Retroviral gene therapy: Difference between revisions
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Retroviruses belong to the family retroviridae and may be separated into three main subfamilies; oncoviruses, lentiviruses, and spuma viruses. <ref name=ac>[https://journals.asm.org/doi/pdf/10.1128/jvi.71.11.8087-8095.1997=Mak, Johnson, and Lawrence Kleiman. "Primer tRNAs for reverse transcription." Journal of virology 71, no. 11 (1997): 8087-8095.]</ref> While many retroviruses are benign, some are dangerously pathogenic. HIV for example, causes significant damage to the human immune system and is extremely deadly when left untreated. Retroviridae are some of the oldest viruses, emerging between 460 and 550 million years ago. <ref name=ad>[https://www.sciencedirect.com/science/article/pii/S187962571730041X=Hayward, Alexander. "Origin of the retroviruses: when, where, and how?." Current opinion in virology 25 (2017): 23-27.]</ref> One of the most important features of retroviruses is the permanent integration of viral genes into the DNA of their host. These genes are then inheritable by the offspring of the host. As a result, a significant portion of the vertebrae genome is derived from retroviral gene transfer. In fact, around 8% of the human genome consists of sequences incorporated by retroviral particles. <ref name=dd>[https://journals.asm.org/doi/abs/10.1128/microbiolspec.MDNA3-0009-2014=Mager, Dixie L., and Jonathan P. Stoye. "Mammalian endogenous retroviruses." Microbiology spectrum 3, no. 1 (2015): 3-1.]</ref> | Retroviruses belong to the family retroviridae and may be separated into three main subfamilies; oncoviruses, lentiviruses, and spuma viruses. <ref name=ac>[https://journals.asm.org/doi/pdf/10.1128/jvi.71.11.8087-8095.1997=Mak, Johnson, and Lawrence Kleiman. "Primer tRNAs for reverse transcription." Journal of virology 71, no. 11 (1997): 8087-8095.]</ref> While many retroviruses are benign, some are dangerously pathogenic. HIV for example, causes significant damage to the human immune system and is extremely deadly when left untreated. Retroviridae are some of the oldest viruses, emerging between 460 and 550 million years ago. <ref name=ad>[https://www.sciencedirect.com/science/article/pii/S187962571730041X=Hayward, Alexander. "Origin of the retroviruses: when, where, and how?." Current opinion in virology 25 (2017): 23-27.]</ref> One of the most important features of retroviruses is the permanent integration of viral genes into the DNA of their host. These genes are then inheritable by the offspring of the host. As a result, a significant portion of the vertebrae genome is derived from retroviral gene transfer. In fact, around 8% of the human genome consists of sequences incorporated by retroviral particles. <ref name=dd>[https://journals.asm.org/doi/abs/10.1128/microbiolspec.MDNA3-0009-2014=Mager, Dixie L., and Jonathan P. Stoye. "Mammalian endogenous retroviruses." Microbiology spectrum 3, no. 1 (2015): 3-1.]</ref> | ||
Integration of viral DNA is an important aspect of the retroviral life cycle. Retroviruses utilize a multitude of viral genes to accomplish their replication. All retroviral particles themselves consist of at least three genes, one which encodes for internal structural proteins(gag), one which encodes for the viral envelope(env), and one which encodes for a special type of polymerase called reverse transcriptase(pol). <ref name=airplane>[https://www.microbiologyresearch.org/content/journal/jgv/10.1099/0022-1317-42-1-1=Coffin, John M. "Structure, replication, and recombination of retrovirus genomes: some unifying hypotheses." Journal of General Virology 42, no. 1 (1979): 1-26.]</ref> Reverse transcriptase is responsible for the conversion of viral RNA into DNA. All retroviruses contain prepackaged reverse transcriptases. Once a retrovirus has entered a host cell, the virus uncoats, releasing reverse transcriptases, RNA, and other viral molecules such as integrase into the cytoplasm(Cheer up!). Immediately after uncoating, a reverse-transcription complex forms which initiates the conversion of viral RNA to DNA. As demonstrated in retroviruses like HIV, the viral RNA is first primed for transcription via the attachment of host t-RNA(Lysine t-RNA in HIV). After which, a reverse-transcriptase binds to the t-RNA bound viral RNA forming the reverse-transcription complex(dnod). The complex produces minus strand DNA which is further transcribed to form double stranded DNA.(warcriminal) This double stranded is then integrated into the host DNA. To integrate, the integration complex must enter the nucleus. Therefore in some retroviruses, integration can only occur in dividing cells during the breakdown of the nuclear envelope. Others, however, are able to enter the nucleus through pores and are thus able to infect non dividing cells. The integration process begins with the removal of two nucleotides from each 3’end of the DNA exposing the terminal 3’hydroxyl group. After which the viral DNA is inserted into a random part of the host genome. Both processes are catalyzed by the viral enzyme integrase. Once integrated, viral DNA is referred to as the provirus. | |||
