Coactivator cross-talk specifies transcriptional output

doi:10.1101/gad.1418806

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GENES & DEVELOPMENT 20:1458-1469, 2006
©2006 by Cold Spring Harbor Laboratory Press; ISSN 0890-9369/ $5.00

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Coactivator cross-talk specifies transcriptional output

Michael T. Marr, II, Yoh Isogai, Kevin J. Wright and Robert Tjian¹

Howard Hughes Medical Institute, Department of Molecular and Cell Biology, University of California, Berkeley, California 94720, USA

Cells often fine-tune gene expression at the level of transcriptionto generate the appropriate response to a given environmentalor developmental stimulus. Both positive and negative influenceson gene expression must be balanced to produce the correct levelof mRNA synthesis. To this end, the cell uses several classesof regulatory coactivator complexes including two central players,TFIID and Mediator (MED), in potentiating activated transcription.Both of these complexes integrate activator signals and conveythem to the basal apparatus. Interestingly, many promoters requireboth regulatory complexes, although at first glance they mayseem to be redundant. Here we have used RNA interference (RNAi)in Drosophila cells to selectively deplete subunits of the MEDand TFIID complexes to dissect the contribution of each of thesecomplexes in modulating activated transcription. We exploitedthe robust response of the metallothionein genes to heavy metalas a model for transcriptional activation by analyzing directfactor recruitment in both heterogeneous cell populations andat the single-cell level. Intriguingly, we find that MED andTFIID interact functionally to modulate transcriptional responseto metal. The metal response element-binding transcription factor-1(MTF-1) recruits TFIID, which then binds promoter DNA, settingup a "checkpoint complex" for the initiation of transcriptionthat is subsequently activated upon recruitment of the MED complex.The appropriate expression level of the endogenous metallothioneingenes is achieved only when the activities of these two coactivatorsare balanced. Surprisingly, we find that the same activator(MTF-1) requires different coactivator subunits depending onthe context of the core promoter. Finally, we find that thestability of multi-subunit coactivator complexes can be compromisedby loss of a single subunit, underscoring the potential forcombinatorial control of transcription activation.

[Keywords: Coactivator; MTF-1; RNAi; TFIID; mediator]

Received February 9, 2006; revised version accepted March 20, 2006.

¹ Corresponding author.

E-MAIL jmlim{at}uclink4.berkeley.edu; FAX (510) 643-9547.

Article is online at http://www.genesdev.org/cgi/doi/10.1101/gad.1418806

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