Gene Therapy – Genetics Generation

Posted: June 27, 2018 at 4:45 am

What is Gene Therapy?

Gene therapy is a technique used to correct defective genes genes that are responsible for disease development. Specifically, according to the American Society of Gene and Cell Therapy-

Gene therapy is defined as a set of strategies that modify the expressionof an individuals genes or that correct abnormal genes. Each strategyinvolves the administration of a specific DNA (or RNA).

Gene therapy is the manipulation of the expression of specific genes in a persons body, in hopes of treating a disease or disorder. Gene therapy is still considered experimental and only available via clinical trial. Although many successful trials have been documented (see Interesting Links below), gene therapy has a checkered history. In some gene therapy trials, there were cases of leukemia as an unintended side-effect, and even cases of death (see link on Jesse Gelsinger below).

Image courtesy of Wikimedia Commons

How Does Gene Therapy Work?

Although there are several strategies for gene therapy, the most commonly used method involves inserting a therapeutic gene into the genome to replace the abnormal or disease-causing gene. The gene that is inserted is delivered into a target cell via a vector. Usually, this vector is a virus, although non-viral vectors are in development. Viruses are a good choice for introducing genes into a cell because they typically operate by transferring their own genetic material while replicating themselves. Once target cells are infected with the viral vector, the vector releases its therapeutic gene which then incorporates into the cells DNA. The goal is that the cell will start using the new gene to make functional, healthy proteins.

There are three main strategies for using gene therapy to restore the target cells or target tissues to a normal, healthy state.

1. Insert the functional version of a gene in hopes of replacing the abnormal form. This is used to treat single-gene disorders like hemophilia A and B and cystic fibrosis.

2. Insert a gene that encodes for a therapeutic protein that treats a disease. This is used to treat acquired diseases likeinfection or ischemic heart disease.

3. Use gene transfer to down-regulate gene expression in hopes of decreasing the activity of a harmful gene.

Current Areas of Research

Although gene therapy is still experimental, many diseases have been targets for gene therapy in clinical trials. Some of these trials have produced promising results. Diseases that may be treated successfully in the future with gene therapy include (but are not limited to):* Anemias* Cardiovascular diseases* Cystic Fibrosis* Diabetes* Diseases of the bones and joints* Eye disease and Blindness* Gauschers Disease* Hemophilia* Huntingtons Disease* Lysosomal storage diseases* Muscular Dystrophy* Sickle cell disorder

The main challenges facing gene therapy are the identification of disease causing genes, the targeted delivery of the therapeutic gene specifically to the affected tissues, and the prevention of side effects (such as an immune response) in the patient.

Gene Therapy for Enhancement Purposes

If gene therapy becomes routine medical practice, then it is reasonable to believe that some will seek it out for enhancement purposes. For example, a gene therapy designed to help patients with Alzheimers disease may be appealing to a normal individual hoping to boost memory. One potential area of enhancement that has been discussed is gene doping in sports. Gene doping is defined by the World Anti-Doping Agency (WADA) as the non-therapeutic use of genes, genetic elements and/or cells that have the capacity to enhance athletic performance. The purpose of gene doping is toenhancea given gene rather thancorrecta faulty one. Potential targets of gene doping include:

* Erythropoietin (EPO) for increased production of red blood cells* Insulin-like Growth Factor-1 gene for increased muscle mass* Myostatin for increased muscle mass* Vascular Endothelial Growth Factor (VEGF) for an increase in blood flow

This form of doping would be hard to detect because the doping substances are produced directly in an individuals own cells after these genes with performance-enhancing effects have been expressed. Whether or not to use gene therapy in the future for enhancement purposes, and how to regulate it, will require a complex discussion of ethics in which there will likely be many differing opinions.

Interesting Links*The American Society of Gene and Cell Therapy* National Geographic articleon gene doping* Science Daily article onrecent gene therapy news* New York Times article on the death of Jesse Gelsinger* Scientific American article on treating blindness with gene therapy

CLICK HERE to read our case study involving ethical issues associated with gene therapy

REFERENCES

Gene Therapy and Cell Therapy Defined. American Society of Gene and Cell Therapy, n.d. Web. 04 Nov. 2012. <http://www.asgct.org/general-public/educational-resources/gene-therapyand-cell-therapy-defined>.

Gene Therapy..Human Genome Project Information, n.d. We. 04 Nov. 2012. <http://www.ornl.gov/sci/techresources/Human_Genome/medicine/genetherapy.shtml>

Pawliuk R et al. Correction of sickle cell disease in transgenic mouse models by gene therapy. Science. 2001; 294:2368-2371.

Unal M, Unal DO. Gene doping in sports. Sports Medicine. 2004; 34:357-362.

Wells DJ. Gene doping: the hype and the reality. British Journal of Pharmacology. 2008 January; 154: 623-631.

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Gene Therapy - Genetics Generation

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