勛圖惇蹋

勛圖惇蹋 scientists uncover key process in the manufacture of ribosomes and proteins

composite photo of the three researchers
(L-R) Negin Khosraviani, Karim Mekhail and Josh Abraham (photo courtesy Faculty of Medicine)

Researchers at the University of Toronto have shown that an enzyme called RNA polymerase (Pol) II drives generation of the building blocks of ribosomes, the molecular machines that manufacture all proteins in cells based on the genetic code.

The discovery reveals a previously unknown function for the enzyme in the nucleolus, the site of ribosome manufacture inside of human cells, where the enzyme had not been seen before. Pol II is one of three RNA polymerases that together enable cells to transfer genetic information from DNA to RNA and then proteins.

Our study redefines the division of labour among the three main RNA polymerases, by identifying Pol II as a major factor in the control of nucleolar organizations underlying protein synthesis, said Karim Mekhail, a professor of at 勛圖惇蹋. It also provides a tool for other researchers to interrogate the function of certain nucleic acid structures more precisely across the genome.

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Mekhail and his colleagues found that inside the nucleolus, Pol II enables the expression of ribosomal RNA genes  a key step in the creation of ribosomes, essential molecular complexes that make proteins in all cells. Pol II, they showed, generates R-loops  hybrid DNA-RNA structures  that directly shield ribosomal RNA genes from molecular disruptors called sense intergenic non-coding RNAs (or sincRNAs).

Those disruptors are produced by Pol I in intergenic, non-protein-coding sequences of DNA between genes, and they become more active in various conditions: disruption of Pol II, under environmental stress, and in Ewing sarcoma.

Pol II puts the brakes on Pol I and prevents sincRNAs from sinking the nucleolus, said Mekhail, who holds the Canada Research Chair in Spatial Genome Organization. Thats how we united the name and action of the disruptors in our discussions of this work.

Mekhail and his team developed a new technology to test the function of R-loops at specific locations on chromosomes, which they dubbed the red laser system.

The existing tool in the field would obliterate R-loops across the whole genome, but we wanted to test the function of R-loops associated with a given genetic locus, said Mekhail. We were able to turn an old technology into a modern laser-guided missile, which we are still working to further improve.

Two 勛圖惇蹋 students were co-lead authors on the study  Karan (Josh) Abraham and Negin Khosraviani  and Mekhail said they made exceptional and complementary contributions to the research.

Abraham, , began work on the project in 2014.

I pursued this work having observed enrichment of Pol II at ribosomal DNA genes in the nucleolus, which was compelling, said Abraham, who will finish his medical training next year. Its incumbent upon every scientist to challenge existing models should the evidence support an alternate one.

A doctoral student who joined the lab in 2018, Khosraviani said teamwork and time management were critical.

We could not have completed this research without the help and dedication of our entire lab. Coordination with local and international collaborators was also essential. 

Mekhails team worked with colleagues across 勛圖惇蹋 and affiliated hospitals on the study, and with international collaborators at the University of Texas at San Antonio and the University of Miami.

Next steps based on this research could include exploration of sincRNAs and nucleolar disorganization as biomarkers for various cancers, and whether tumours with those features respond to drugs that target intergenic Pol I or II.

COVID-19 has been devastating, but other diseases have not stopped, said Mekhail, who temporarily closed his physical lab space during the pandemic but has continued working with his team to analyze and publish results. For example, cancer is still rampant and affecting peoples lives. We have to do what we can and look forward to building on the progress weve made as soon as possible.

This research was supported by the Canadian Institutes of Health Research, Canada Research Chairs, U.S. National Institutes of Health, Ontario Ministry of Research and Innovation, Ontario Graduate Scholarship Program, and Natural Sciences and Engineering Research Council of Canada.

 

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