Novel Morphologic and Genetic Analysis of Cancer Cells in a 3D Microenvironment Identifies STAT3 as a Regulator of Tumor Permeability Barrier Function

Park, Min-Chul; Jeong, Hyobin; Son, Seungwoo; Kim, Youn Ha; Han, Daeyoung; Goughnour, Peter C.; Kang, Taehee; Kwon, Nam Hoon; Moon, Hyo Eun; Paek, Sun Ha; Hwang, Daehee; Seol, Ho Jun; Nam, Do Hyun; Kim, Sung Hoon

doi:10.1158/0008-5472.can-14-2611

Cited by 22 publications

(21 citation statements)

References 45 publications

(51 reference statements)

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“…Little is known about the role of the heat shock response with regards to the efficacy of thermal therapy for GBM, and no studies have examined the use of CNMTT or other nanoparticle-based thermal therapies in the context of induced expression of HSPs. Furthermore, few studies have used three dimensional cell cultures such as multicellular tumor spheroids, which may more closely mimic tumors in vivo 34 , to evaluate nanoparticle-based thermal therapy. Therefore, the purpose of this study was: (i) to evaluate the feasibility of using slow infusion techniques similar to CED to deliver CNTs into brain extracellular matrix (ECM)-mimicking phantoms; (ii) to determine the efficacy of CNMTT in comparison to conventional heat delivery in GBM cell lines and multicellular tumor spheroids; and (iii) to determine if CNMTT could overcome the protective effects of induction of the heat shock response prior to initiation of CNMTT.…”

Section: Introductionmentioning

confidence: 99%

Photothermal Therapy of Glioblastoma Multiforme Using Multiwalled Carbon Nanotubes Optimized for Diffusion in Extracellular Space

Eldridge

Bernish

Fahrenholtz

et al. 2016

ACS Biomater. Sci. Eng.

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Glioblastoma multiforme (GBM) is the most common and most lethal primary brain tumor with a 5 year overall survival rate of approximately 5%. Currently, no therapy is curative and all have significant side effects. Focal thermal ablative therapies are being investigated as a new therapeutic approach. Such therapies can be enhanced using nanotechnology. Carbon nanotube mediated thermal therapy (CNMTT) uses lasers that emit near infrared radiation to excite carbon nanotubes (CNTs) localized to the tumor to generate heat needed for thermal ablation. Clinical translation of CNMTT for GBM will require development of effective strategies to deliver CNTs to tumors, clear structure-activity and structure-toxicity evaluation, and an understanding of the effects of inherent and acquired thermotolerance on the efficacy of treatment. In our studies, we show that a dense coating of phospholipid-poly(ethylene glycol) on multiwalled CNTs (MWCNTS) allows for better diffusion through brain phantoms, while maintaining the ability to achieve ablative temperatures after laser exposure. Phospholipid-poly(ethylene glycol) coated MWCNTs do not induce a heat shock response (HSR) in GBM cell lines. Activation of the HSR in GBM cells via exposure to sub-ablative temperatures or short term treatment with an inhibitor of heat shock protein 90 (17-(dimethylaminoethylamino)-17-demethoxygeldanamycin (17-DMAG)), induces a protective heat shock response that results in thermotolerance and protects against CNMTT. Finally, we evaluate the potential for CNMTT to treat GBM multicellular spheroids. These data provide pre-clinical insight into key parameters needed for translation of CNMTT including nanoparticle delivery, cytotoxicity, and efficacy for treatment of thermotolerant GBM.

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Section: Introductionmentioning

confidence: 99%

Photothermal Therapy of Glioblastoma Multiforme Using Multiwalled Carbon Nanotubes Optimized for Diffusion in Extracellular Space

Eldridge

Bernish

Fahrenholtz

et al. 2016

ACS Biomater. Sci. Eng.

