Retroviruses - PowerPoint PPT Presentation

1 / 23
About This Presentation
Title:

Retroviruses

Description:

clinical treatment of genetic disorders and cancer. use murine leukemia virus, commonly ... 100,000 human ERV sequences and find in other sequenced organisms ... – PowerPoint PPT presentation

Number of Views:92
Avg rating:3.0/5.0
Slides: 24
Provided by: drjeannet
Category:

less

Transcript and Presenter's Notes

Title: Retroviruses


1
Chapter 16
  • Retroviruses

2
Introduction
  • RNA virus that copies genome into DNA during
    replication
  • Disputes the Central Dogma make mRNA into DNA
    using reverse transcription
  • Found in all classes of vertebrate animals
    fish, amphibians, birds and mammals
  • HIV-1 and -2 some cause cancer

3
Retrovirus Virion
  • Virions contain 2 copies of RNA genome
    described as diploid, forms a dimer
  • complementary sequence is called a kissing loop
    complex
  • Also have host RNA packaged during assembly
    tRNA bound to RNA at primer binding site near
    the 5 end
  • tRNA is specific for each virus
  • Nucleocapsid protein (NC) is most abundant
    protein associated with RNA
  • Other proteins in smaller amounts have enzyme
    activity

See figure legend for abbreviations
4
Retrovirus Virion
  • Lattice of capsid protein (CA) is around coated
    RNA with conical, spherical or cylindrical shape
    based on virus
  • Layer of matrix proteins (MA) between capsid and
    envelope
  • Associated with envelope is transmembrane protein
    (TM) bound to heavily glycosylated surface
    protein (SU)
  • interaction is usually non-covalent

5
Genome Regions
  • 3 major regions in the genome
  • gag group specific antigen internal
    structural proteins
  • pol polymerase enzymes
  • env envelope proteins

6
Enzyme Activities in Virion
  • RNA-dependent DNA polymerase (RT reverse
    transcriptase)
  • DNA-dependent DNA polymerase
  • Ribonuclease H (RNase H) removes RNA from a
    RNA-DNA duplex
  • Integrase integrates viral genome into host
    genome
  • Protease virion matuation

7
Attachment and Entry
  • Use SU protein with virus attachment site to bind
    cellular receptors causing changes in TM
    conformation exposing hydrophobic fusion sequence
  • cell membrane and envelope fuse
  • Most use plasma membrane fusion by some use
    endocytosis and then fuse envelope with membrane
    of endosome
  • Structure in cytoplasm looses some proteins and
    creates reverse transcription complex

8
Reverse Transcription
  • Takes place in a complex
  • Synthesis of () and (-) DNA begins at 3 OH of
    primer RNA
  • (-) DNA used tRNA primer
  • () DNA primer is a polypurine tract (PPT) in
    viral genome
  • see PPT when RNase H starts at 3 end
  • During synthesis each detached from template and
    reattaches at other end of template thru
    base-pairing
  • Provirus DNA resulting from reverse
    transcription longer than genome
  • Each termini has U3-R-U5 sequence long terminal
    repeat (LTR)
  • U3 on one end and U5 on the other

See figure legend for good summary
9
Integration of Provirus
  • Provirus complexed with protein moves to nucleus
    pre-integration complex
  • most retroviruses require cells going into
    mitosis for the breakdown of the nuclear membrane
  • productive infection only in dividing cells
  • HIV and related viruses can enter intact nuclei,
    no need for cell division for productive
    infection
  • Integrase is still attached cuts up the DNA of
    the cell and seals provirus in the gap
  • may lead to immediate expression of viral genes
    or little or no expression latent infection
  • when this cell divides so does the genomes and
    get daughter cells with viral genome

10
Transcription and Genome Replication
  • 2 LTRs have identical sequence but functionally
    different 1 acts as initiation site and other
    as termination site
  • TF binds upstream LTR and cell RNA pol II starts
    transcription at U3-R junction and moves
    downstream where termination occurs at R-U5
  • Transcripts are capped and PolyA tailed with some
    acting as mRNA (may be spliced) and others become
    genome

