The Translational Application of Hydrogel for Organoid Technology: Challenges and Future Perspectives

doi:10.1002/mabi.202100191

Review

. 2021 Oct;21(10):e2100191.

doi: 10.1002/mabi.202100191. Epub 2021 Jul 14.

The Translational Application of Hydrogel for Organoid Technology: Challenges and Future Perspectives

Panqin Ma¹, Ying Chen¹, Xiyu Lai¹, Jie Zheng², Enyi Ye², Xian Jun Loh², Yi Zhao³, Bhav Harshad Parikh^{4

5}, Xinyi Su^{4

5

6

7}, Mingliang You⁸, Yun-Long Wu¹, Zibiao Li^{2

9}

Affiliations

¹ Fujian Provincial Key Laboratory of Innovative Drug Target Research and State Key Laboratory of Cellular Stress Biology, School of Pharmaceutical Sciences, Xiamen University, Xiamen, 361102, China.
² Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research), 2 Fusionopolis Way, Innovis, #08-03, Singapore, 138634, Singapore.
³ BayRay Innovation Center, Shenzhen Bay Laboratory (SZBL), Shenzhen, 518132, China.
⁴ Institute of Molecular and Cell Biology (IMCB), Agency for Science, Technology and Research (A*STAR), 61 Biopolis, Drive, Proteos, Singapore, 138673, Singapore.
⁵ Department of Ophthalmology, Yong Loo Lin School of Medicine, National University of Singapore, 10 Medical Dr, Singapore, 117597, Singapore.
⁶ Singapore Eye Research Institute (SERI), The Academia, 20 College Road Discovery Tower Level 6, Singapore, 169856, Singapore.
⁷ Department of Ophthalmology, National University Hospital, Singapore, 119074, Singapore.
⁸ Hangzhou Cancer Institute, Key Laboratory of Clinical Cancer Pharmacology and Toxicology Research of Zhejiang Province, Affiliated Hangzhou Cancer Hospital, Zhejiang University School of Medicine, Hangzhou, 310002, China.
⁹ Department of Materials Science and Engineering, National University of Singapore, Singapore, 117574, Singapore.

PMID: 34263547
DOI: 10.1002/mabi.202100191

Review

The Translational Application of Hydrogel for Organoid Technology: Challenges and Future Perspectives

Panqin Ma et al. Macromol Biosci. 2021 Oct.

. 2021 Oct;21(10):e2100191.

doi: 10.1002/mabi.202100191. Epub 2021 Jul 14.

Authors

Panqin Ma¹, Ying Chen¹, Xiyu Lai¹, Jie Zheng², Enyi Ye², Xian Jun Loh², Yi Zhao³, Bhav Harshad Parikh^{4

5}, Xinyi Su^{4

5

6

7}, Mingliang You⁸, Yun-Long Wu¹, Zibiao Li^{2

9}

Affiliations

¹ Fujian Provincial Key Laboratory of Innovative Drug Target Research and State Key Laboratory of Cellular Stress Biology, School of Pharmaceutical Sciences, Xiamen University, Xiamen, 361102, China.
² Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research), 2 Fusionopolis Way, Innovis, #08-03, Singapore, 138634, Singapore.
³ BayRay Innovation Center, Shenzhen Bay Laboratory (SZBL), Shenzhen, 518132, China.
⁴ Institute of Molecular and Cell Biology (IMCB), Agency for Science, Technology and Research (A*STAR), 61 Biopolis, Drive, Proteos, Singapore, 138673, Singapore.
⁵ Department of Ophthalmology, Yong Loo Lin School of Medicine, National University of Singapore, 10 Medical Dr, Singapore, 117597, Singapore.
⁶ Singapore Eye Research Institute (SERI), The Academia, 20 College Road Discovery Tower Level 6, Singapore, 169856, Singapore.
⁷ Department of Ophthalmology, National University Hospital, Singapore, 119074, Singapore.
⁸ Hangzhou Cancer Institute, Key Laboratory of Clinical Cancer Pharmacology and Toxicology Research of Zhejiang Province, Affiliated Hangzhou Cancer Hospital, Zhejiang University School of Medicine, Hangzhou, 310002, China.
⁹ Department of Materials Science and Engineering, National University of Singapore, Singapore, 117574, Singapore.

PMID: 34263547
DOI: 10.1002/mabi.202100191

Abstract

Human organoids mimic the physiology and tissue architecture of organs and are of great significance for promoting the study of human diseases. Traditionally, organoid cultures rely predominantly on animal or tumor-derived extracellular matrix (ECM), resulting in poor reproducibility. This limits their utility in for large-scale drug screening and application for regenerative medicine. Recently, synthetic polymeric hydrogels, with high biocompatibility and biodegradability, stability, uniformity of compositions, and high throughput properties, have emerged as potential materials for achieving 3D architectures for organoid cultures. Compared to conventional animal or tumor-derived organoids, these newly engineered hydrogel-based organoids more closely resemble human organs, as they are able to mimic native structural and functional properties observed in-situ. In this review, recent developments in hydrogel-based organoid culture will be summarized, emergent hydrogel technology will be highlighted, and future challenges in applying them to organoid culture will be discussed.

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[1] P. Malaney, S. V. Nicosia, V. Davé, Cancer Lett. 2014, 344, 1.

[2] P. Malaney, S. V. Nicosia, V. Davé, Cancer Lett. 2014, 344, 1.

[3] Y. Wang, H. Liu, M. Zhang, H. Wang, W. Chen, J. Qin, Biomater. Sci. 2020, 8, 5476.

[4] Y. Wang, H. Liu, M. Zhang, H. Wang, W. Chen, J. Qin, Biomater. Sci. 2020, 8, 5476.

[5] V. M. Sluch, C.-H. Davis, V. Ranganathan, J. M. Kerr, K. Krick, R. Martin, C. A. Berlinicke, N. Marsh-Armstrong, J. S. Diamond, H.-Q. Mao, D. J. Zack, Sci. Rep. 2015, 5, 16595.

[6] V. M. Sluch, C.-H. Davis, V. Ranganathan, J. M. Kerr, K. Krick, R. Martin, C. A. Berlinicke, N. Marsh-Armstrong, J. S. Diamond, H.-Q. Mao, D. J. Zack, Sci. Rep. 2015, 5, 16595.

[7] M. J. Kratochvil, A. J. Seymour, T. L. Li, S. P. Paşca, C. J. Kuo, S. C. Heilshorn, Nat. Rev. Mater. 2019, 4, 606.

[8] M. J. Kratochvil, A. J. Seymour, T. L. Li, S. P. Paşca, C. J. Kuo, S. C. Heilshorn, Nat. Rev. Mater. 2019, 4, 606.

[9] A. Ashok, D. Choudhury, Y. Fang, W. Hunziker, Biotechnol. Adv. 2020, 39, 107460.

[10] A. Ashok, D. Choudhury, Y. Fang, W. Hunziker, Biotechnol. Adv. 2020, 39, 107460.

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The Translational Application of Hydrogel for Organoid Technology: Challenges and Future Perspectives

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The Translational Application of Hydrogel for Organoid Technology: Challenges and Future Perspectives

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