Transcript lec2

THE REPLICATION OF VIRUSES
Virology Lecture 2
Three lectures dealing with (1) replication of
DNA viruses (2) the culture, growth and
recognition of virus infections (3) the
replication of RNA viruses
A growth curve for a virus in cell culture, based upon
the simultaneous infection of all cells in the culture
THE MODE OF REPLICATION OF VIRUSES -- WITH
PARTICULAR REFERENCE TO DNA VIRUSES
There are a number of sequential steps in replication of
DNA viruses
1. Attachment or adsorption
2. Penetration
3. Uncoating of virus and transport of genome to site of replication
4. Early transcription (mRNA)
5. Early translation and early proteins
6. Viral DNA synthesis
7. Late transcription of further mRNA
8. Late translation and synthesis of structural proteins
9. Assembly
10. Release
These sequential steps in the replication of DNA
viruses can be considered in groups
1. Attachment or adsorption
2. Penetration
3. Uncoating of virus .. transport of genome to site of replication
4. Early transcription (mRNA)
5. Early translation and early proteins
6. Viral DNA synthesis
7. Late transcription of further mRNA
8. Late translation and synthesis of structural proteins
9. Assembly
10. Release
If the virus attaches to red blood cells ....
and not all viruses will
attach to red blood cells
….. the red blood cells
agglutinate
(haemagglutination)
Step 2. Penetration
• Fusion of the envelope of the
virus with the plasma
membrane of the cell and the
direct release of the
nucleocapsid into the
cytoplasm. The fusion process
is mediated by specific
proteins or glycoproteins
OR
• Engulfment of the virus by the
cell in a specific phagocytic
process (adsorptive
endocytosis) before the viral
nucleic acid (genome) is
released.
Step 3. Uncoating
•
This is the general term applied to events after penetration which free the viral
genome.
–
•
It can occur in the cytoplasm, or in the cases of viruses that replicate in the nucleus (and this
includes most DNA viruses) it occurs in the nucleus following transport of the virion through
the cytoplasm to the nucleus.
Different viruses have evolved different strategies.
–
With poxviruses, which replicate in the cytoplasm, host factors induce the disruption of the
virus.
–
In herpesviruses, after fusion and deposition of the viral nucleocapsid ….in the cytoplasm of
the cell …. nucleocapsid migrates to the cell nucleus along the microtubules ….to the nuclear
pore, and … is released into the nucleus.
–
With papillomaviruses, the virus is transported to the nucleus in vesicles
–
Circoviruses gain entry to the nucleus during mitosis
• Next few slides demonstrate the initial
stages in the replication of HIV
– attachment
– penetration
– uncoating and release of virus components into
the nucleus
CD4 antigen
Co-receptor
CD4+
cell
HIV binds to CD4-positive cells
gp41
(TM)
Co-receptor
CD4
antigen
HIV
Gp120
(SU)
T4 cell
Coreceptor
CD4
antigen
SU binds to CD4
and SU changes
conformation
Coreceptor
CD4
antigen
Modified SU then
binds to co-receptor
Coreceptor
CD4
antigen
TM undergoes
conformational change
bringing membranes
close together
TM is exposed and embeds in
the membrane of the CD4 cell
HIV membrane and cell
membrane begin to fuse
Membranes fuse
Nucleocapsid enters
cytoplasm
Cell
membrane
Nuclear
membrane
Nuclear
pore
Nucleocapsid moves
toward nucleus
Nuclear
membrane
Interacts with nuclear
protein (nuclear pore?)
Reverse
transcriptase
protease
Surface
membrane
integrase
Nuclear
membrane
Components enter
the nucleus
RNA
tRNA primer
Steps 4 and 5. Early transcription and
translation of viral proteins
The next step is the formation of a mRNA from the virus DNA (transcription) and
formation of early viral-coded proteins (translation).
DNA-dependent RNA-polymerase
(cell origin, except poxviruses)
Viral DNA
Viral mRNA
Nucleotide pool (ATP,TTP,CTP,GTP)
using cell ribosomes
Viral-coded proteins
What are the early coded proteins? Enzymes necessary for the next step in the
process --DNA synthesis (eg. thymidine kinase and a DNA-dependent DNA polymerase)
.
Where in the cell does this occur?
With most DNA viruses (but not
poxviruses, which replicate in the
cytoplasm), the transcriptional events
occur in the nucleus.
From there mRNA is transported to
the cytoplasm where translation of the
coded proteins occurs.
The proteins are then transported
back to the nucleus where they are
needed before further steps in the
replication process can proceed.
Uncoating and release of virus
genome in nucleus
Transcription of mRNA from DNA
Translation of mRNA and production
of early virus-coded proteins
Some of these virus-coded
proteins re-enter the nucleus
where they are needed for DNA
replication, eg. The virus encoded
DNA-dependent DNA polymerase
Step 6. Viral DNA synthesis (DNA replication)
Nucleotide pool in cell
Viral DNA
Progeny viral DNA
DNA-dependent DNA polymerase
Progeny virus DNA
Steps 7 and 8. Late transcription and
translation of proteins
• Late transcriptional events occur only after DNA
synthesis has begun and does not occur if DNA
synthesis is inhibited [by inhibitors such as IUDR]
• The late mRNAs which are transcribed are again
transported to the cytoplasm and code for structural
proteins which are later assembled to form the progeny
virus particles.
Some of the structural proteins formed may be glycosylated on the
trans-Golgi network before they are transported back to the nucleus,
where assembly of the proteins into viral particles occurs.
Late transcription of mRNA
Late translation of virus
proteins
Step 9. Assembly of viral particles
• After synthesis of viral nucleic acid and protein these are
packaged together to form progeny virus.
• In assembly, the various proteins are assembled in a defined
sequence. The inner `core' proteins are the first to associate with
DNA, and the capsomers are laid down last.
• With the poxviruses and the iridoviruses - which replicate in the
cytoplasm of the cell - progeny DNA and protein accumulate in a
common cytoplasmic factory (inclusion) and there is little problem in
assembly when the concentration of the two reach an adequate
level.
• Other DNA viruses are assembled in the nucleus - assembly occurs
after structural proteins (synthesised in the cytoplasm) have
migrated back to the nucleus where DNA replication and
transcription have occurred.
Assembly
Progeny virus DNA
Structural virus proteins
Step 9. Assembly of viral particles
• After synthesis of viral nucleic acid and protein these are packaged
together to form progeny virus.
• Most DNA viruses are assembled in the nucleus - assembly
occurs after structural proteins (synthesised in the cytoplasm)
have migrated back to the nucleus where DNA replication and
transcription have occurred.
•
• Poxviruses replicate in the cytoplasm of the cell - progeny DNA
and protein accumulate in a common cytoplasmic factory
(inclusion) and assemble when the concentration of the two
reach an adequate level.
Step 10. Release of the virus particles
from the cell
• By autolysis of the cell - this is the method used by most
DNA viruses
– Virus-induced programmed cell death (apoptosis) may be
involved
• Herpesviruses mature by a more
complex process during which
the viruses acquire an envelope
Final endocytosis from the
plasma membrane and
directional budding of
virions results in release of
virus from the cell.
Glycosylation of envelope
proteins and insertion into membrane
of vesicles of the Golgi network
Capsids obtain final
envelope by budding into
vesicles of the transGolgi network
Tegumentation
occurs in the
cytoplasm
Primary envelopement of capsids by budding
at the inner leaflet of the nuclear membrane
and translocation of capsids into the
cytoplasm after loss of the primary envelope
by fusion with the outer leaflet of the nuclear
membrane