Testis-on-chip platform to study ex vivo primate spermatogenesis and endocrine dynamics

Here, we report a testis-on-chip platform for the ex vivo culture of seminiferous tubules isolated from human and non-human primate testis. Tissues are cultured in a dedicated chamber with continuous perfusion via a vascular-like channel. The platform is fabricated from PDMS using a 3D printed mold, after design has been optimized, e.g., for the barrier between the culture chamber and the perfusion channel. COMSOL modeling revealed no direct negative impact of the flow on the tissues for the applied flowrate in the device, shear rate remaining in the physiological range. Culture experiments were performed using adult human seminiferous tubules from gender dysphoria patients and prepubertal seminiferous tubules from a 6-month-old marmoset for up to 11 and 9 days, respectively. First, microscopic, and live imaging revealed the presence of viable cell populations in both types of samples. Next, marmoset tissues were exposed to stimulatory conditions through perfusion of gonadotropins at different doses. The tissue response was characterized by histological analysis after their recovery from the device and testosterone and estradiol analysis in the effluent. Histological observations suggested improved maintenance of marmoset testicular tissues under stimulatory conditions, which similarly resulted in an increase in both testosterone and estradiol production, with yet different patterns for the low-dose and high-dose stimulation. The herein reported testis-on-chip platform shows great promise to evaluate endocrine and toxic effects on the testis.