Helper dependent virus

A helper dependent virus also termed a gutless virus is a synthetic viral vector dependent on the assistance of a helper virus in order to replicate.[1]

Hepatitis D virus (HDV) is an example of a replication defective, helper dependent ssRNA virus because it requires Hepatitis B virus (HBV) to provide HBV surface antigen (HBsAg) for the encapsidation of its genome. The envelope proteins on the outer surface of HDV are entirely provided by HBV.

Since the genome of the gutless virus does not include genes encoding the enzymes and/or structural proteins required to replicate, it is deemed safe for use in gene therapy since an infection cannot occur except in the presence of a suitable helper virus.[2]

Well established protocols allow scientists to propagate helper dependent viruses in the lab, however, using an actual helper virus poses problems when it comes to purification of desired transgenic virus. Therefore lab methods often utilize minimal fragments of the helper DNA that can serve this purpose without creating unwanted virus. This process usually involves the introduction of three separate DNA plasmids into a eukaryotic cell line through a process called transfection. These plasmids contain either transgenic DNA, replication and capsid encoding DNA, and helper DNA. Every cell that is successfully transfected with all three DNA fragments will produce the necessary proteins to produce infective viruses. These viruses will only have transgenic DNA encapsidated and therefore once they've infected a patient's cell, they will not be capable of reproducing.[3]

Helper dependent viruses can also occur in nature without being "gutted." The term satellite virus has been given to a large group of viruses that all require presence of another virus to replicate. Many of these are plant viruses,[4] but animal viruses can be seen in the cases of dependoviruses. Within the family parvoviridae, the dependovirus genus was given a distinct classification due to their dependence on another virus. The most widely known dependovirus is adeno-associated virus(AAV) which was originally discovered as a contaminant of a sample of simian adenovirus.[5] Though AAV is considered to be dependent on adenovirus, it is able to replicate in the presence of herpesvirus as well as certain cytotoxic events such as UV irradiation or some carcinogens[6] During the course of a natural dependovirus infection, if the helper virus is not present, the dependovirus is often capable of integrating into the host genome and going into a latent phase of its life cycle—effectively waiting for the next helper virus infection.[6] For gene therapy uses, the vector is stripped of its ability to integrate. Because AAV can deliver transgenic material in a non-replicating form, it is a strong candidate for gene therapy and is currently used in about 5% of clinical trials.[7]

References

  1. Alba, R; Bosch, A; Chillon, M (2005). "Gutless adenovirus: Last-generation adenovirus for gene therapy". Gene Therapy. 12: S18–27. doi:10.1038/sj.gt.3302612. PMID 16231052.
  2. Gonçalves, Manuel AFV (2005). "Adeno-associated virus: From defective virus to effective vector". Virology Journal. 2: 43. doi:10.1186/1743-422X-2-43. PMC 1131931Freely accessible. PMID 15877812.
  3. Xiao, X; Li, J; Samulski, RJ (1998). "Production of high-titer recombinant adeno-associated virus vectors in the absence of helper adenovirus". Journal of Virology. 72 (3): 2224–32. PMC 109519Freely accessible. PMID 9499080.
  4. Knipe, David M.; Howley, Peter M. (2007). Fields Virology (5th ed.). Lippincott Williams & Wilkins. pp. 126–7.
  5. Atchison, R. W.; Casto, B. C.; Hammon, W. McD. (1965). "Adenovirus-Associated Defective Virus Particles". Science. 149 (3685): 754–6. doi:10.1126/science.149.3685.754. PMID 14325163.
  6. 1 2 Berns, KI (1990). "Parvovirus replication". Microbiological reviews. 54 (3): 316–29. PMC 372780Freely accessible. PMID 2215424.
  7. http://www.wiley.com//legacy/wileychi/genmed/clinical/[][]
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