Team:Tsinghua/Background

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(New page: == '''Background''' == === Gene Therapy === Gene therapy is defined as the introduction of genes into tissues or cells via gene transfer, with the purpose of deriving a therapeutic or pre...)
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== '''Background''' ==
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= '''Background''' =
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=== Gene Therapy ===
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== Gene Therapy ==
Gene therapy is defined as the introduction of genes into tissues or cells via gene transfer, with the purpose of deriving a therapeutic or preventative benefit from the function of these genes. It is the insertion of genes into an individual's cells and tissues to treat a disease, such as a hereditary disease in which a deleterious mutant allele is replaced with a functional one[1]. Although the technology is still in its infancy, it is one of the most promising and active research fields in medicine[1,2]. Antisense therapy is not strictly a form of gene therapy, but is a genetically-mediated therapy and is often considered together with other methods[1].
Gene therapy is defined as the introduction of genes into tissues or cells via gene transfer, with the purpose of deriving a therapeutic or preventative benefit from the function of these genes. It is the insertion of genes into an individual's cells and tissues to treat a disease, such as a hereditary disease in which a deleterious mutant allele is replaced with a functional one[1]. Although the technology is still in its infancy, it is one of the most promising and active research fields in medicine[1,2]. Antisense therapy is not strictly a form of gene therapy, but is a genetically-mediated therapy and is often considered together with other methods[1].
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=== Vectors in Gene Therapy ===
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== Vectors in Gene Therapy ==
Despite substantial progress, a number of key technical issues need to be resolved before gene therapy can be safely and effectively applied in the clinic, and an ideal gene delivery vector is one of the bottlenecks in gene therapy application[3]. Generally, vectors applied in gene therapy can be classified into viral or non-viral.
Despite substantial progress, a number of key technical issues need to be resolved before gene therapy can be safely and effectively applied in the clinic, and an ideal gene delivery vector is one of the bottlenecks in gene therapy application[3]. Generally, vectors applied in gene therapy can be classified into viral or non-viral.
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==== Viral Methods ====
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=== Viral Methods ===
All viruses bind to their hosts and introduce their genetic material into the host cell as part of their replication cycle. This genetic material contains basic 'instructions' of how to produce more copies of these viruses, hijacking the body's normal production machinery to serve the needs of the virus[1].
All viruses bind to their hosts and introduce their genetic material into the host cell as part of their replication cycle. This genetic material contains basic 'instructions' of how to produce more copies of these viruses, hijacking the body's normal production machinery to serve the needs of the virus[1].
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Retroviruses.
Retroviruses.
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==== Non-Viral Methods ====
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=== Non-Viral Methods ===
Non-viral methods present certain advantages over viral methods, with simple large scale production and low host immunogenicity being just two. Previously, low levels of transfection and expression of the gene held non-viral methods at a disadvantage; however, recent advances in vector technology have yielded molecules and techniques with transfection efficiencies similar to those of viruses[1].
Non-viral methods present certain advantages over viral methods, with simple large scale production and low host immunogenicity being just two. Previously, low levels of transfection and expression of the gene held non-viral methods at a disadvantage; however, recent advances in vector technology have yielded molecules and techniques with transfection efficiencies similar to those of viruses[1].
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Lipoplexes and polyplexes.
Lipoplexes and polyplexes.
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=== Frontiers in Gene Therapy Research ===
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=== Frontiers in Gene Therapy Research ==
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==== Induced Pluripotent Stem Cell (iPS) and Gene Delivery System====
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=== Induced Pluripotent Stem Cell (iPS) and Gene Delivery System===
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==== Therapeutic microRNA Delivery====
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=== Therapeutic microRNA Delivery===
Therapeutic strategies based on modulation of microRNA (miRNA) activity hold great promise due to the ability of these small RNAs to potently influence cellular behavior[4].
Therapeutic strategies based on modulation of microRNA (miRNA) activity hold great promise due to the ability of these small RNAs to potently influence cellular behavior[4].
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==== Cancer Gene Therapy====
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=== Cancer Gene Therapy===
As a primary threat of human health, cancer causes about 13% of all human deaths[5]. According to the American Cancer Society, 7.6 million people died from cancer in the world during 2007[6]. Current treatments often have far reaching negative side effects[7]. The systemic toxicity of chemotherapy regimens still often result in acute and delayed nausea, mouth ulcerations and mild cognitive impairments[8].
As a primary threat of human health, cancer causes about 13% of all human deaths[5]. According to the American Cancer Society, 7.6 million people died from cancer in the world during 2007[6]. Current treatments often have far reaching negative side effects[7]. The systemic toxicity of chemotherapy regimens still often result in acute and delayed nausea, mouth ulcerations and mild cognitive impairments[8].
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==== References====
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=== References===
[1] http://en.wikipedia.org/wiki/Gene_therapy
[1] http://en.wikipedia.org/wiki/Gene_therapy
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[8] Chemotherapy and you: A guide to self-help during cancer treatment. National Institutes of Health Web site. Available at: http://www.cancer.gov/PDF/b21d0a74-b477-41ec-bdc0-a60bbe527786/chemoandyou.pdf. Accessed July 31, 2006.
[8] Chemotherapy and you: A guide to self-help during cancer treatment. National Institutes of Health Web site. Available at: http://www.cancer.gov/PDF/b21d0a74-b477-41ec-bdc0-a60bbe527786/chemoandyou.pdf. Accessed July 31, 2006.
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===Diagram Ref===
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http://images.google.cn/imglanding?imgurl=http://www.acceleratingfuture.com/michael/blog/images/Gene_therapy.jpg&imgrefurl=http://www.acceleratingfuture.com/michael/blog/%3Fp%3D455&usg=__jvPXcCSXLCqT6xsyFwq5NQfjJE0%3D&h=371&w=495&sz=56&hl=zh-CN&um=1&tbnid=FfNmLhJhG4h7NM:&tbnh=97&tbnw=130&prev=/images%3Fq%3Dgene%2Btherapy%26hl%3Dzh-CN%26sa%3DN%26um%3D1%26newwindow%3D1&q=gene+therapy&sa=N&um=1&newwindow=1&start=0#start=0

