Impact of a Desmoplastic Tumor Microenvironment for Colon Cancer Drug Sensitivity: A Study with 3D Chimeric Tumor Spheroids

Goudar, Venkanagouda S.; Koduri, Manohar Prasad; Ta, Yen Nhi Ngoc; Chen, Yunching; Chu, Li; Long, Lu; Tseng, Fan‐Gang

doi:10.1021/acsami.1c18249

Cited by 14 publications

(21 citation statements)

References 69 publications

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“…Finally, we explored the stability of the hybrid triple helix formed by the CHP strand and the denatured collagen chains in different solvents. Although CHP–collagen hybridization has been reported in many studies as an established method to examine collagen damage in tissues, ,,, the direct characterization and structural understanding of the hybrid triple helix itself are extremely limited. Therefore, assessing the effect of different solutions on the stability of the hybrid triple helix can help us start appreciating the stabilizing interactions between the CHP and denatured collagen chains.…”

Section: Resultsmentioning

confidence: 99%

Controlling the Trimerization of the Collagen Triple-Helix by Solvent Switching

Zhang

Huang

et al. 2023

Biomacromolecules

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Collagen hybridizing peptides (CHPs) are a powerful tool for targeting collagen damage in pathological tissues due to their ability to specifically form a hybrid collagen triple-helix with the denatured collagen chains. However, CHPs have a strong tendency to self-trimerize, requiring preheating or complicated chemical modifications to dissociate their homotrimers into monomers, which hinders their applications. To control the self-assembly of CHP monomers, we evaluated the effects of 22 cosolvents on the triple-helix structure: unlike typical globular proteins, the CHP homotrimers (as well as the hybrid CHP–collagen triple helix) cannot be destabilized by the hydrophobic alcohols and detergents (e.g., SDS) but can be effectively dissociated by the cosolvents that dominate hydrogen bonds (e.g., urea, guanidinium salts, and hexafluoroisopropanol). Our study provided a reference for the solvent effects on natural collagen and a simple effective solvent-switch method, enabling CHP utilization in automated histopathology staining and in vivo imaging and targeting of collagen damage.

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Section: Resultsmentioning

confidence: 99%

Controlling the Trimerization of the Collagen Triple-Helix by Solvent Switching

Zhang

Huang

et al. 2023

Biomacromolecules

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“…Moreover, they can be developed to resemble the tumor microenvironment more closely, allowing functional investigations of drug responses as well as metastasis, such as combining the 3D model with biomaterials [ 17 ], or engineering them to mimic physiological environments by using tumor-on-a-chip technology [ 38 ]. Three-dimensional models have been successfully used for drug screening studies for breast, lung and colon cancer [ 20 , 21 , 22 ]. Studies in GBM using 3D systems are also not far behind, as more research favoring them emerge [ 19 , 39 , 40 ].…”

Section: Discussionmentioning

confidence: 99%

“…Organoids represent the histological characteristics, cellular diversity, gene expression, and mutational profiles of their corresponding parental tumors, as was successfully demonstrated for breast, lung and colon cancer, as well as GBM [ 18 , 20 , 21 , 22 , 40 , 45 ]. In addition, they can be generated quickly and reliably within two weeks from intraoperatively gained tissue [ 24 ].…”

Section: Discussionmentioning

confidence: 99%

“…Some of the more recent 3D model systems available for GBM include glioma cell lines, GBM stem cell derived cultures, microtubes, human-induced pluripotent stem cells, organoids, organotypic slice cultures, as well as bioprinted chip systems [ 19 ]. Nonetheless, most of the 3D models that exist, even apart from those used for GBM, are mainly engineered for the purpose of drug screening [ 20 , 21 , 22 ]. None currently exist in combination with TTFields to screen for the aforementioned modalities including patient-suitability to predict maximum beneficial outcomes.…”

Section: Introductionmentioning

confidence: 99%

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Glioblastoma-Derived Three-Dimensional Ex Vivo Models to Evaluate Effects and Efficacy of Tumor Treating Fields (TTFields)

Nickl

Schulz

Salvador

et al. 2022

Cancers

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Glioblastoma (GBM) displays a wide range of inter- and intra-tumoral heterogeneity contributing to therapeutic resistance and relapse. Although Tumor Treating Fields (TTFields) are effective for the treatment of GBM, there is a lack of ex vivo models to evaluate effects on patients’ tumor biology or to screen patients for treatment efficacy. Thus, we adapted patient-derived three-dimensional tissue culture models to be compatible with TTFields application to tissue culture. Patient-derived primary cells (PDPC) were seeded onto murine organotypic hippocampal slice cultures (OHSC), and microtumor development with and without TTFields at 200 kHz was observed. In addition, organoids were generated from acute material cultured on OHSC and treated with TTFields. Lastly, the effect of TTFields on expression of the Ki67 proliferation marker was evaluated on cultured GBM slices. Microtumors exhibited increased sensitivity towards TTFields compared to monolayer cell cultures. TTFields affected tumor growth and viability, as the size of microtumors and the percentage of Ki67-positive cells decreased after treatment. Nevertheless, variability in the extent of the response was preserved between different patient samples. Therefore, these pre-clinical GBM models could provide snapshots of the tumor to simulate patient treatment response and to investigate molecular mechanisms of response and resistance.

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“…3.6 3D distribution and dynamic monitoring of temperature in co-cultured 3D tumor spheroids HCT-8 and NIH3T3 cells were co-cultured in a µ-well 3D cellculture platform as mentioned in our previous manuscript. 56 These two types of cells are self-organized into core-shell structures, HCT-8 cells localized into the center, and NIH3T3 confined to the shell (see ESI Fig. S5(b) †).…”

Section: Ph Ion and Oxidative Effect On Fpnt Particlesmentioning

confidence: 99%