Details

Autor(en) / Beteiligte

• Ferraz, Fausto S.
• Dantas, Graziela de P.F.
• Coimbra, John L.P.
• López, Jorge L.
• Lacerda, Samyra M.S.N.
• dos Santos, Mara L.
• Vieira, Carolina P.
• Lara, Nathália de L.E.M.
• Viana, Pedro I.M.
• Ladeira, Luiz O.
• Guarnieri, Leonardo O.
• Marçal, Eduardo M.A.
• Moraes, Márcio F.D.
• Martins, Estefânia M.N.
• Andrade, Lídia M.
• Costa, Guilherme M.J.

Titel

Effects of superparamagnetic iron oxide nanoparticles (SPIONS) testicular injection on Leydig cell function and sperm production in a murine model

Ist Teil von

• Reproductive toxicology (Elmsford, N.Y.), 2024-06, Vol.126, p.108584-108584, Article 108584

Ort / Verlag

United States: Elsevier Inc

Erscheinungsjahr

2024

Quelle

MEDLINE

Beschreibungen/Notizen

• In the domain of medical advancement, nanotechnology plays a pivotal role, especially in the synthesis of biocompatible materials for therapeutic use. Superparamagnetic Iron Oxide Nanoparticles (SPIONs), known for their magnetic properties and low toxicity, stand at the forefront of this innovation. This study explored the reproductive toxicological effects of Sodium Citrate-functionalized SPIONs (Cit_SPIONs) in adult male mice, an area of research that holds significant potential yet remains largely unknown. Our findings reveal that Cit_SPIONs induce notable morphological changes in interstitial cells and the seminiferous epithelium when introduced via intratesticular injection. This observation is critical in understanding the interactions of nanomaterials within reproductive biological systems. A striking feature of this study is the rapid localization of Cit_SPIONs in Leydig cells post-injection, a factor that appears to be closely linked with the observed decrease in steroidogenic activity and testosterone levels. This data suggests a possible application in developing nanostructured therapies targeting androgen-related processes. Over 56 days, these nanoparticles exhibited remarkable biological distribution in testis parenchyma, infiltrating various cells within the tubular and intertubular compartments. While the duration of spermatogenesis remained unchanged, there were many Tunel-positive germ cells, a notable reduction in daily sperm production, and reduced progressive sperm motility in the treated group. These insights not only shed light on the intricate mechanisms of Cit_SPIONs interaction with the male reproductive system but also highlight the potential of nanotechnology in developing advanced biomedical applications. [Display omitted] •Cit_SPIONs preferentially accumulate in Leydig cells after testicular injection.•Within 56 days, Cit_SPIONs spread across all testis parenchyma.•Cit_SPIONs significantly reduce steroidogenic activity in mouse Leydig cells.•Cit_SPIONs maintain spermatogenesis pace but lower daily sperm production.