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Mice 3D testicular organoid system as a novel tool to study Zika virus pathogenesis

Wei Yang, Chen Zhang, Yanhua Wu, Libo Liu, Zi-Da Zhen, Dongying Fan, Zheng-Ran Song, Jia-Tong Chang, Peigang Wang, Jing An

2022Virologica Sinica15 citationsDOIOpen Access PDF

Abstract

Zika virus (ZIKV) poses a serious threat to global public health due to its close relationship with neurological and male reproductive damage. However, deficiency of human testicular samples hinders the in-depth research on ZIKV-induced male reproductive system injury. Organoids are relatively simple in vitro models, which could mimic the pathological changes of corresponding organs. In this study, we constructed a 3D testicular organoid model using primary testicular cells from adult BALB/c mice. Similar to the testis, this organoid system has a blood-testis barrier (BTB)-like structure and could synthesize testosterone. ZIKV tropism of testicular cells and ZIKV-induced pathological changes in testicular organoid was also similar to that in mammalian testis. Therefore, our results provide a simple and reproducible in vitro testicular model for the investigations of ZIKV-induced testicular injury.

Topics & Concepts

OrganoidZika virusTropismBiologyIn vitroPathogenesisPathologicalPathologyVirusMedicineImmunologyCell biologyGeneticsMosquito-borne diseases and controlSperm and Testicular FunctionHIV Research and Treatment