A LIM domain protein from tobacco involved in actin-bundling and histone gene transcription

Danièle Moes*, Sabrina Gatti, Céline Hoffmann, Monika Dieterle, Flora Moreau, Katrin Neumann, Marc Schumacher, Marc Diederich, Erwin Grill, Wen Hui Shen, André Steinmetz, Clément Thomas

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

35 Citations (Scopus)


The two LIM domain-containing proteins from plants (LIMs) typically exhibit a dual cytoplasmic-nuclear distribution, suggesting that, in addition to their previously described roles in actin cytoskeleton organization, they participate in nuclear processes. Using a south-western blot-based screen aimed at identifying factors that bind to plant histone gene promoters, we isolated a positive clone containing the tobacco LIM protein WLIM2 (NtWLIM2) cDNA. Using both green fluorescent protein (GFP) fusion- and immunology-based strategies, we provide clear evidence that NtWLIM2 localizes to the actin cytoskeleton, the nucleus, and the nucleolus. Interestingly, the disruption of the actin cytoskeleton by latrunculin B significantly increases NtWLIM2 nuclear fraction, pinpointing a possible novel cytoskeletal-nuclear crosstalk. Biochemical and electron microscopy experiments reveal the ability of NtWLIM2 to directly bind to actin filaments and to crosslink the latter into thick actin bundles. Electrophoretic mobility shift assays show that NtWLIM2 specifically binds to the conserved octameric cis-elements (Oct) of the Arabidopsis histone H4A748 gene promoter and that this binding largely relies on both LIM domains. Importantly, reporter-based experiments conducted in Arabidopsis and tobacco protoplasts confirm the ability of NtWLIM2 to bind to and activate the H4A748 gene promoter in live cells. Expression studies indicate the constitutive presence of NtWLIM2 mRNA and NtWLIM2 protein during tobacco BY-2 cell proliferation and cell cycle progression, suggesting a role of NtWLIM2 in the activation of basal histone gene expression. Interestingly, both live cell and in vitro data support NtWLIM2 di/oligomerization. We propose that NtWLIM2 functions as an actin-stabilizing protein, which, upon cytoskeleton remodeling, shuttles to the nucleus in order to modify gene expression.

Original languageEnglish
Pages (from-to)483-502
Number of pages20
JournalMolecular Plant
Issue number2
Publication statusPublished - Mar 2013


  • Actin
  • BY-2
  • DNA-binding
  • LIM
  • Nicotiana tabacum
  • cytoskeleton
  • histone genes
  • promoter regulation
  • transacting factors


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