Francesca de Michele1, Maxime Vermeulen, Christine Wyns. 1. aInstitut de Recherche Expérimentale et Clinique, Université Catholique de Louvain bDepartment of Gynecology-Andrology, Cliniques Universitaires Saint-Luc, Brussels, Belgium.
Abstract
PURPOSE OF REVIEW: This review evaluates the state of the art in terms of challenges and strategies used to restore fertility with spermatogonial stem cells retrieved from prepubertal boys affected by cancer. Although these boys do not yet produce spermatozoa, the only option to preserve their fertility is cryopreservation of spermatogonial stem cells in the form of testicular cell suspensions or whole tissue pieces. Different techniques have been described to achieve completion of spermatogenesis from human, spermatogonial stem cells but none is yet ready for clinical application. A crucial point to address is gaining a full understanding of spermatogonial stem cell niche pathophysiology, where germ cells undergo proliferation and differentiation. Various fertility restoration approaches will be presented depending on the presence of an intact niche, dissociated niche, or reconstituted niche. RECENT FINDINGS: Testicular organoids open the way to providing further insights into the niche. They can recreate the three-dimensional architecture of the testicular microenvironment in vitro, allowing a large number of applications, from physiology to drug toxicity investigations. SUMMARY: In addition to the full elucidation of the niche microenvironment, achieving fertility restoration from cryopreserved human spermatogonial stem cells implies overcoming other important challenges. Testicular organoids might prove to be essential tools to progress in this field.
PURPOSE OF REVIEW: This review evaluates the state of the art in terms of challenges and strategies used to restore fertility with spermatogonial stem cells retrieved from prepubertal boys affected by cancer. Although these boys do not yet produce spermatozoa, the only option to preserve their fertility is cryopreservation of spermatogonial stem cells in the form of testicular cell suspensions or whole tissue pieces. Different techniques have been described to achieve completion of spermatogenesis from human, spermatogonial stem cells but none is yet ready for clinical application. A crucial point to address is gaining a full understanding of spermatogonial stem cell niche pathophysiology, where germ cells undergo proliferation and differentiation. Various fertility restoration approaches will be presented depending on the presence of an intact niche, dissociated niche, or reconstituted niche. RECENT FINDINGS: Testicular organoids open the way to providing further insights into the niche. They can recreate the three-dimensional architecture of the testicular microenvironment in vitro, allowing a large number of applications, from physiology to drug toxicity investigations. SUMMARY: In addition to the full elucidation of the niche microenvironment, achieving fertility restoration from cryopreserved human spermatogonial stem cells implies overcoming other important challenges. Testicular organoids might prove to be essential tools to progress in this field.
Authors: Hanneke M van Santen; Marry M van den Heuvel-Eibrink; Marianne D van de Wetering; W Hamish Wallace Journal: Horm Res Paediatr Date: 2019-01-31 Impact factor: 2.852
Authors: Federico Del Vento; Jonathan Poels; Maxime Vermeulen; Bernard Ucakar; Maria Grazia Giudice; Marc Kanbar; Anne des Rieux; Christine Wyns Journal: Int J Mol Sci Date: 2021-05-28 Impact factor: 5.923
Authors: Federico Del Vento; Maxime Vermeulen; Francesca de Michele; Maria Grazia Giudice; Jonathan Poels; Anne des Rieux; Christine Wyns Journal: Int J Mol Sci Date: 2018-01-18 Impact factor: 5.923
Authors: Federico Del Vento; Maxime Vermeulen; Bernard Ucakar; Jonathan Poels; Anne des Rieux; Christine Wyns Journal: Int J Mol Sci Date: 2019-11-20 Impact factor: 5.923