The Molecular Biology & General Background of the Lassa Virus

1. The Molecular Biology & General Background of the Lassa Virus Presented by Ryan Cordell

2. Presentation Overview • General Virus Background • General Morphology of the Virus • Ambisense RNA Genome • Viral Proteins • Virus Life Cycle • Treatment • Weaponization

3. Lassa Fever Background • Found in West Africa • 100K – 300k Cases/year • 1% of infections result in death • Early symptoms resemble flue or enteritis • Three-week incubation period

4. General Characteristics Virus • Member of the Arena Virus Family • Spherical viral particles • Particle diameter is 110-130 nm • Lipid membrane coat • Virion consists of two nucleocapsids

5. Club-shaped projections on virion surface Virion Composition: 70% Protein weight 2% Genome weight 8% Carbohydrates 20% Lipids 40-45% Guanine & Cytosine content Thermal inactivation point is 56 oC Inactivated at < pH 5.5 and > pH 8.5 General Characteristics Cont’d

6. RNA Genome:Coding Region • Composed of 2 strands: S-RNA & L-RNA • L:S ratio is 2:5 in virion & infected cell • Both strands are ambisense • S-RNA is 3.4 kb and codes for 2 proteins • Nucleoprotein (NP) • Glycoprotein (GPC) • L-RNA is 7 kb and codes for 2 proteins • Viral RNA-dependent RNA polymerase (L) • Zinc RING-finger motif protein (Z)

7. RNA Genome:Coding Region

8. RNA Genome:Noncoding Region • No overlap between (+) & (-) ambisense genes • Noncoding intergenic region found between genes • Intergenic region forms stable hairpin loop in both L & S strands • 17 of 19 nt on the 3’ end are conserved between L & S

9. Viral Proteins

10. Viral Proteins:Nucleocapsid Protein (NP) • MW 60-68 kDa • 1st protein expressed in infected cell • Most abundant structural protein • Major protein component of nucleocapsids • NP can be cross-linked to carboxy-terminus of GP2 (essential to virion assembly)

11. Viral Proteins:Viral RNA-Dependent RNA Polymerase (L) • MW 180-250 kDa • Actual L-protein can be detected in virions • 2nd protein produced in infected cell

12. Viral Proteins:Envelope Glycoprotein (GPC) • MW 79-80 kDa • Post-translationally cleaved to release GP1 & GP3

13. Viral Proteins:Glycoprotein - 1 • MW 40-46 kDa • 4-11 N-linked glycosylation sites • Assemble into homotetrameric complexes • Complexes held together with disulfide bonds

14. Viral Proteins:Glycoprotein - 2 • MW 35 kDa • 1-4 potential N-linked glycosylation sites • Membrane spanning domain • Interacts with NP in order to assemble virion • Assemble into homotetrameric complexes • Stalk of glycoprotein spike • Acts as viral fusion protein under acidic conditions

15. Viral Proteins:Zinc RING-finger Protein (Z) • MW 11 kDa • Contains a RING-finger motif and binds to zinc • Relatively large amount of Z-mRNA can be found in the virion • Might serve as a cofactor in replication and/or transcription • Actual function is not known

16. Virus Life Cycle

17. Virus Life Cycle • Virion comes into contact with cell • GP1 bind to cellular receptor (Dystroglycan) • Virion enters cell via smooth-walled clathrin-free vesicle • Acidification of endosome leads to nucleocapsid delivery • GP1 dissociates from GP2 • GP2 fusion peptide is exposed • Core unit is delivered into cytosol

18. Virus Life Cycle Cont’d • NP is expressed in large quantities • Replication of L & S strands ensues • GPC is expressed leading to GP1 & GP2 • GP1 & GP2 homotetrameric complexes migrate to cell surface • NPs combine with genomic RNA to from a string of bead like structures • NP cross-links to carboxy terminus of GP2 • Complete virus forms and buds off from cell

19. Lassa Virus

20. Treatment • Ribavirin for infected individuals (mech not known) • Vaccines have been successfully tested in animals but not in humans

21. Weaponization • No current human vaccine • Poorly understood by medical community • Rarity = unexpected • Can’t survive in open for long • Only 1 known animal reservoir • Simplistic genome • Stable replication

22. The End