The infrastructure and Reversibility of Testicular Atrophy Induced by Ethylene Glycol Monomethyl Ether (EGME) in the Rat

Abstract

Inhalation exposure to 300 ppm ethylene glycol monomethyl ether (EGME) for 3 days produced degenerative changes in spermatocytes of pachytene and meiotic division at spermatogenic stage XIV in rats. However, a wide range of germ cell types including spermatogonia was affected and the stage-specific damage was not discernible after 2 weeks exposure to 300 ppm EGME. The stage-specific damage was related to exposure concentration-time course. In early stages, degenerating spermatocytes showed nuclear chromatin clumping around synaptonemal complexes, cytoplasmic vesiculation with electron-dense material deposition, and disruption of the plasma membrane. Chromosomal microtubules in the meiotic division of spermatocytes were discontinued with deposition of electron-dense chromatin material. Sertoli cells showed cytoplasmic vacuolization, contact loss to germ cells, and cytoplasmic processes fragmentation with disrupted microtubules. Degenerative pachytene or meiotic spermatocytes were associated with disrupted Sertoli-germ cell relationship, chromosomal microtubules, and synaptonemal complexes. Spermatid degeneration and giant cell formation were observed after spermatocyte degeneration. Spermatid degeneration appeared to be a secondary change resulting from disrupted Sertoli-to-germ cell association. After 14 days post-exposure (PE) following 2 weeks exposure, some tubules were lined with regenerating spermatocytes with or without round spermatids. By 42 days PE, many tubules regained normal germinal epithelium, but some tubules were still atrophic even after 84 days PE. Reversibility of testicular atrophy was inversely proportional to severity of damaged stem cells.