Mammalian testes are maintained at a relatively lesser temperature than the abdominal region so that normal spermatogenesis can occur. Germ cell apoptosis has resulted in heat-damaged testes that occurs as a result of cryptorchidism, but the mechanism is not yet fully understood. To elucidate the cause of germ-cell death by cryptorchidism, cryptorchidism was surgically induced in dog testes and histological and molecular analyses were performed. Histological data indicated that the seminiferous tubules of cryptorchid testes and epididymis contained fewer germ cells. Total RNA sequencing was performed to screen for overexpressed genes in cryptorchid dog testes. Clusterin RNA was in greater abundance (approximately 12.8-fold) in cryptorchid testes than in normal testes. In addition, cleaved caspase-3 and -8 were detected in greater abundance in cryptorchid dog testes. Real time RT-PCR and western blotting analysis indicated there was a greater abundance of clusterin in cryptorchid dog testes. Furthermore, clusterin was detected in extracellular regions of cryptorchid dog testes during the 4 weeks after surgery. Thus, germ-cell specific apoptosis and expression of clusterin genes occur with a resulting presence of this protein in extracellular regions of cryptorchid dog testes. This result will facilitate further study of spermatogenesis and the specific mechanisms by which cryptorchidism results in male infertility.
Keywords: Apoptosis; Clusterin; Cryptorchidism; Dog; Germ cell.
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