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We want to understand the molecular and structural mechanisms how segmented negative strand RNA viruses, such as Lassa Virus or Rift Valley Fever Virus, use their own proteins and interact with cellular proteins in order to replicate and transcribe their RNA genome.
Viruses from the order of Bunyavirales with a segmented negative strand RNA genome produce only a handful of own proteins, some of them get by with only four gene products. Nonetheless several of the most deadly and newly emerging pathogens like the Lassa virus and the Crimean-Congo hemorrhagic fever virus belong to this group. Another virus, the Rift Valley fever virus, has been known for approx. 100 years, but large outbreaks in humans have been reported more and more often during the last years. Thus in addition to the newly emerged viruses, some of the long-known viruses gained a more important role for public health. How these small viruses are able to use their 4-6 proteins in a way that allows them to have such a dramatic effect on their host is fascinating and not yet understood.
Two proteins are mainly in the focus of our research: The L protein and the N protein that together with the RNA genome of the virus form the ribonucleoparticle, which is sufficient for replication and transcription of the genome. We apply a variety of methods from structural biology, biochemistry and virology fields to understand bunyavirus genome replication and transcription processes in tiny detail.
We produce the viral proteins in a suitable expression system, e.g. bacteria, insect cells or mammalian cells. In an interdisciplinary approach combining structural biology techniques (protein crystallography, Small angle X-ray scattering, cryo-electronmicroscopy and mass spectrometry) with functional studies from in vitro enzyme activity assays and cell-based replication and transcription experiments as well as advanced bioinformatics we aim at understanding catalytic mechanisms and enzyme dynamics.
Besides the central polymerase domain, the viral L protein contains an endoribonuclease in its N-terminus. Hantaviruses, which are another group of important pathogens within the order of Bunyavirales, contain an endonuclease, which is too active to be recombinantly produced: it degrades all RNA making it toxic for the expressing cell. We studied the endonuclease in detail by introducing a set of mutations, which result in an attenuated enyzme, allowing for expression in E. coli. By determination of the crystal structure we could propose a role of all mutated amino acids and gain new insights into an enzyme, which is essential for the viral life cycle and therefore an attractive drug target.
Furthermore, we solved the structures of the N- and C-terminal domains of the California Academy of Sciences virus (reptarenavirus) L protein. The N-terminal domain of this L protein contains an endoribonuclease, which is structurally homologous to already published arenavirus endonucleases. The C terminus of the L protein contains a putative cap-binding site very similar to influenza virus cap-binding protein PB2. Both of these functions, cap-binding and endonuclease, are required for the cap-snatching mechanism, by which segmented negative strand RNA viruses presumably initiate transcription. In our structure however, the residues potentially involved in cap-binding did not show the expected conformation and also functional studies could not proof a cap-binding activity leaving it unclear how cap-snatching actually works in bunyaviruses.
With more recenty solved structures of Rift Valley fever virus and Severe fever with thrombocytopenia syndrome virus L protein C-terminal domains we were able to demonstrate the presence of a functional cap-binding domain within the bunyavirus L protein. Comparison with influenza virus cap-binding domain revealed commonalities and differences in the binding mode for the cap. Yet, many details about bunyavirus cap-snatching remain unclear.
Most recently, we succeded in the structural and functional characterization of full-length L proteins in their apo conformation by combining single particle cryo-EM, X-ray crystallography and Small-angle X-ray scattering methods with basic biochemistry, biophysical and cell-based assays.
The tools developed and collaborations built within the past years should now serve as a framework to dive deeper into L protein functions and dynamics.
Errors in the deposited SFTSV L protein structure.
Cusack S, Rosenthal M.
Nat Microbiol. 2021 May;6(5):549-550. doi: 10.1038/s41564-021-00901-3.
Reduced Nucleoprotein Availability Impairs Negative-Sense RNA Virus Replication and Promotes Host Recognition.
Nilsson-Payant BE, Blanco-Melo D, Uhl S, Escudero-Pérez B, Olschewski S, Thibault P, Panis M, Rosenthal M, Muñoz-Fontela C, Lee B, tenOever BR.
J Virol. 2021 Apr 12;95(9):e02274-20. doi: 10.1128/JVI.02274-20.
Structural and functional characterization of the severe fever with thrombocytopenia syndrome virus L protein.
Vogel D, Thorkelsson SR, Quemin ERJ, Meier K, Kouba T, Gogrefe N, Busch C, Reindl S, Günther S, Cusack S, Grünewald K, Rosenthal M.
Nucleic Acids Res. 2020 Apr 20:gkaa253. doi: 10.1093/nar/gkaa253.
The Cap-Snatching Mechanism of Bunyaviruses
Olschewski S, Cusack S, Rosenthal M.
Trends Microbiol. 2020 Apr;28(4):293-303. doi: 10.1016/j.tim.2019.12.006. Epub 2020 Jan 13.
