Inverse regulation of two classic Hippo pathway target genes in Drosophila by the dimerization hub protein Ctp

Daniel A. Barron; Kenneth Moberg

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Correspondence and requests for materials should be addressed to K.M. (email: kmoberg@emory.edu).

K.M. and D.B. wrote and reviewed the main manuscript and D.B. carried out all experiments and prepared all figures.

We thank the Bloomington Drosophila Stock Center (BDSC) and the Developmental Studies Hybridoma Bank (DSHB) for fly stocks and antibodies respectively. We thank W. Sale for the anti-LC8 antibody, W. Chia and E. for the ctpex3 allele, K. Irvine for the bantam promoter reporter lines, D.J. Pan for the thread/diap1 promoter reporter lines, and E. Bach for the 10xStat-GFP line. We are especially grateful to H. Zhao (U. Mass./Boston) for help with protein interaction experiments. We also thank members of the Moberg, Veraksa, and Read labs for helpful discussions and reagents. Finally, we apologize to those we could not cite due to space constraints.

The authors declare no competing financial interests.

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Research Funding:

This work was funded by NIH grants CA123368 and GM105813 to KHM, and by F30-CA177156 to D.A.B.

Keywords:

Cell proliferation
Development

Inverse regulation of two classic Hippo pathway target genes in Drosophila by the dimerization hub protein Ctp

Daniel A. Barron, Emory University

Kenneth Moberg, Emory University

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Scientific Reports

Volume:

Volume 6

Publisher:

Nature Publishing Group | 2016-03-14, Pages 22726-22726

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Article | Final Publisher PDF

Permanent URL:

https://pid.emory.edu/ark:/25593/rmw33

Publisher DOI:

http://doi.org/10.1038/srep22726

Abstract:

The LC8 family of small ~8 kD proteins are highly conserved and interact with multiple protein partners in eukaryotic cells. LC8-binding modulates target protein activity, often through induced dimerization via LC8:LC8 homodimers. Although many LC8-interactors have roles in signaling cascades, LC8’s role in developing epithelia is poorly understood. Using the Drosophila wing as a developmental model, we find that the LC8 family member Cut up (Ctp) is primarily required to promote epithelial growth, which correlates with effects on the pro-growth factor dMyc and two genes, diap1 and bantam, that are classic targets of the Hippo pathway coactivator Yorkie. Genetic tests confirm that Ctp supports Yorkie-driven tissue overgrowth and indicate that Ctp acts through Yorkie to control bantam (ban) and diap1 transcription. Quite unexpectedly however, Ctp loss has inverse effects on ban and diap1: it elevates ban expression but reduces diap1 expression. In both cases these transcriptional changes map to small segments of these promoters that recruit Yorkie. Although LC8 complexes with Yap1, a Yorkie homolog, in human cells, an orthologous interaction was not detected in Drosophila cells. Collectively these findings reveal that that Drosophila Ctp is a required regulator of Yorkie-target genes in vivo and suggest that Ctp may interact with a Hippo pathway protein(s) to exert inverse transcriptional effects on Yorkie-target genes.

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This is an Open Access work distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/).

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Inverse regulation of two classic Hippo pathway target genes in Drosophila by the dimerization hub protein Ctp

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