Co-culture hydrogel micro-chamber array-based plate for anti-tumor drug development at single-element resolution

Yana Shafran, Mordechai Deutsch, Elena Afrimzon, Orit Ravid-Hermesh, Maria Sobolev, Zehavit Bar-On-Eizig, Asher Shainberg, Naomi Zurgil

Research output: Contribution to journalArticlepeer-review

6 Scopus citations

Abstract

In response to the need for reliable cellular models that reflect complex tumor microenvironmental properties, and enable more precise testing of anti-cancer therapeutics effects on humans, a co-culture platform for in-vitro model that enhances the physiology of breast cancer (BC) microenvironment is presented. A six well imaging plate wherein each macro-well contains several separate compartments was designed. Three-dimensional (3D) cancer spheroids are generated and cultured in the inner compartment which is embossed with an array of nano-liter micro-chambers made of hydrogel. Stromal cells are cultured in the outer chambers. The two cell types are cultured side-by-side, sharing a common space, thus enabling extra-cellular communication via secreted molecules. As proof of concept, a model of BC tumor microenvironment was recapitulated by co-cultivating 3D MCF7 spheroids in the presence of tumor-associated macrophages (TAMs). The presence of TAMs induced an aggressive phenotype by promoting spheroid growth, enhancing survivin expression levels and enabling invasive behavior. Moreover, TAMs influenced the response of BC spheroids to cytotoxic treatment as well as hormonal drug therapy, and enhanced the effects of nitric oxide donor. The platform enables time-lapse imaging and treatment without losing spatial location of the measured spheroids, thereby allowing measurements and analysis at individual-object resolution in an easy and efficient manner.

Original languageEnglish
Article number105067
JournalToxicology in Vitro
Volume71
DOIs
StatePublished - Mar 2021

Bibliographical note

Publisher Copyright:
© 2020 Elsevier Ltd

Keywords

  • Anti-cancer drugs
  • Breast cancer
  • Co-culture
  • Hydrogel microarray
  • Tumor microenvironment
  • Tumor-associated macrophages

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