Team:Freiburg/Content/Project/The viral vector
From 2014.igem.org
Line 25: | Line 25: | ||
<div class = "row category-row"> | <div class = "row category-row"> | ||
<div class = "col-sm-6"> | <div class = "col-sm-6"> | ||
- | <p>Viruses are classified as ecotropic, polytropic or amphotropic depending on the number of different host cells they are able to infect [1]. The Moloney Murine Leukemia Virus (MuLV) is an ecotropic gammaretrovirus; it only infects rodent cells (mice and rat). This tropism of the virus is granted by its high specificity towards the mCAT-1 receptor | + | <p>Viruses are classified as ecotropic, polytropic or amphotropic depending on the number of different host cells they are able to infect [1]. The Moloney Murine Leukemia Virus (MuLV) is an ecotropic gammaretrovirus; it only infects rodent cells (mice and rat). This tropism of the virus is granted by its high specificity towards the mCAT-1 receptor [7]. Once attached to the receptor the MuLV outer membrane fuses with the host cells membrane and the single stranded viral RNA genome is transferred into the cytoplasm.</p> |
</div> | </div> | ||
<div class = "col-sm-6"> | <div class = "col-sm-6"> | ||
</div> | </div> | ||
- | <p> Here it is reverse transcribed into | + | <p> Here it is reverse transcribed into DNA by the viral reverse transcriptase. The retroviral DNA is further processed by the viral Integrase protein. Integrase is recessing the 3’ ends of the DNA by 2 bp, at this point the viral DNA is referred as provirus [1]. When the cell is undergoing mitosis the viral DNA can be integrated into the host cells genome due to the breakdown of the nuclear membrane, there the target sequence is cleaved and the 5’ ends are recessed. After integration the dsDNA is called provirus. The provirus starts expression of its genes.</p> |
</div> | </div> | ||
</section> | </section> |
Revision as of 21:22, 17 October 2014
The Viral Vector
Retroviral Introduction
Retroviruses are enveloped viruses that are found in fish, avian and mammals. The diameter of a retroviral virion is approximately 80 – 100 nm. The outmost layer of the virus is a lipid bilayer derived from the host cell membrane. It surrounds the spherical capsid in which two identical single stranded RNA strands are located.
They are positive-sense and approximately 7 – 11 kB long (5). Generally the retroviral life cycle can be divided in two distinct phases: infection and replication. In the following sections we will focus on the Moloney Murine Leukemia Virus (MuLV), which is the origin of the viral vector we are using for our project.
Retroviral Tropism And Infection Mechanism
Viruses are classified as ecotropic, polytropic or amphotropic depending on the number of different host cells they are able to infect [1]. The Moloney Murine Leukemia Virus (MuLV) is an ecotropic gammaretrovirus; it only infects rodent cells (mice and rat). This tropism of the virus is granted by its high specificity towards the mCAT-1 receptor [7]. Once attached to the receptor the MuLV outer membrane fuses with the host cells membrane and the single stranded viral RNA genome is transferred into the cytoplasm.
Here it is reverse transcribed into DNA by the viral reverse transcriptase. The retroviral DNA is further processed by the viral Integrase protein. Integrase is recessing the 3’ ends of the DNA by 2 bp, at this point the viral DNA is referred as provirus [1]. When the cell is undergoing mitosis the viral DNA can be integrated into the host cells genome due to the breakdown of the nuclear membrane, there the target sequence is cleaved and the 5’ ends are recessed. After integration the dsDNA is called provirus. The provirus starts expression of its genes.
The Retoviral Genome
MMLV is a simple retrovirus naturally encoding only three genes called gag, pol and env. Besides this trans-gene elements there are also regulatory cis-gene elements. The trans-gene elements are flanked by long terminal repeats (LTR). The 5’ LTR harbors a promoter region, which initiates transcription of the provirus, whereas the 3’ LTR is needed for polyadenylation of the proviral mRNA. The gag (group antigenes) gene is precursor polyprotein which is further processed after translation. After procession it forms the major proteins building up the core particle, RNA binding proteins and the nucleoprotein core particle. The pol genes codes for the reverse transcriptase, RNase H and the Integrase. It is mandatory for proper processing of the viral RNA genome. The env gene codes for the envelope protein. This protein is responsible for the viral tropism and is located in the viral lipid bilayer which is derived from the host cell membrane. Further the genomes codes for a psi-packaging sequence. This sequence forms a secondary RNA structure and is needed for correct packaging of the viral genome into the virion (3). After proper packaging the virus is leaving the cell and can start the next round of transfection.
Retroviral Vectors
Retroviral vectors are used for the delivery of variable gene cargo into cells, a process termed transduction. To ensure safe handling the cis- and trans-acting gene elements are separated from each other. Helper viruses or packaging cell lines, carrying the trans-acting gene-elements are needed for producing the functional viral vector. Besides safety issues this approach also has the advantage that, due to the deletion, a larger gene cargo (~ 8 kB) can be integrated into the vector (4). Our MuLV vector needs the Phoenix eco cell line in order to replicate.
They carry the trans-acting gene elements under non-MLV promoters in order to minimize the probability of a recombination event that would lead to the production of replication efficient viruses. The advantages of retroviral vectors are especially the stable integration of gene cargo and their high specificity but also their flexible genome.
References
- Craigie R, Fujiwara T, Bushman F. The IN Protein of Moloney Murine Leukemia Virus Processes the Viral NA Ends and Accomplishes Their Integration In Vitro. Cell. 1990 Aug 24;62(4):829-37.
- T Roe, T C Reynolds, G Yu, P O Brown. Integration of murine leukemia virus DNA depends on mitosis. EMBO J. May 1993; 12(5): 2099–2108.
- D'Souza V, Dey A, Habib D, Summers MF. NMR Structure of the 101-nucleotide Core Encapsidation Signal of the Moloney Murine Leukemia Virus. J Mol Biol. 2004 Mar 19;337(2):427-42.
- Donald S Anson. The use of retroviral vectors for gene therapy-what are the risks? A review of retroviral pathogenesis and its relevance to retroviral vector-mediated gene delivery. Genet Vaccines Ther. 2004; 2: 9.
- Kay MA, Glorioso JC, Naldini L. Viral vectors for gene therapy: the art of turning infectious agents into vehicles of therapeutics. Nat Med. 2001 Jan;7(1):33-40.
- Brown PO, Bowerman B, Varmus HE, Bishop JM. Retroviral integration: Structure of the initial covalent product and its precursor, and a role for the viral IN protein. Proc Natl Acad Sci U S A. 1989 Apr;86(8):2525-9.
- Balliet JW and Bates P. Efficient Infection Mediated by Viral Receptors Incorporated into Retroviral Particles. J Virol. Jan 1998; 72(1): 671–676.