Gene doping.

Started by onishadowolf, February 24, 2010, 05:15:38 PM

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Do you think gene doping in sports ethical?

Yes
No
Maybe
Only If all do it
Only those who aren't very able.

Sports, Gene Doping, and WADA
By: Leslie A. Pray, Ph.D. © 2008 Nature Education
Citation: Pray, L. (2008) Sports, gene doping, and WADA. Nature Education 1(1)





Gene doping is an outgrowth of gene therapy. However, instead of injecting DNA into a person's body for the purpose of restoring some function related to a damaged or missing gene, as in gene therapy, gene doping involves inserting DNA for the purpose of enhancing athletic performance. The World Anti-Doping Agency (WADA), an international organization created in 1999 to "promote, coordinate, and monitor the fight against doping in sport in all its forms," defines gene doping as the "nontherapeutic use of cells, genes, genetic elements, or modulation of gene expression, having the capacity to enhance performance" (World Anti-Doping Agency, 2008).


One of the first issues that comes up when considering whether, when, and how results from genetic studies will be exploited for gene doping purposes is whether gene doping is "right." While many people agree with WADA's position that gene doping threatens the integrity of sports competition, others think differently. For example, Julian Savulescu, professor of ethics at the University of Oxford, England, argues that "[g]enetic enhancement is not against the spirit of sport; it is the spirit of sport" (Skipper, 2004). Whether or not it is right to use DNA for enhanced athletic performance will likely be a subject of fiery debate for years to come.
The Science Behind Gene Doping

While gene doping has yet to become a reality, H. Lee Sweeney, a professor of physiology at the University of Pennsylvania School of Medicine and one of the leading researchers in the field of gene therapy, has already been inundated with requests for such doping from professional weight lifters and numerous other athletes, according to an article in Science News (Brownlee, 2004). Sweeney has garnered this attention because of his discovery of a way to potentially reverse muscle degeneration caused by diseases like Duchenne muscular dystrophy (DMD), a sex-linked genetic disorder. In patients with DMD, a critical muscle protein called dystrophin gradually becomes dysfunctional over the first few years of an affected person's life, leading to a loss of muscle fiber, an increase in fibrosis, and eventually complete loss of muscle function. Working with a mouse breed that had a mutation in the dystrophin gene and thus displayed a DMD-like phenotype (mdx mice), Sweeney and his colleagues observed that when a protein called insulin-like growth factor 1 (IGF-1) interacted with the cells on the outside of muscle fibers, it caused the cells to grow. In addition, the research team determined that inserting the gene that encodes IGF-1 into muscle cells produced the same effect.


Sweeney and his colleagues further found that when the muscle fibers of mdx mice were exposed to IGF-1, not only did fibrosis decrease as the mice aged, but muscle mass actually increased by about 40% (Barton et al., 2002). Sweeney told Science News that when the mice became the equivalent of senior citizens (which for mice is about 20 months of age), they were still as strong and fast as they had been when they were young. After these and subsequent studies, the IGF-1-endowed mice became known as "Schwarzenegger mice." While groundbreaking, Sweeney's research is still experimental, and the findings have yet to be tested on DMD patients or other humans.


Meanwhile, a group of scientists headed by Ronald Evans of the Salk Institute in La Jolla, California, demonstrated that injecting mice with the gene that encodes a fat-burning protein called PPAR-δ enabled the animals to run up to twice the distance of their wild-type littermates (Wang et al., 2004). Although genetic engineering of these so-called "marathon mice" could potentially be exploited to enhance athletic performance (in long-distance runners or swimmers, for example), Evans's reason for pursuing this line of research was to see whether it might have therapeutic value. Specifically, he wanted to test whether increasing PPAR-δ expression would transform muscle fibers in a way that might protect against obesity and type II diabetes, as previous studies had shown that many obese and type II diabetic patients have fewer type 1 muscle fibers. Evans and his team thus determined that increasing PPAR-δ expression effectively increased the number of type 1 muscle fibers in mice.


Would Gene Doping Be Safe?

