idw – Informationsdienst Wissenschaft
Nachrichten, Termine, Experten
Nachrichten, Termine, Experten
SARS-CoV-2 viruses manage to hijack human cells with a minimum of their own proteins and use them as incubators for their offspring. One of these multifunctional viral proteins is the nucleocapsid protein (N), which plays a key role in viral replication and packaging. Researchers from Goethe University Frankfurt have now discovered how N recognizes both viral RNA in general as well as specific RNA positions with the help of “fingers”. In the latter, N adapts to the increased temperature of the host cell. It might be the case that SARS-CoV-2 uses the fever we develop in the course of an infection to switch from virus replication to virus release.
FRANKFURT. Immediately after the infection of a cell in the throat or lungs, the SARS-CoV-2 virus works very hard to replicate, using the human cell’s metabolic pathways to produce its proteins and make sure that its genetic material (the RNA genome) is copied. The RNA genome is then packaged very compactly into new virus particles that are released from the cell to infect more cells.
One viral protein, called the nucleocapsid protein (N), is particularly important for rapid and efficient replication. It wraps around the RNA genome in the virus and ensures that the very long RNA is tightly coiled up. When it penetrates the cell, N detaches itself from the RNA genome and assumes a whole range of functions during viral replication: When the RNA is translated into viral proteins, N protects the RNA from being destroyed by the cell’s antiviral defense mechanism (“RNA interference”). N also contributes directly to the transcription of RNA into viral proteins, and finally it collects the replicated viral RNA in the cell and coils it up so that new viral particles can form.
Like a Swiss army knife, N has several tools at its disposal for all these functions: Firstly, N must be able to distinguish between cellular and viral RNA and to coil up the latter in a spiral shape. That is why N can bind viral RNA in a relatively non-specific manner. To steer the transcription of viral RNA into viral proteins (translation), for example, N must, however, equally be able to recognize specific positions on the viral RNA, called RNA motifs.
Researchers led by Dr. Sophie Korn and Dr. Andreas Schlundt from the Institute for Molecular Biosciences and the Center for Biomolecular Magnetic Resonance (BMRZ) at Goethe University Frankfurt have now shed light on exactly how this specific binding through one of N’s tools, known as the N-terminal domain (NTD), works. Their results build on preliminary studies by the COVID19-NMR consortium established in Frankfurt during the pandemic. In the work now presented, Korn and her colleagues used nuclear magnetic resonance (NMR) spectroscopy, in which the atoms of the NTD tool and of the bound RNA are exposed to a strong magnetic field and in this way reveal something about their spatial arrangement during binding. In addition, a special X-ray technique (small-angle X-ray scattering, SAXS) delivered precise information about the stability of the newly formed molecular complexes.
The result: Both the sequence of the RNA building blocks (bases) and the spatial folding of the RNA are important for binding, whereby the positively charged part of the NTD binds the negatively charged RNA in a very unspecific way. Several “fingers” of the NTD then explore the RNA in search of motifs that the NTD can use to bind more stably. What attracted the researchers’ attention was that the NTD prefers motifs which are present in lung cells at body temperature in a specific spatial folding that is lost when the temperature increases by just a few degrees. This not only identifies them as their own target motifs but also binds them much more tightly, which could lead to the NTD exercising new functions.
Sophie Korn says: “Although our data are only a first step, they suggest that the virus could switch between replication and packaging into new virus particles in this way: At normal body temperature, the cell predominantly produces building blocks for new viruses. If we develop a fever in the course of the infection because our immune system recognizes and fights the virus, the virus might switch to replication as a direct result and ensure that the viral RNA is packaged more and released in the form of new virus particles. It is the viral RNA motifs themselves that provide the switch, which is then triggered by the human defense system.”
Andreas Schlundt is convinced: “With the combination of NMR spectroscopy and SAXS, we have established an experimental method that we can use to quickly assess which binding partners N prefers, and this can probably be transposed to other viral proteins. This will be useful both in the study of emerging viruses and viral variants as well as in the development of antiviral drugs that systematically disable the virus, minimizing side effects in the process.”
Dr. Andreas Schlundt
Emmy Noether Junior Group Leader
Institute for Molecular Biosciences and BMRZ
Goethe University Frankfurt
schlundt@bio.uni-frankfurt.de
Tel. +49 69 798 29699
Dr. Sophie Korn
Group of Dr. Andreas Schlundt
Institute for Molecular Biosciences and BMRZ
Goethe University Frankfurt
Tel. +49 69 798 29698
korn@bio.uni-frankfurt.de
Sophie Marianne Korn, Karthikeyan Dhamotharan, Cy M. Jeffries, Andreas Schlundt: The preference signature of the SARS-CoV-2 Nucleocapsid NTD for its 5’-genomic RNA elements. Nature Communications (2023) https://doi.org/10.1038/s41467-023-38882-y
https://covid19-nmr.de/ COVID19-NMR consortium
https://aktuelles.uni-frankfurt.de/english/sars-cov-2-achilles-heel-of-viral-rna... Potential drugs against SARS-CoV-2 could directly attack the viral genome (2021)
https://aktuelles.uni-frankfurt.de/english/folding-of-sars-cov2-genome-reveals-d... Folding of SARS-CoV-2 genome shows points of attack for drugs (2020)
The fingers of the N protein in SARS-CoV-2: Like fingers, protrusions of the N-terminal domain of th ...
Andreas Schlundt
Goethe University Frankfurt
Criteria of this press release:
Business and commerce, Journalists, Scientists and scholars
Biology, Chemistry, Medicine
transregional, national
Research results, Scientific Publications
English
The fingers of the N protein in SARS-CoV-2: Like fingers, protrusions of the N-terminal domain of th ...
Andreas Schlundt
Goethe University Frankfurt
You can combine search terms with and, or and/or not, e.g. Philo not logy.
You can use brackets to separate combinations from each other, e.g. (Philo not logy) or (Psycho and logy).
Coherent groups of words will be located as complete phrases if you put them into quotation marks, e.g. “Federal Republic of Germany”.
You can also use the advanced search without entering search terms. It will then follow the criteria you have selected (e.g. country or subject area).
If you have not selected any criteria in a given category, the entire category will be searched (e.g. all subject areas or all countries).