Structure and function of the Toscana virus cap-snatching endonuclease.
Jones R, Lessoued S, Meier K, Devignot S, Barata-García S, Mate M, Bragagnolo G, Weber F, Rosenthal M, Reguera J.
Nucleic Acids Res. 2019 Oct 4. pii: gkz838. doi: 10.1093/nar/gkz838. [Epub ahead of print] PubMed PMID: 31584100.
Structure of a functional cap-binding domain in Rift Valley fever virus L protein.
Gogrefe N, Reindl S, Günther S, Rosenthal M.
PLoS Pathog. 2019 May 28;15(5):e1007829. doi: 10.1371/journal.ppat.1007829.
Biochemical and structural studies reveal differences and commonalities among cap-snatching endonucleases from segmented negative-strand RNA viruses.
Holm T, Kopicki JD, Busch C, Olschewski S, Rosenthal M, Uetrecht C, Günther S, Reindl S.
J Biol Chem. 2018 Oct 22. pii: jbc.RA118.004373. doi: 10.1074/jbc.RA118.004373.
Occupation-Associated Fatal Limbic Encephalitis Caused by Variegated Squirrel Bornavirus 1, Germany, 2013.
Tappe D, Schlottau K, Cadar D, Hoffmann B, Balke L, Bewig B, Hoffmann D, Eisermann P, Fickenscher H, Krumbholz A, Laufs H, Huhndorf M, Rosenthal M, Schulz-Schaeffer W, Ismer G, Hotop SK, Brönstrup M, Ott A, Schmidt-Chanasit J, Beer M.
Emerg Infect Dis. 2018 Jun;24(6):978-987. doi: 10.3201/eid2406.172027.
Structural insights into reptarenavirus cap-snatching machinery.
Rosenthal M, Gogrefe N, Vogel D, Reguera J, Rauschenberger B, Cusack S, Günther S, Reindl S
PLoS Pathog. 2017 May 15;13(5):e1006400. doi: 10.1371/journal.ppat.1006400.
Atomic Structure and Biochemical Characterization of an RNA Endonuclease in the N Terminus of Andes Virus L Protein.
Fernández-García Y, Reguera J, Busch C, Witte G, Sánchez-Ramos O, Betzel C, Cusack S, Günther S, Reindl S.
PLoS Pathog. 2016 Jun 14;12(6):e1005635.
Comparative Structural and Functional Analysis of Bunyavirus and Arenavirus Cap-Snatching Endonucleases.
Reguera J, Gerlach P, Rosenthal M, Gaudon S, Coscia F, Günther S, Cusack S.
PLoS Pathog. 2016 Jun 15;12(6):e1005636.
Evaluation of antiviral efficacy of ribavirin, arbidol, and T-705 (favipiravir) in a mouse model for Crimean-Congo hemorrhagic fever.
Oestereich L, Rieger T, Neumann M, Bernreuther C, Lehmann M, Krasemann S, Wurr S, Emmerich P, de Lamballerie X, Ölschläger S, Günther S.
PLoS Negl Trop Dis. 2014 May 1;8(5):e2804. doi: 10.1371/journal.pntd.0002804.
Role of the C Terminus of Lassa Virus L Protein in Viral mRNA Synthesis.
Lehmann M, Pahlmann M, Jerome H, Busch C, Lelke M, Günther S.
J Virol. 2014 Aug;88(15):8713-7. doi: 10.1128/JVI.00652-14.
Surveillance of Batai virus in bovines from Germany.
Hofmann M, Wiethölter A, Blaha I, Jöst H, Heinemann P, Lehmann M, Miller T, Cadar D, Yanase T, Kley N, Eiden M, Groschup M, Schmidt-Chanasit J.
Clin Vaccine Immunol. 2015 Jun;22(6):672-3. doi: 10.1128/CVI.00082-15.
The role of oligomerization for the biological functions of the arenavirus nucleoprotein.
Lennartz F, Hoenen T, Lehmann M, Groseth A, Garten W.
Arch Virol. 2013 Sep;158(9):1895-905. doi: 10.1007/s00705-013-1684-9.
Rift Valley fever virus minigenome system for investigating the role of L protein residues in viral transcription and replication.
Jérôme H, Rudolf M, Lelke M, Pahlmann M, Busch C, Bockholt S, Wurr S, Günther S, Rosenthal M, Kerber R.
J Gen Virol. 2019 Jun 6. doi: 10.1099/jgv.0.001281.
Biochemical characterization of the Lassa virus L protein.
Vogel D, Rosenthal M, Gogrefe N, Reindl S, Günther S.
J Biol Chem. 2019 Mar 29. pii: jbc.RA118.006973. doi: 10.1074/jbc.RA118.006973. [Epub ahead of print]
Phone: +49 40 42818-930
Fax: +49 40 42818-931
Dr. Tobias Holm
Dr. Sophia Reindl
Efe Can Yildirim