AI Article Synopsis
- 3D tissue-engineered constructs mimic natural cell interactions, which are crucial for regenerative medicine, especially in dense tissues with minimal matrix.
- Researchers used a non-toxic polymeric linker to connect HepG2 cells temporarily, enhancing their interactions and enabling aggregation within 30 minutes.
- These cell aggregates proliferated and maintained their 3D shape, while the linker gradually disappeared, suggesting a potential method for creating tissue constructs without relying heavily on additional materials.
Article Abstract
Three-dimensional (3D) tissue-engineered constructs with bio-mimicry cell-cell and cell-matrix interactions are useful in regenerative medicine. In cell-dense and matrix-poor tissues of the internal organs, cells support one another via cell-cell interactions, supplemented by small amount of the extra-cellular matrices (ECM) secreted by the cells. Here we connect HepG2 cells directly but transiently with inter-cellular polymeric linker to facilitate cell-cell interaction and aggregation. The linker consists of a non-toxic low molecular-weight polyethyleneimine (PEI) backbone conjugated with multiple hydrazide groups that can aggregate cells within 30 min by reacting with the aldehyde handles on the chemically modified cell-surface glycoproteins. The cells in the cellular aggregates proliferated; and maintained the cortical actin distribution of the 3D cell morphology while non-aggregated cells died over 7 days of suspension culture. The aggregates lost distinguishable cell-cell boundaries within 3 days; and the ECM fibers became visible around cells from day 3 onwards while the inter-cellular polymeric linker disappeared from the cell surfaces over time. The transient inter-cellular polymeric linker can be useful for forming 3D cellular and tissue constructs without bulk biomaterials or extensive network of engineered ECM for various applications.
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| http://dx.doi.org/10.1016/j.biomaterials.2007.04.034 | DOI Listing |
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