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Differentiation of human primary testicular cells in the presence of SCF using the organoid culture system

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posted on 2023-10-20, 09:41 authored by Aghbibi Nikmahzar, Morteza Koruji, Mehrdad Jahanshahi, Farnaz Khadivi, Maryam Shabani, Sanaz Dehghani, Mehdi Forouzesh, Ayob Jabari, Narjes Feizollahi, Maryam Salem, Nasrin Ghanami GashtiNasrin Ghanami Gashti, Yasaman Abbasi, Mehdi Abbasi

Purpose: Development of organoids using human primary testicular cells has remained a challenge due to the complexity of the mammalian testicular cyto-architecture and culture methods. In this study, we generated testicular organoids derived from human primary testicular cells. Then, we evaluated the effect of stem cell factor (SCF) on cell differentiation and apoptosis in the testicular organoid model.

Methods: The testicular cells were harvested from the three brain-dead donors. Human spermatogonial stem cells (SSCs) were characterized using immunocytochemistry (ICC), RT-PCR and flow cytometry. Testicular organoids were generated from primary testicular cells by hanging drop culture method and were cultured in three groups: control group, experimental group 1 (treated FSH and retinoic acid (RA)), and experimental group 2 (treated FSH, RA and SCF), for five weeks. We assessed the expression of SCP3 (Synaptonemal Complex Protein 3) as a meiotic gene, PRM2 (Protamine 2) as a post-meiotic marker and apoptotic genes of Bax (BCL2-Associated X Protein) and Bcl-2 (B-cell lymphoma 2), respectively by using RT-qPCR. In addition, we identified the expression of PRM2 by immunohistochemistry (IHC).

Results: Relative expression of SCP3, PRM2 and Bcl-2 were highest in group 2 after five weeks of culture. In contrast, BAX expression level was lower in experimental group 2 in comparison with other groups. IHC analyses indicated the highest expression of PRM2 as a postmeiotic marker in group 2 in comparison to 2D culture and control groups but not find significant differences between experimental group 1 and experimental group 2 groups. Morphological evaluations revealed that organoids are compact spherical structures and in the peripheral region composed of uncharacterized elongated fibroblast-like cells.

Conclusion: Our findings revealed that the testicular organoid culture system promote the spermatogonial stem cell (SSC) differentiation, especially in presence SCF. Developed organoids are capable of recapitulating many important prop?erties of a stem cell niche.

History

Publication

Artificial Organs, 2023

Publisher

Wiley and Sons Ltd

Other Funding information

This research was supported by a grant from Tehran Uni?versity of Medical Sciences (No. 98-02-30-424)

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  • (3) Good Health and Well-being

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  • School of Engineering

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