This comprehensive study delved into the detrimental effects of cadmium (Cd), a toxic heavy metal, on the testicular lamina propria (LP), a key player in spermatogenesis, and the maintenance of testicular stem cell niches. Utilizing transmission electron microscopy, immunohistochemistry, and double-labeling immunofluorescence, the research characterized the structural and cellular components of mouse testicular LP under Cd exposure and investigated the protective effects of quercetin. The findings illustrated that Cd exposure results in significant morphological and cellular modifications within the LP, including the apoptosis of peritubular myoid cells, an upsurge in CD34+ stromal cells displaying anti-apoptotic behaviors, and an excessive production of collagen Type I fibers and extracellular matrix. Remarkably, quercetin effectively counteracted these adverse changes by reversing apoptosis, reducing the proliferation of CD34+ stromal cells, and addressing fibrosis markers, thereby mitigating the cellular damage induced by Cd. This study not only highlighted the critical impact of apoptosis and fibrosis in Cd-related testicular damage but also elucidated the protective mechanism of quercetin, laying the groundwork for future clinical applications in addressing testicular damage from heavy metal poisoning through cellular therapeutics and pharmacological interventions.
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