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“…Moreover, the microwell mimics the in vivo environment and contains CSC-secreted factors [32]. One recent study reported that round spheroids showed a signature of high mRNA expression for secreted molecules, which activate cell cycle-related signaling pathways and their downstream transcriptional regulators [33]. This finding supports the idea that the microwell is more effective at mimicking the in vivo environment by sharing the medium.…”

Section: Resultsmentioning

confidence: 65%

Isolation of spheroid-forming single cells from gastric cancer cell lines: enrichment of cancer stem-like cells

et al. 2018

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Isolation of spheroid-forming cells is important to investigate cancer stem cell (CSC) characteristics. However, conventional tumor spheroid culture methods have not proven suitable because the aggregated spheroids generally maintain their original heterogeneity and harbor multiple cells with various characteristics. Here we cultured spheroids using a polydimethylsiloxane microwell-based method and a limiting dilution protocol. We then isolated and enriched for CSCs that formed single cell-derived spheroids from gastric cancer cell lines. Cells from the microwell demonstrated higher self-renewal, increased expression of stem cell markers and resistance to apoptosis compared with spheroid cells made by the traditional method. This novel approach allows efficient cancer stem cell isolation and represents a step forward in cancer stem cell studies.

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“…The resulting spheroids were classified into four distinct groups based on morphology as 'round', 'mass', 'aggregate' and 'none' (Fig. 1) (19). For further analysis, the 'round', 'mass', and 'aggregate' types were grouped into the category 'mass-forming group' for efficient statistical analysis.…”

Section: Evaluation Of 3d Cell Culturementioning

confidence: 99%

“…With regards to environmental comparison, typical cells in 3D have ~100% of their surface area exposed to other cells or matrix, whereas cells in 2D have ~50% of their surface area exposed to fluid, ~50% exposed to the flat culture Prediction of tumor response of rectal cancer cells via 3D cell culture and in vitro cytotoxicity assay before initiating preoperative chemoradiotherapy surface or intermediate, and very little surface area exposed to other cells. A previous data analysis of spheroid-based drug screening systems revealed that tumor spheroid size and morphology in a 3D culture system was associated with in vivo drug sensitivity (19). Previous studies demonstrated significantly increased resistance to radiation in tumor cells in 3D cell culture, in comparison with that of 2D culture (20,21).…”

Section: Introductionmentioning

confidence: 99%

Prediction of tumor response of rectal cancer cells via 3D cell culture and in�vitro cytotoxicity assay before initiating preoperative chemoradiotherapy

Kang

Park²,

Kim³

et al. 2019

Oncol Lett

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The aim of the present study was to investigate the utility of 3D cell culture and in vitro cytotoxicity assays, performed using cells derived from biopsies obtained prior to the initiation of preoperative chemoradiotherapy (preop-CRT), in predicting tumor response to chemoradiotherapy following preop-CRT in rectal cancer. Biopsies were obtained from 49 patients with locally advanced rectal cancer that underwent preop-CRT between August 2015 and March 2017. Tumor tissue was obtained before initiating preop-CRT. The response to chemoradiation was assessed by in vitro cytotoxicity assay following 3D cell culture and radiation treatment. The associations between the results from the cytotoxicity assay, and tumor regression grade (TRG) and yp node (ypN) positivity were investigated. Among 49 patients, 26 patients were available for analysis. Cytotoxicity ranged from 25.5-72.6% (median, 47.6%). There was no difference in cytotoxicity according to the TRGs 1-5 (P=0.940), or good tumor response (TRGs 1-2 vs. TRGs 3-5; P=0.729). However, there was a significant difference in cytotoxicity between the ypN-negative and -positive groups (53.2±14.1 and 38.7±10.1, respectively; P=0.021). Following dichotomization of patients with 45% cut-off value, the cytotoxicity assay was the only factor that predicted ypN positivity in multivariate analysis (odds ratio, 13; 95% confidence interval, 1.2-133.2; P= 0.031). In conclusion, the cytotoxicity assay using the 3D cell culture method can be used to predict tumor response, particularly ypN positivity, in patients with rectal cancer who are scheduled for preop-CRT.

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Novel Morphologic and Genetic Analysis of Cancer Cells in a 3D Microenvironment Identifies STAT3 as a Regulator of Tumor Permeability Barrier Function

Cited by 22 publications

References 45 publications

Photothermal Therapy of Glioblastoma Multiforme Using Multiwalled Carbon Nanotubes Optimized for Diffusion in Extracellular Space

Photothermal Therapy of Glioblastoma Multiforme Using Multiwalled Carbon Nanotubes Optimized for Diffusion in Extracellular Space

Isolation of spheroid-forming single cells from gastric cancer cell lines: enrichment of cancer stem-like cells

Prediction of tumor response of rectal cancer cells via 3D cell culture and in�vitro cytotoxicity assay before initiating preoperative chemoradiotherapy

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