New toolbox aids in characterizing internal ribosomal entry sites in cells

Researchers develop a versatile toolbox for the characterization of IRESes in cells
Credit: The EMBO Journal (2025). DOI: 10.1038/s44318-025-00404-5

Only recently has the ribosome鈥攐ne of the oldest molecular machines in evolutionary terms鈥攂een recognized as an active regulator of gene expression at the level of protein biosynthesis. This is an important process for the development and function of cells, in which genetic information is converted into proteins. The final step, in which the information encoded on the messenger RNA (mRNA) is transferred, is known as translation.

The "Immunobiochemistry" research group led by Prof. Kathrin Leppek at the Institute of Clinical Chemistry and Clinical Pharmacology (IKCKP) at the UKB is investigating the control of using the direct interaction of the with mRNAs.

"As the central translation machinery that is essential for all life, the ribosome and the factors associated with it, such as proteins or RNA structures, are the focus of our research interest," says Prof. Leppek, a member of the ImmunoSensation2 Cluster of Excellence at the University of Bonn. "There is increasing evidence that ribosome composition influences selective translation such that customized ribosomes preferentially bind and translate certain mRNAs."

Role of IRESes in gene expression

As an example of such structures, which play an important role in the initiation of translation and thus in the regulation of gene expression, the Bonn researchers have now investigated internal ribosomal entry sites (IRESes). These are specialized, folded sequences within an RNA strand that are particularly well known in the genetic material of viruses in order to hijack the ribosomes of the host after an infection. The hepatitis C virus or the poliovirus, for example, are able to start the production of new viral proteins independently of all initiation factors thanks to their IRES elements.

By recruiting ribosomes, IRES sequences enable the initiation of translation independently of the 5' cap of the mRNA. This is a protective cap with which the host's own mRNA strands are equipped, which enables translation under normal conditions but are blocked under viral infection.

No uniform standard for the clear characterization of IRES

IRES were first described in the viral genome, where they allow the replication of viruses in infected cells by recruiting host ribosomes. In recent decades, however, more and more IRESes have also been described in , which, unlike viruses, have a nucleus.

"This strengthens the general view that these elements are also involved in the regulation of translation in eukaryotic cells," says Philipp Koch from the Leppek research group at UKB and doctoral student at the University of Bonn. He is first author on the published in The EMBO Journal.

His colleague and co-author Martin Haimann, also a doctoral student at the University of Bonn, adds, "However, a major challenge was the exact and reliable characterization of the newly described IRESes, especially from eukaryotic mRNAs, which was difficult due to technical hurdles and artifacts associated with existing technologies used so far."

In their current research work, the Bonn researchers have compiled and tested a number of versatile techniques that together will enable the robust characterization of IRESes in the future. One important method involves the use of circular RNA reporters, which can be used to confirm IRES-mediated activity of RNA elements.

Other techniques include quantitative staining techniques of individual mRNAs in mouse embryo tissue and determination of the translation rate of individual IRES-containing mRNAs.

"Such a comprehensive toolbox that can be applied in cultured cells and embryo tissue represents a new gold standard for the robust testing and characterization of IRESes," says Koch. Prof. Leppek adds, "Strong IRES elements are directly relevant for synthetic biology and emerging mRNA therapeutics."

More information: Philipp Koch et al, A versatile toolbox for determining IRES activity in cells and embryonic tissues, The EMBO Journal (2025).

Journal information: EMBO Journal

Citation: New toolbox aids in characterizing internal ribosomal entry sites in cells (2025, March 20) retrieved 29 July 2025 from /news/2025-03-toolbox-aids-characterizing-internal-ribosomal.html
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