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Primary Human Testicular Cells Self-Organize into Organoids with Testicular Properties.


ABSTRACT: So far, successful de novo formation of testicular tissue followed by complete spermatogenesis in vitro has been achieved only in rodents. Our findings reveal that primary human testicular cells are able to self-organize into human testicular organoids (TOs), i.e., multi-cellular tissue surrogates, either with or without support of a biological scaffold. Despite lacking testis-specific topography, these mini-tissues harbored spermatogonia and their important niche cells, which retained specific functionalities during long-term culture. These observations indicate the posibility of in vitro re-engineering of a human testicular microenvironment from primary cells. Human TOs might help in the development of a biomimetic testicular model that would exert a tremendous impact on research and development, clinical treatment of infertility, and screening in connection with drug discovery and toxicology.

SUBMITTER: Baert Y 

PROVIDER: S-EPMC5233407 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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Primary Human Testicular Cells Self-Organize into Organoids with Testicular Properties.

Baert Yoni Y   De Kock Joery J   Alves-Lopes João P JP   Söder Olle O   Stukenborg Jan-Bernd JB   Goossens Ellen E  

Stem cell reports 20161222 1


So far, successful de novo formation of testicular tissue followed by complete spermatogenesis in vitro has been achieved only in rodents. Our findings reveal that primary human testicular cells are able to self-organize into human testicular organoids (TOs), i.e., multi-cellular tissue surrogates, either with or without support of a biological scaffold. Despite lacking testis-specific topography, these mini-tissues harbored spermatogonia and their important niche cells, which retained specific  ...[more]

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