Micropatterned agarose scaffolds covalently modified with collagen for culture of normal and neoplastic hepatocytes

Angela Y. Au, Julie M. Hasenwinkel, Carmelita G. Frondoza

Research output: Contribution to journalArticlepeer-review

10 Scopus citations


Anchorage-dependent cells including hepatocytes, the main functional cellular constituent comprising liver tissue, require a substrate for cell adhesion when cultured outside their native tissue. The challenge with hepatocyte culture is that material substrates and designs supporting hepatocyte attachment, phenotype, and function are not readily available. Our laboratory previously published that type I collagen found in the liver extracellular matrix supports hepatocyte culture. We hypothesized that micropatterned agarose with a coating of collagen covalently bound to the surface would facilitate hepatocyte adhesion and phenotype. To test this hypothesis, primary canine hepatocytes and neoplastic human HepG2 hepatocellular carcinoma cells were cultured on these substrates. Hepatocyte adhesion was dependent on the cell type and also the micropattern design. Viable normal and neoplastic hepatocytes attached to the microchannel troughs rather than on the ridges. In contrast, hepatocyte adhesion on the microcircular patterns was similar to control agarose as cells did not sense differences in surface topology on these substrates. Neoplastic cells exhibited a distinct difference in growth behavior following 7 days in culture on the microchannel patterns, exhibiting aberrant proliferation relative to normal hepatocytes which did not proliferate. Our results suggest that patterned microchannel agarose may be useful to evaluate hepatoprotective and noxious agents.

Original languageEnglish (US)
Pages (from-to)342-352
Number of pages11
JournalJournal of Biomedical Materials Research - Part A
Volume100 A
Issue number2
StatePublished - Feb 2012
Externally publishedYes


  • adhesion
  • collagen
  • hepatocyte
  • micropatterning
  • surface topography

ASJC Scopus subject areas

  • Ceramics and Composites
  • Biomaterials
  • Biomedical Engineering
  • Metals and Alloys


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