Ready, set, go for crossing the barrier!
| Published by UPF press release/ GRIB web
Researchers at the CRG, GRIB (UPF-IMIM) and Helmholtz Center have discovered a new mechanism controlling the expression of a set of genes important for cell proliferation and tumour progression.
Genes contain all the information needed for the functioning of cells, tissues, and organs in our body. Gene expression, meaning when and how are the genes being read and executed, is thoroughly regulated like an assembly line with several things happening one after another.
Researchers at the Centre for Genomic Regulation (CRG) in collaboration with the Structural Bioinformatics group of GRIB (IMIM-UPF) led by Baldo Oliva and the Department of Molecular Epigenetics, Helmholtz Center Munich, Germany, have discovered a new step in this line, which controls the expression of some genes with an important role in cancer. "We observed that breast cancer cells need a particular modification to express a set of genes required for cellular proliferation and tumour progression," explains the CRG - Beatriu de Pinós postdoctoral researcher Priyanka Sharma, first author of the paper. "This modification allows the enzyme RNA polymerase II to overcome a pausing barrier and to continue to transcribe these genes," adds Sharma.
Cancer cells are willing to quickly proliferate so, genes involved in cell division and proliferation are really active and usually highly expressed. Such a precise and meticulous machinery involves many different molecules to properly function. In this case, when all the machinery to express proliferation genes is ready, it still has to wait for a particular modification to go. As in race when runners are asked to be ready, set and go. Here, the polymerase is also ready and set but still needs a final modification to cross the barrier for transcription and go.
Deciphering every single step and all actors involved in this process is an important achievement in terms of fundamental science. We are now able to better understand how an intricate mechanism of gene regulation actually works and this might be a new target for clinical researchers to study novel therapies for certain types of cancer," states Miguel Beato, CRG group leader and principal investigator in this work.
The work, which has been published in Molecular Cell, describes a novel modification of in the Carboxyl terminal domain of RNA Polymerase II, namely the de-imination of an arginine, by the enzyme PADI2, which allows the polymerase to transcribe genes relevant for cancer cell growth. "Most chemo-therapies are oriented at blocking the activity of enzymes, but we know that PADI2 participates in many different processes involving the nervous system, immune response and inflammation, among others. Thus, inhibiting PADI2 would have multiple side effects. Our results make it possible to target just the particular action of PADI2 on RNA polymerase needed for tumour progression without globally blocking the enzyme," explains Beato.
Reference article: Priyanka Sharma et al. "Arginine citrullination at the c-terminal domain controls RNA polymerase II transcription" Molecular Cell (2018) DOI: 10.1016/j.molcel.2018.10.01.
For further information and media requests, please, contact: Laia Cendrós(ELIMINAR), press officer, Centre for Genomic Regulation (CRG) - Tel. +34 93 316 0237. For press releases in spanish and catalan click here.