AI Article Synopsis
- The organoid technique has seen significant advancements due to improved 3D culture methods for adult and pluripotent stem cells, but our knowledge of human female reproductive organoids is still developing.
- Researchers have recently created self-organizing 3D organoids from human reproductive tissues, which mimic their source organs and open new avenues for studying reproductive health and treatments.
- Future exploration of advanced culture techniques and understanding cell interactions is needed to enhance the potential applications of these organoids in research and therapy.
Article Abstract
Organoid technique has achieved significant progress in recent years, owing to the rapid development of the three-dimensional (3D) culture techniques in adult stem cells (ASCs) and pluripotent stem cells (PSCs) that are capable of self-renewal and induced differentiation. However, our understanding of human female reproductive system organoids is in its infancy. Recently, scientists have established self-organizing 3D organoids for human endometrium, fallopian tubes, oocyte, and trophoblasts by culturing stem cells with a cocktail of cytokines in a 3D scaffold. These organoids express multicellular biomarkers and show functional characteristics similar to those of their origin organs, which provide potential avenues to explore reproductive system development, disease modelling, and patient-specific therapy. Nevertheless, advanced culture methods, such as co-culture system, 3D bioprinting and organoid-on-a-chip technology, remain to be explored, and more efforts should be made for further elucidation of cell-cell crosstalk. This review describes the development and applications of human female reproductive system organoids. Graphical abstract Figure: Applications in developmental biology, disease modelling, and drug discovery of human female reproductive system organoids. ASCs: adult stem cells; PSCs: pluripotent stem cells.
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| http://dx.doi.org/10.1007/s12015-020-10039-0 | DOI Listing |
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