Revision as of 15:29, 14 August 2009

Contents

Background

Gene Therapy

Gene therapy is defined as the introduction of genes into tissues or cells via gene transfer, with the purpose of deriving a therapeutic or preventative benefit from the function of these genes. It is the insertion of genes into an individual's cells and tissues to treat a disease, such as a hereditary disease in which a deleterious mutant allele is replaced with a functional one[1]. Although the technology is still in its infancy, it is one of the most promising and active research fields in medicine[1,2]. Antisense therapy is not strictly a form of gene therapy, but is a genetically-mediated therapy and is often considered together with other methods[1].

Vectors in Gene Therapy

Despite substantial progress, a number of key technical issues need to be resolved before gene therapy can be safely and effectively applied in the clinic, and an ideal gene delivery vector is one of the bottlenecks in gene therapy application[3]. Generally, vectors applied in gene therapy can be classified into viral or non-viral.

Viral Methods

All viruses bind to their hosts and introduce their genetic material into the host cell as part of their replication cycle. This genetic material contains basic 'instructions' of how to produce more copies of these viruses, hijacking the body's normal production machinery to serve the needs of the virus[1].

Adenovirus.

Adeno-associated virus.

Retroviruses.

Non-Viral Methods

Non-viral methods present certain advantages over viral methods, with simple large scale production and low host immunogenicity being just two. Previously, low levels of transfection and expression of the gene held non-viral methods at a disadvantage; however, recent advances in vector technology have yielded molecules and techniques with transfection efficiencies similar to those of viruses[1].

Naked DNA.

Oligonucleotides.

Lipoplexes and polyplexes.

= Frontiers in Gene Therapy Research

Induced Pluripotent Stem Cell (iPS) and Gene Delivery System

Therapeutic microRNA Delivery

Therapeutic strategies based on modulation of microRNA (miRNA) activity hold great promise due to the ability of these small RNAs to potently influence cellular behavior[4].

Cancer Gene Therapy

As a primary threat of human health, cancer causes about 13% of all human deaths[5]. According to the American Cancer Society, 7.6 million people died from cancer in the world during 2007[6]. Current treatments often have far reaching negative side effects[7]. The systemic toxicity of chemotherapy regimens still often result in acute and delayed nausea, mouth ulcerations and mild cognitive impairments[8].

References

[1] http://en.wikipedia.org/wiki/Gene_therapy

[2] SM Selkirk. Gene therapy in clinical medicine. Postgraduate Medical Journal.2004;80:560-570; doi:10.1136/pgmj.2003.017764

[3] RC Mulligan. The basic science of gene therapy. Science, 1993, Vol 260, Issue 5110, 926-932.

[4] Janaiah Kota, Raghu R. Chivukula, Kathryn A. O’Donnell, Erik A. Wentzel, Chrystal L. Montgomery, Hun-Way Hwang, Tsung-Cheng Chang, Perumal Vivekanandan, Michael Torbenson, K. Reed Clark, Jerry R. Mendell,and Joshua T. Mendell. Therapeutic microRNA Delivery Suppresses Tumorigenesis in a Murine Liver Cancer Model. Cell. 2009, 137. 1005–1017.

[5] WHO (February 2006). "Cancer". World Health Organization. http://www.who.int/mediacentre/factsheets/fs297/en/. Retrieved on 2007-06-25.

[6] American Cancer Society (December 2007). "Report sees 7.6 million global 2007 cancer deaths". Reuters. http://www.reuters.com/article/healthNews/idUSN1633064920071217. Retrieved on 2008-08-07.

[7] Peter Sinnaeve, Olivier Varenne, Désiré Collen, and Stefan Janssens. Gene therapy in the cardiovascular system: an update. Cardiovasc Res, Dec 1999; 44: 498 - 506.

[8] Chemotherapy and you: A guide to self-help during cancer treatment. National Institutes of Health Web site. Available at: http://www.cancer.gov/PDF/b21d0a74-b477-41ec-bdc0-a60bbe527786/chemoandyou.pdf. Accessed July 31, 2006.

Diagram Ref

http://images.google.cn/imglanding?imgurl=http://www.acceleratingfuture.com/michael/blog/images/Gene_therapy.jpg&imgrefurl=http://www.acceleratingfuture.com/michael/blog/%3Fp%3D455&usg=__jvPXcCSXLCqT6xsyFwq5NQfjJE0%3D&h=371&w=495&sz=56&hl=zh-CN&um=1&tbnid=FfNmLhJhG4h7NM:&tbnh=97&tbnw=130&prev=/images%3Fq%3Dgene%2Btherapy%26hl%3Dzh-CN%26sa%3DN%26um%3D1%26newwindow%3D1&q=gene+therapy&sa=N&um=1&newwindow=1&start=0#start=0