Analysis of the Internal Hypoxic Environment in Solid Tumor Tissue Using a Folding Paper System

Chia Hao Huang, Kowit Yu Chong, Kin Fong Lei*

*Corresponding author for this work

Research output: Contribution to journalJournal Article peer-review

11 Scopus citations

Abstract

Hypoxia is a nonphysiological oxygen tension which is common in most malignant tumors. Hypoxia stimulates complicated cell signaling networks in cancer cells, e.g., the HIF, PI3K, MAPK, and NFκB pathways. Then, cells release a number of cytokines such as VEGFA to promote the growth of peripheral blood vessels and lead to metastasis. In the current work, understanding of the internal hypoxic environment in solid tumor tissue was attempted by developing a folding paper system. A paper-based solid tumor was constructed by folding a filter paper cultured with cancer cells. The cellular response in each layer could be analyzed by disassembling the folded paper after the culture course. The result showed that an internal hypoxic environment was successfully reproduced in the paper-based solid tumor. The cells in the inner layer expressed high levels of HIF1-α and VEGFA. Hence, proliferation and migration of endothelial cells were shown to be induced by the cells located in the internal hypoxic environment. Moreover, the paper-based solid tumor was transplanted into nude mice for the study of hypoxic response and angiogenesis. The crosstalk between internal and external parts of solid tumor tissue could be analyzed by sectioning each layer of the paper-based solid tumor. This approach provides a favorable analytical method for the discovery of the interaction between cancer cells, hypoxia, and peripheral angiogenesis.

Original languageEnglish
Pages (from-to)33885-33893
Number of pages9
JournalACS Applied Materials and Interfaces
Volume13
Issue number29
DOIs
StatePublished - 28 07 2021

Bibliographical note

Publisher Copyright:
© 2021 American Chemical Society.

Keywords

  • angiogenesis
  • cancer cells
  • cancer metastasis
  • hypoxia
  • paper-based microfluidics
  • solid tumor

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