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BTG2mRNA - BTG Proteine in Zellproliferation, Differenzierung und mRNA Abbau

Fachliche Zuordnung Allgemeine Genetik und funktionelle Genomforschung
Biochemie
Zellbiologie
Förderung Förderung von 2015 bis 2021
Projektkennung Deutsche Forschungsgemeinschaft (DFG) - Projektnummer 283844389
 

Zusammenfassung der Projektergebnisse

The control of messenger (m)RNA stability is an important post-transcriptional regulatory step that allow fast changes in protein expression. The CCR4-NOT complex serves as a major regulator of mRNA decay by the shortening the poly(A) tail of mRNA via its two catalytic subunits, the deadenylases CCR4 and CAF1. In this ANR-DFG project, the labs of Bertrand Séraphin (IGBMC, Illkirch, France) and Georg Stoecklin (Heidelberg University, Germany) analyzed how the CAF1 deadenylase activity is regulated by direct modification of CAF1 and by its partner, BTG2, a protein that has antiproliferative properties. We have shown that acetylation of CAF1 by p300 and CPB acetyltransferases accelerates mRNA decay. Of note, we observed a reduction of p300 and CPB expression during adipocyte differentiation and concomitantly a global stabilization of mRNA, uncovering that cellular differentiation leads to mRNA stabilization. Interestingly, acetylation of CAF1 stabilizes its interaction with the factor BTG2. We further uncovered that BTG2 interacts also the main cytoplasmic poly(A)-binding protein (PABPC1), thereby recruiting mRNAs for deadenylation to the CCR4-NOT complex. We could demonstrate that the interactions of BTG2 with CAF1 and PABPC1 are sufficient and necessary for BTG2 to stimulate deadenylation, and that this mechanism is necessary for the antiproliferative properties of BTG2. We also obtained detailed structural insight into the mode by which the BoxC motif in BTG2 interacts with the firs RNA-recognition motif (RRM) of PABPC1. Our transcriptome-wide studies on mRNAs that are preferentially targeted by BTG2 identified targets that are responsible for the antiproliferative activity of BTG2. Finally, we identified an additional RNA-binding protein that associates with BTG2 and appears to mediate preferential decay of specific targets. This project illustrates how the regulation of mRNA stability can impact cell proliferation and therefore potentially the development of cancers.

Projektbezogene Publikationen (Auswahl)

 
 

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