Co-regulation of primary mouse hepatocyte viability and function by oxygen and matrix

Author(s)

Buck, Lorenna D.; Inman, S. Walker; Rusyn, Ivan; Griffith, Linda G.

Abstract

Although oxygen and extracellular matrix cues both influence differentiation state and metabolic function of primary rat and human hepatocytes, relatively little is known about how these factors together regulate behaviors of primary mouse hepatocytes in culture. To determine the effects of pericellular oxygen tension on hepatocellular function, we employed two methods of altering oxygen concentration in the local cellular microenvironment of cells cultured in the presence or absence of an extracellular matrix (Matrigel) supplement. By systematically altering medium depth and gas phase oxygen tension, we created multiple oxygen regimes (hypoxic, normoxic, and hyperoxic) and measured the local oxygen concentrations in the pericellular environment using custom-designed oxygen microprobes. From these measurements of oxygen concentrations, we derived values of oxygen consumption rates under a spectrum of environmental contexts, thus providing the first reported estimates of these values for primary mouse hepatocytes. Oxygen tension and matrix microenvironment were found to synergistically regulate hepatocellular survival and function as assessed using quantitative image analysis for cells stained with vital dyes, and assessment of secretion of albumin. Hepatocellular viability was affected only at strongly hypoxic conditions. Surprisingly, albumin secretion rates were greatest at a moderately supra-physiological oxygen concentration, and this effect was mitigated at still greater supra-physiological concentrations. Matrigel enhanced the effects of oxygen on retention of function. This study underscores the importance of carefully controlling cell density, medium depth, and gas phase oxygen, as the effects of these parameters on local pericellular oxygen tension and subsequent hepatocellular function are profound.

Date issued

2014-01

URI

http://hdl.handle.net/1721.1/99376

Department

Massachusetts Institute of Technology. Department of Biological Engineering

Journal

Biotechnology and Bioengineering

Publisher

Wiley Blackwell

Citation

Buck, Lorenna D., S. Walker Inman, Ivan Rusyn, and Linda G. Griffith. “Co-Regulation of Primary Mouse Hepatocyte Viability and Function by Oxygen and Matrix.” Biotechnology and Bioengineering 111, no. 5 (January 31, 2014): 1018–1027.

Version: Author's final manuscript

ISSN

00063592