Ultrastructural dynamics of human testicular cords from 6 to 16 weeks of embryonic development. Study by transmission and high resolution scanning electron microscopy

When the embryo is 6-week-old the gonad is composed mostly of migrating primordial germ cells, surface coelomic mesothelium and mesenchymal cells. At 7 weeks of gestation (wg) testicular cords consist of prespermatogonia, larger, with a more regular outline and higher mitotic activity than primordial germ cells, embraced by somatic pre-Sertoli cells. The morphofunctional development of Sertoli cells defines testicular differentiation. Towards 7.5 wg the gonad is finally in its differentiated stage; the basal lamina of the cords becomes distinguishable, testicular cords radially branch and elongate, and Leydig cells are clearly recognized. Primordial germ cells are large and spherical, with rounded and eosinophilic nuclei and large nucleoli. Pre-Sertoli cells, in turn, show round or columnar nuclei and rough endopasmic reticulum. Prespermatogonia and mostly pre-Sertoli cells actively proliferate. Many interdigitations and cytoplasmic processes are observed between neighboring pre-Sertoli cells and between pre-Sertoli cells and prespermatogonia. A sort of compartmentalization is established inside the cords in which pre-Sertoli cells tend to localize closer to the basal membrane embracing the prespermatogonia with long and thin cytoplasmic processes. Between 14 and 16 wg the most significant changes besides maximum development of Leydig cells are differentiation of mesenchymal cells around the cords into future peritubular cells and maturational changes of pre-Sertoli cells. These likely reveal a peak coinciding in time with reported increases in either testosterone production and Mullerian Inhibiting Substance secretion. During the period herein considered testicular cords show no lumen neither any sign of canalization so they cannot be termed "tubules".