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Cellular Modifications in Spermatogenesis during Seasonal Testicular Regression: An Update Review in Mammals.

Ester Beltrán-FrutosVicente Seco-RoviraJesús Martínez-HernándezConcepción FerrerMaría Isabel Serrano-SánchezLuis Miguel Pastor
Published in: Animals : an open access journal from MDPI (2022)
Testicular regression occurs during the non-breeding season in many mammals. This affects spermatogenesis, resulting in decreased or arrested activity. Both lead to a decrease or cessation in sperm production. In recent years, the cellular mechanisms that lead to infertility in males in non-reproductive periods have been studied in very different species of mammals. At the start of the present century, the main mechanism involved was considered as an increase in the apoptotic activity of germ cells during the regression period. The loss of spermatogonia and spermatocytes causes not only a decrease in spermatogenesis, but an arrest of the seminiferous epithelium activity at the end of regression. Recently, in some mammal species, it was found that apoptosis is the usual mechanism involved in epithelium activity arrest, although it is firstly atrophied by massive desquamation of the germ cells that are released from their binding with the Sertoli cells, and which are shed into the lumen of the seminiferous tubule. In other species, it has been shown that not only germ cell apoptosis, but also Sertoli cell apoptosis, including decreased proliferative activity, spermatophagy or autophagy, are involved in testicular regression. Furthermore, the most recent studies indicate that there are multiple patterns of seminiferous epithelium regression in seasonally breeding animals, which may not only be used by different species, but also by the same ones to reproduce in the best conditions, ensuring their survival. In conclusion, at this time, it is not possible to consider the existence of a paradigmatic cellular mechanism in the involution of the seminiferous epithelium applicable to all male mammals with seasonal reproduction, rather the existence of several mechanisms which participate to a greater or lesser extent in each of the species that have been studied to date.
Keyphrases
  • cell cycle arrest
  • induced apoptosis
  • cell death
  • endoplasmic reticulum stress
  • oxidative stress
  • type diabetes
  • genetic diversity
  • pi k akt
  • insulin resistance
  • metabolic syndrome
  • adipose tissue
  • solid state
  • case control