Microtissue Geometry and Cell‐Generated Forces Drive Patterning of Liver Progenitor Cell Differentiation in 3D

Berg, Ian C.; Mohagheghian, Erfan; Habing, Krista; Wang, Ning; Underhill, Gregory H.

doi:10.1002/adhm.202100223

Cited by 12 publications

(15 citation statements)

References 108 publications

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“…Surface patterning serves as a fundamental tool to explore the principle of cell–material interactions . These corresponding techniques are divided into chemical patterning − and physical patterning. , Based on well-designed surface patterns, researchers can adjust topology, stiffness, and external mechanical force; and the patterning effect can be combined with external physical stimuli, degradation rate, and so forth.…”

Section: Introductionmentioning

confidence: 99%

Stereo Coverage and Overall Stiffness of Biomaterial Arrays Underly Parts of Topography Effects on Cell Adhesion

Wang

Liu

Gao

et al. 2023

ACS Appl. Mater. Interfaces

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Surface topography is a biophysical factor affecting cell behaviors, yet the underlying cues are still not clear. Herein, we hypothesized that stereo coverage and overall stiffness of biomaterial arrays on the scale of single cells underly parts of topography effects on cell adhesion. We fabricated a series of microarrays (micropillar, micropit, and microtube) of poly(L-lactic acid) (PLLA) using mold casting based on pre-designed templates. The characteristic sizes of array units were less than that of a single cell, and thus, each cell could sense the micropatterns with varied roughness. With human umbilical vein endothelial cells (HUVECs) as the model cell type, we examined spreading areas and cell viabilities on different surfaces. "Stereo coverage" was defined to quantify the actual cell spreading fraction on a topographic surface. Particularly in the case of high micropillars, cells were confirmed not able to touch the bottom and had to partially hang among the micropillars. Then, in our opinion, a cell sensed the overall stiffness combining the bulk stiffness of the raw material and the stiffness of the culture medium. Spreading area and single cell viability were correlated to coverage and topographic feature of the prepared microarrays in particular with the significantly protruded geometry feather. Cell traction forces exerted on micropillars were also discussed. These findings provide new insights into the surface modifications toward biomedical implants.

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Section: Introductionmentioning

confidence: 99%

Stereo Coverage and Overall Stiffness of Biomaterial Arrays Underly Parts of Topography Effects on Cell Adhesion

Wang

Liu

Gao

et al. 2023

ACS Appl. Mater. Interfaces

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“…The microwell composition and production process have been described previously . 4-arm PEG acrylate was dissolved to 10% w/v [in LAP-PBS.…”

Section: Methodsmentioning

confidence: 99%

“…The microwell composition and production process have been described previously. 39 4-arm PEG acrylate was dissolved to 10% w/v [in LAP-PBS. 0.5 μL of the PEG acrylate solution was placed on the well and flattened with an 8 mm diameter coverslip and exposed to 67.62 mW/cm of UV light for 30 s to form a thin ∼10 μm PEG layer to prevent cell adhesion to the glass.…”

Section: ■ Materials and Methodsmentioning

confidence: 99%

Spatially Defined Cell-Secreted Protein Detection Using Granular Hydrogels: μGeLISA

Ryoo

Underhill

2023

ACS Biomater. Sci. Eng.

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Intercellular communication through secreted proteins is necessary in essential processes such as embryo and limb development, disease progression, and immune responses. There exist many techniques to study bulk solution protein concentrations, but there is a limited set of tools to study the concentrations of cell-secreted proteins in situ within diverse cell platforms while retaining spatial information. In this study, we have developed a microgel system that is able to quantitatively measure the cell-secreted protein concentration within defined threedimensional culture configurations with single-cell spatial resolution, called μGeLISA (microgel-linked immunosorbent assay). This system, which is based on the surface modification of polyethylene glycol microgels, was able to detect interleukin 6 (IL-6) concentrations of 2.21−21.86 ng/mL. Microgels were also able to detect cell spheroid-secreted IL-6 and distinguish between lowand high-secreting single cells. The system was also adapted to measure the concentration of cell-secreted matrix metalloproteinase-2 (MMP-2). μGeLISA represents a highly versatile system with a straightforward fabrication process that can be adapted toward the detection of secreted proteins within a diverse range of cell culture configurations.

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“…Integrating this basis with recent breakthroughs in tissue fabrication, biophysics, and biomaterials, should enable bottom-up strategies for the design of bioreactors that are well-suited to investigate the mechanobiology of HP and OS. Novel methods in 3D tissue bioprinting [159][160][161][162][163], mechanical characterization of biological tissues [164][165][166][167][168][169], the formulation of responsive biomaterials with tunable biomechanical and biochemical properties [170][171][172][173][174][175][176], and the development of 3D organotypic cell cultures [177][178][179][180][181][182] highlight a battery of innovations that can be exploited towards the design of advanced materials systems and bioreactors for the control of HP and OS.…”

Section: Conventional and Advanced Bioreactors For 3d Mechanobiologic...mentioning

confidence: 99%

Control of hydrostatic pressure and osmotic stress in 3D cell culture for mechanobiological studies

Kourouklis

Wahlsten

Stracuzzi

et al. 2023

Biomaterials Advances

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Microtissue Geometry and Cell‐Generated Forces Drive Patterning of Liver Progenitor Cell Differentiation in 3D

Cited by 12 publications

References 108 publications

Stereo Coverage and Overall Stiffness of Biomaterial Arrays Underly Parts of Topography Effects on Cell Adhesion

Stereo Coverage and Overall Stiffness of Biomaterial Arrays Underly Parts of Topography Effects on Cell Adhesion

Spatially Defined Cell-Secreted Protein Detection Using Granular Hydrogels: μGeLISA

Control of hydrostatic pressure and osmotic stress in 3D cell culture for mechanobiological studies

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