Frontiers in Endocrinology (Jun 2020)

“In vitro” Effect of Different Follicle—Stimulating Hormone Preparations on Sertoli Cells: Toward a Personalized Treatment for Male Infertility

  • Iva Arato,
  • Giuseppe Grande,
  • Giuseppe Grande,
  • Ferran Barrachina,
  • Catia Bellucci,
  • Cinzia Lilli,
  • Meritxell Jodar,
  • Meritxell Jodar,
  • Maria Chiara Aglietti,
  • Francesca Mancini,
  • Federica Vincenzoni,
  • Federica Vincenzoni,
  • Alfredo Pontecorvi,
  • Alfredo Pontecorvi,
  • Riccardo Calafiore,
  • Riccardo Calafiore,
  • Rafael Oliva,
  • Rafael Oliva,
  • Giovanni Luca,
  • Giovanni Luca,
  • Francesca Mancuso,
  • Domenico Milardi,
  • Domenico Milardi

DOI
https://doi.org/10.3389/fendo.2020.00401
Journal volume & issue
Vol. 11

Abstract

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Follicle-stimulating hormone (FSH), a major regulator of spermatogenesis, has a crucial function in the development and function of the testis and it is extensively given as a fertility treatment to stimulate spermatogenesis. We analyzed the effects of different FSH preparations (α-follitropin, β-follitropin, and urofollitropin) in combination with testosterone on porcine pre-pubertal Sertoli cells. To study the effect of the different FSH treatments in the Sertoli cell function we performed Real Time PCR analysis of AMH, inhibin B, and FSH-r, an ELISA assay for AMH and inhibin B, and a high-throughput comparative proteomic analysis. We verified that all three preparations induced a reduction of AMH in terms of mRNA and secreted proteins, and an increase of inhibin B in terms of mRNA in all the FSH formulations, while solely α-follitropin produced an increase of secreted inhibin B in the culture medium. Comparative proteomic analysis of the three FSH preparations identified 46 proteins, 11 up-regulated and 2 down-regulated. Surprisingly, the combination of testosterone with β-follitropin specifically induced an up-regulation of eight specific secreted proteins. Our study, showing that the three different FSH preparations induce different effects, could offer the opportunity to shed light inside new applications to a personalized reproductive medicine.

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