachment and reduced viability. These findings suggest that pECM mimics the native SSC niche and improves pSSC culture. The dual function of pECM in regulating feeder behavior and enhancing pSSC maintenance highlights its potential as a biomaterial for species lacking established feeder-free protocols.