Vol. 58, Issue 5, 976-981, November 2000

Fibronectin-Mediated Hepatocyte Shape Change Reprograms Cytochrome P450 2C11 Gene Expression via an Integrin-Signaled Induction of Ribonuclease Activity

Conrad P. Hodgkinson, Matthew C. Wright, and Alan J. Paine

Department of Pharmacy, King's College, London, United Kingdom (A.J.P.); and Departments of Biochemistry (C.P.H.) and University Medicine (M.C.W.), University of Southampton, Southampton, United Kingdom

A major limitation to the use of rat hepatocytes in the study of drug metabolism and toxicity is the rapid loss of CYPs. We demonstrate that the culture of rat hepatocytes results in a rapid loss of liver-specific CYP2C11 mRNA and transcripts encoding the general housekeeping gene copper-zinc superoxide dismutase (CuZnSOD) as well as poly(A⁺) mRNA. These losses are accelerated by fibronectin, which has no effect on the transcription of CYP2C11 and CuZnSOD. However, fibronectin, an extracellular matrix protein involved in cell adhesion and spreading, induces ribonuclease (RNase) activity. Fibronectin also increases hepatocyte diameter and data are presented that cell spreading is involved in the loss of both CYP2C11 and CuZnSOD mRNAs. The use of functional blocking antibodies demonstrates that fibronectin is operating through its ₅₁ integrin receptor and genistein, a tyrosine kinase inhibitor, prevents hepatocyte spreading, RNase induction, and CYP2C11 mRNA loss. Collectively, the data indicate that hepatocytes in vitro actively promote the extinction of their phenotype via the autocrine effects of fibronectin rather than the current consensus that they simply lose differentiated function, such as CYP2C11 expression, through the absence of extracellular matrix proteins. The substrate specificity of the ribonuclease induced is also considered.