The LIM-only Protein FHL2 Regulates Cyclin D1 Expression and Cell Proliferation

Charlotte Labalette,Yann Nouët,Joëlle Sobczak-Thepot,Carolina Armengol,Florence Levillayer,Marie-Claude Gendron,Claire-Angélique Renard,Béatrice Regnault,Ju Chen,Marie-Annick Buendia,Yu Wei

doi:10.1074/jbc.m800708200

Abstract

The LIM-only protein FHL2 acts as a transcriptional modulator that positively or negatively regulates multiple signaling pathways. We recently reported that FHL2 cooperates with CREB-binding protein/p300 in the activation of beta-catenin/T cell factor target gene cyclin D1. In this paper, we demonstrate that FHL2 is associated with the cyclin D1 promoter at the T cell factor/CRE site, providing evidence that cyclin D1 is a direct target of FHL2. We show that deficiency of FHL2 greatly reduces the proliferative capacity of spontaneously immortalized mouse fibroblasts, which is associated with decreased expression of cyclin D1 and p16(INK4a), and hypophosphorylation of Rb. Reexpression of FHL2 in FHL2-null fibroblasts efficiently restores cyclin D1 levels and cell proliferative capacity, indicating that FHL2 is critical for cyclin D1 activation and cell growth. Moreover, ectopic cyclin D1 expression is sufficient to override growth inhibition of immortalized FHL2-null fibroblasts. Gene expression profiling revealed that FHL2 deficiency triggers a broad change of the cell cycle program that is associated with down-regulation of several G(1)/S and G(2)/M cyclins, E2F transcription factors, and DNA replication machinery, thus correlating with reduced cell proliferation. This change also involves down-regulation of the negative cell cycle regulators, particularly INK4 inhibitors, which could counteract the decreased expression of cyclins, allowing cells to grow. Our study illustrates that FHL2 can act on different aspects of the cell cycle program to finely regulate cell proliferation.

Highlights

Can interact with DNA, but there is no evidence for DNA binding activity of a LIM domain
Biological analysis and genome-wide studies of gene expression show that deficiency of FHL2 in immortalized murine fibroblasts has a profound effect on expression of cell cycle proteins and cell proliferation
We demonstrate that cyclin D1 is directly regulated by FHL2 and represents a key effector of FHL2 in cell cycle control

Summary

EXPERIMENTAL PROCEDURES

MEF Generation and Establishment of Immortalized Cell Lines—Primary MEFs from wild type (WT) or FHL2Ϫ/Ϫ mice [18] were derived from embryos on day 13.5 or 16.5. A, analysis of cyclin D1 transcripts in three independent WT and FHL2Ϫ/Ϫ immortalized clones by real time RT-PCR. D, graphic representation of the data of real time PCR for the TCF/CREB binding site in immortalized wild type and FHL2Ϫ/Ϫ MEFs. Calculation of the amount of immunoprecipitated DNA relative to that present in total input chromatin (percentage of total) is as follows: % total ϭ 2⌬CT (where CT represents cycle threshold). Using chromatin precipitated with the FHL2 antibody as template, we were able to amplify the 79-bp region containing the TCF/CRE site in WT cells, whereas no amplification was obtained with chromatin precipiwas done with the local pool error test. No FHL2 binding signal was detected formed by Onto-tools software (available on the World Wide at the control promoter of the cad gene (Fig. 1C).

RESULTS

Findings

DISCUSSION