Litcius/Paper detail

Synchronizing spermatogenesis in the mouse

Michael D. Griswold, Cathryn A. Hogarth

2022Biology of Reproduction14 citationsDOIOpen Access PDF

Abstract

The formation of spermatozoa starts with a germ-line stem cell creating a pool of progenitor cells or undifferentiated spermatogonia. There is a requirement for these progenitor cells to be stimulated by retinoic acid (RA) to enter differentiation and ultimately form spermatocytes, undergo meiosis, form spermatids, and ultimately spermatozoa. After the stimulation by RA, which occurs at sites in the seminiferous tubules, it takes ~35 days to complete this complex process. As a result, the adult testis contains germ cells in all possible states of differentiation, and the isolation of individual cell types or study of functional aspects of the cycle of the seminiferous epithelium is very difficult. We describe the use of WIN 18 446-an inhibitor of RA synthesis followed by injection of RA as a mechanism for the synchronization of spermatogenesis to one to three stages of the cycle of the seminiferous epithelium. The result is that only one to four germ cell types are prevalent during the first wave of spermatogenesis. In the adult only a predictable few stages of the cycle are present throughout the entire testis enriching the targeted cells or stages of the cycle.

Topics & Concepts

SpermatogenesisBiologyCell biologyRetinoic acidSertoli cellGerm cellMeiosisStem cellProgenitor cellMitosisEpitheliumCell cycleProgenitorAndrologyImmunologyCellEndocrinologyGeneticsCell cultureGeneMedicineSperm and Testicular FunctionReproductive Biology and FertilityGenetic and Clinical Aspects of Sex Determination and Chromosomal Abnormalities
Synchronizing spermatogenesis in the mouse | Litcius