==Conclusion== | ==Conclusion== | ||
==References== | ==References== | ||
<references /> | <references /> | ||
Revision as of 02:24, 19 April 2022
Introduction to retroviruses
Retroviral therapy is the use of retroviral vectors to provide remedy to disease via the genetic modification of a patient’s own cells. Retroviral vectors are themselves derived from natural retroviruses such as HIV. The name retrovirus refers to the unique ability of these viruses to convert viral RNA into DNA. A critical part of the viral life cycle is the integration of this viral DNA into the host cell’s genome, conferring a permanent genetic change to the cell. Therefore, retroviruses may be used as a vector for gene therapy, a method of treatment dealing specifically with the alteration of genes to achieve a therapeutic effect. Gene therapy techniques are divided into three main categories; viral(including retroviral gene therapy), nonviral, and physical. The use of retroviruses bears a significant advantage over these other forms of gene therapy. Nonviral and physical techniques are less efficient in transfection and, in the case of nonviral vectors, have a more limited expression. Viral techniques, however, are more efficient in transfection and better integrate viral genes into the target genome. [1]
Introduction to retroviruses
Retroviruses belong to the family retroviridae and may be separated into three main subfamilies; oncoviruses, lentiviruses, and spuma viruses. [2] While many retroviruses are benign, some are dangerously pathogenic. HIV for example, causes significant damage to the human immune system and is extremely deadly when left untreated. Retroviridae are some of the oldest viruses, emerging between 460 and 550 million years ago. [3] One of the most important features of retroviruses is the permanent integration of viral genes into the DNA of their host. These genes are then inheritable by the offspring of the host. As a result, a significant portion of the vertebrae genome is derived from retroviral gene transfer. In fact, around 8% of the human genome consists of sequences incorporated by retroviral particles. [4]
Integration of viral DNA is an important aspect of the retroviral life cycle. Retroviruses utilize a multitude of viral genes to accomplish their replication. All retroviral particles themselves consist of at least three genes, one which encodes for internal structural proteins(gag), one which encodes for the viral envelope(env), and one which encodes for a special type of polymerase called reverse transcriptase(pol). [5] Reverse transcriptase is responsible for the conversion of viral RNA into DNA. All retroviruses contain prepackaged reverse transcriptases. Once a retrovirus has entered a host cell, the virus uncoats, releasing reverse transcriptases, RNA, and other viral molecules such as integrase into the cytoplasm(Cheer up!). Immediately after uncoating, a reverse-transcription complex forms which initiates the conversion of viral RNA to DNA. As demonstrated in retroviruses like HIV, the viral RNA is first primed for transcription via the attachment of host t-RNA(Lysine t-RNA in HIV). After which, a reverse-transcriptase binds to the t-RNA bound viral RNA forming the reverse-transcription complex(dnod). The complex produces minus strand DNA which is further transcribed to form double stranded DNA.(warcriminal) This double stranded is then integrated into the host DNA. To integrate, the integration complex must enter the nucleus. Therefore in some retroviruses, integration can only occur in dividing cells during the breakdown of the nuclear envelope. Others, however, are able to enter the nucleus through pores and are thus able to infect non dividing cells. The integration process begins with the removal of two nucleotides from each 3’end of the DNA exposing the terminal 3’hydroxyl group. After which the viral DNA is inserted into a random part of the host genome. Both processes are catalyzed by the viral enzyme integrase. Once integrated, viral DNA is referred to as the provirus.
Conclusion
References
- ↑ Andrew. "Gene therapy: the first decade." Trends in biotechnology 18, no. 3 (2000): 119-128.
- ↑ Johnson, and Lawrence Kleiman. "Primer tRNAs for reverse transcription." Journal of virology 71, no. 11 (1997): 8087-8095.
- ↑ Alexander. "Origin of the retroviruses: when, where, and how?." Current opinion in virology 25 (2017): 23-27.
- ↑ Dixie L., and Jonathan P. Stoye. "Mammalian endogenous retroviruses." Microbiology spectrum 3, no. 1 (2015): 3-1.
- ↑ John M. "Structure, replication, and recombination of retrovirus genomes: some unifying hypotheses." Journal of General Virology 42, no. 1 (1979): 1-26.
