The aged liver is more sensitive to the drug treatments and has a high probability of developing liver disorders such as fibrosis, cirrhosis, and cancer. Here we present mechanisms underlying age-associated severe liver injury and acceleration of liver proliferation after CCl4 treatments. We have examined liver response to CCl4 treatments using old WT mice and young C/EBP alpha-S193D knockin mice, which express an aged-like isoform of C/EBP alpha. Both animal models have altered chromatin structure as well as increased liver injury and proliferation after acute CCl4 treatments. We found that these age-related changes are associated with the repression of key regulators of liver biology: C/EBP alpha, Farnesoid X Receptor (FXR) and telomere reverse transcriptase (TERT). In quiescent livers of old WT and young S193D mice, the inhibition of TERT is mediated by HDAC1-C/EBP alpha complexes. After CCl4 treatments, TERT, C/EBP alpha and FXR are repressed by different mechanisms. These mechanisms include the increase of a dominant negative isoform, C/EBP beta-LIP, and subsequent repression of C/EBP alpha, FXR, and TERT promoters. C/EBP beta-LIP also disrupts Rb-E2F1 complexes in C/EBP alpha-S193D mice after CCl4 treatments. To examine if these alterations are involved in drug-mediated liver diseases, we performed chronic treatments of mice with CCl4. We found that C/EBP alpha-S193D mice developed fibrosis much more rapidly than WT mice. Thus, our data show that the age-associated alterations of C/EBP proteins create favorable conditions for the increased liver proliferation after CCl4 treatments and for development of drug-mediated liver diseases.

• 出版日期2014-1-10