Applications of Organoids in Advancing Drug Discovery and Development

Organoids are small, self-organizing three-dimensional cell cultures that are derived from stem cells or primary organs. These cultures replicate the complexity of an organ, which cannot be achieved by single-cell culture systems. Organoids can be used in testing of new drugs instead of animals. Dev...

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Bibliographic Details
Published in:Journal of pharmaceutical sciences 2024-09, Vol.113 (9), p.2659-2667
Main Authors: Gopallawa, Indiwari, Gupta, Charu, Jawa, Rayan, Cyril, Arya, Jawa, Vibha, Chirmule, Narendra, Gujar, Vikramsingh
Format: Article
Language:English
Subjects:
Angiogenesis
Animals
Cell Culture Techniques - methods
Drug Development - methods
Drug Discovery - methods
Humans
Immune-organs
Microenvironment
Organoids - drug effects
Regulatory
Scaffold
Spheroids
Transplantation
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Summary:Organoids are small, self-organizing three-dimensional cell cultures that are derived from stem cells or primary organs. These cultures replicate the complexity of an organ, which cannot be achieved by single-cell culture systems. Organoids can be used in testing of new drugs instead of animals. Development and validation of organoids is thus important to reduce the reliance on animals for drug testing. In this review, we have discussed the developmental and regulatory aspects of organoids and highlighted their importance in drug development. We have first summarized different types of culture-based organoid systems such as submerged Matrigel, micro-fluidic 3D cultures, inducible pluripotent stem cells, and air-liquid interface cultures. These systems help us understand the intricate interplay between cells and their surrounding milieu for identifying functions of target receptors, soluble factors, and spatial interactions. Further, we have discussed the advances in humanized severe-combined immunodeficiency mouse models and their applications in the pharmacology of immune-oncology. Since regulatory aspects are important in using organoids for drug development, we have summarized FDA and EMA regulations on organoid research to support pre-clinical studies. Finally, we have included some unique studies highlighting the use of organoids in studying infectious diseases, cancer, and fundamental biology. These studies also exemplify the latest technological advances in organoid development resulting in improved efficiency. Overall, this review comprehensively summarizes the applications of organoids in early drug development during discovery and pre-clinical studies.
ISSN:0022-3549
1520-6017
1520-6017
DOI:10.1016/j.xphs.2024.06.016