11
Translation and Post-Translational Modifications
  • env gene is translated from spliced mRNA in RER
    because glycosylated
  • Env proteins move to Golgi cleave to TM and SU
    proteins
  • TM/SU stay close and are further glycosylated
    before movement to plasma membrane
  • gag and pol genes are translated from genome
    length mRNA into Gag and Gag-Pol polyproteins
  • need more Gag proteins so have a mechanism that
    allows ribosomes to terminate after Gag synthesis
    in about 95 ribosomes, others make the
    polyprotein
  • Gag and Gag-Pol of most retroviruses are
    myristylated at N

12
Murine Leukemia Virus Mechanism
  • Mechanism involves reading thru a stop codon near
    end of Gag
  • Suppressor tRNA adds amino acids and continues
    translation into pol gag an pol are in same ORF

13
Majority of Retroviruses
  • Mechanism is ribosomal frame-shifting to get the
    appropriate numbers of Gag and Pol
  • gag and pol are in different reading frames that
    differ by -1 nt shift in about 5 of translations
    (used by HIV-1)

14
Assembly
  • Some retroviruses make immature particles in
    cytoplasm but not assembled at plasma membrane
  • N of Gag and Gag-Pol anchor to membrane by
    myristyl group and stabilized by electrostatic
    interactions between MA domain and negative
    charge of phosphate in membrane
  • MA domain also binds cytoplasmic tails of TM
    protein in membrane
  • NC domain of Gag and Gag-Pol bind polyprotein to
    virus RNA and make genome dimer
  • Protein binds 1st to packaging signal near 5 end
    of RNA and tRNA binds to PBS RNA coated with
    many copies of Gag and few copies of Gag-Pol

15
Release of Virions
  • Immature virion gets envelope by budding from
    cell surface
  • Gag and Gag-Pol are arranged radially with N
    facing out and C facing inward
  • The late domain of Gag binds host cell factors
    involved in budding process
  • During or after budding viral protease cleave Gag
    and Gag-Pol
  • Gag cleavage products form matrix, capsid and
    protein component of nucleocapsid
  • Pol cleavage products are virion enzymes

16
(No Transcript)
17
Examples of Retroviruses
  • Classified as simple or complex dependent on
    genome
  • Simple have 3 retroviral genes gag, pol and env
  • some cases have 1 additional gene an oncogene
    because it may cause host cells to become a tumor
    cell
  • src gene in Rous sarcoma virus
  • Complex have additional genes with the products
    having a variety of function in replication cycle
  • HIV-1 and HIV-2 are complex (Chapter 17)

18
Representatives of Family Retroviridae
  • Many cause disease
  • in mammals feline leukemia virus
  • in birds Rous sarcoma virus
  • in fish walleye dermal sarcoma virus

19
Retroviruses as Gene Vectors
  • Genetically modified virion to act as gene vector
  • Can introduce gene into cell, express to high
    levels after integration into cell genome
  • clinical treatment of genetic disorders and
    cancer
  • use murine leukemia virus, commonly
  • Lentiviruses also used can be delivered to
    non-dividing cells/tissues which is a big
    advantage

20
Success Story
  • X-linked severe-combined immunodeficiency
    (X-SCID) is successfully treated with retroviral
    vectors
  • take stem cells from patient and infect them with
    virus that has missing gene
  • virus integrates into genome
  • give stem cells back to and provirus expresses
    good genes and develop a normal immune system
  • bad side several patients developed cancer

21
Endogenous Retroviruses
  • Genomes of vertebrates contain retroviral genomes
    endogenous retroviruses (ERV), virus is
    defective
  • 100,000 human ERV sequences and find in other
    sequenced organisms
  • Some are related to normal retroviral genomes
    exogenous retroviruses
  • ERVs in mice similat to sequence in genome of
    mouse mammary tumor virus
  • ERVs arise from exogenous retrovirus integrate
    into genome of germline cells survive and
    participate in reproduction
  • Can be copied to other areas in the genome give
    rise to related ERV elements

22
ERVs (continued)
  • Do not normally replicate as they are defective
  • Some can replicate when defective ERVs are
    supplied missing gene by another ERV or
    exogenous retrovirus
  • Some can replicate in cells other that the one it
    was made in mouse ERV and swine ERV can
    replicate in human cells
  • Some have intact genome and can initiate a
    productive infection
  • concern in using pig parts in humans for organ
    transplant as may get retroviral infection

23
(No Transcript)
Write a Comment
User Comments (0)
About PowerShow.com