More important than the ethical implications of gene doping, some experts say, is the fact that gene doping could be dangerous, and perhaps even fatal. Consider the protein erythropoietin (EPO), a hormone that plays a key role in red blood cell production. EPO is often administered (as a hormone, not via gene therapy) to patients suffering from anemia as a result of kidney failure or chemotherapy. Scientists are hopeful that they can someday develop a gene therapy method of delivering the gene for EPO instead of administering the protein itself. The hormone EPO is also used as a highly controversial performance-enhancing substance by athletes as a way to optimize oxygen delivery to muscle cells (by increasing the number of red blood cells). Like IGF-1 and PPAR-δ, the EPO gene is considered by some experts to be a potential candidate for gene doping (Azzazy et al., 2005).


But scientists still have much work to accomplish before EPO gene delivery, whether for the purpose of gene therapy or the more controversial purpose of gene doping, is considered safe. In the aforementioned Science News article, the reporter relays a story by Jim Wilson, a professor of medicine at the University of Pennsylvania and a leading researcher in the field of gene therapy. When Wilson and colleagues injected macaque monkeys with viral vectors carrying the EPO gene, the host cells ended up producing so many red blood cells that the macaques' blood initially thickened into a deadly sludge. The scientists had to draw blood at regular intervals to keep the animals alive. Over time, as the animals' immune systems kicked in, the situation reversed and the animals became severely anemic (Rivera et al., 2005).


The field of gene therapy, and by extension, gene doping, is full of unpredictable and dangerous results like this, which is why Sweeney, Evans, and other researchers who have identified DNA targets that could potentially be exploited for gene doping are the first to emphasize that the research is still at only an experimental stage. The therapies need to be proven safe in some of the larger animal models, not just mice, before they can even be tested in humans, let alone used for therapy or, as Savulescu says, "in the spirit of sport."
-The shadows connect us all-

I voted maybe... It depends on the situation, really. If it's just for enhancement, then no; sports are meant to be the result of training yourself the hard way. The whole mental aspect of a sport disappears once you start modding up the athletes. On the other hand, it could be used to help athletes with illnesses that impair them, along with helping them fight against aging if I read the article correctly...
Seek not beauty in battle. Seek not beauty in death. Consider not your own life. If you wish to protect that which must be protected, then strike when your opponent's back is turned.

No. Sport requires strength , stamina , and mental discipline. You get discipline form the hours everyday you spend training and keeping yourself in prime condition. there is no substitute.

February 25, 2010, 10:12:55 PM #3 Last Edit: February 25, 2010, 10:16:45 PM by onishadowolf
I agree, but I'm also of the same opinion as Kube.
-The shadows connect us all-

February 26, 2010, 11:27:42 AM #4 Last Edit: February 26, 2010, 11:31:52 AM by Raziel
Yes. But only if we get them a special category........ Special Olympics 2 Lol.

Us regular humans(athletes or not) aren't gonna be able to compete with geneheads. However, the technology itself has enormous potential. Further non government funded research would require money....... Money that it stands to gain as an industry within itself.

And geneboosts won't give us the mental aspect needed, Such things would be within the realm of stimulants and depressants. Neither of which are gene therapy.

Such geneboosts that would permanently alter the psyche of the person and would be very ill-advised to the point o being banned altogether. Early versions may even disable the person altogether.

And either way, You just can't fake discipline, determination, hunger, the willingness to give it yer all and then some, jesus juice......etc whatever you wanna call it. these things only manifest in someone serious about their goals.
A faker maybe better built and  stuff, but should he reach his limit.... he falters. and loses. He's got no heart. He ain't gonna win.



And who doesn't want (captain america/random racial/national equivalent) for a kid huh :?:banplea:

The damned government can't even handle health care properly, we need some cold heartless,  capitalistic money hungry corporations after this stuff to find real advancemet!!!
(sarcasm of course, but only partially.)





 

The closer you get to light, the greater your shadow becomes.
But don't be afraid. And don't forget...
You hold the mightiest weapon of all.
-Kingdom Hearts

True, But I don't know about those blue tights though.
-The shadows connect us all-

Blue tightS? No way. I'm wearing cargo pants and a utility belt.......... And an asbestos cape.
The closer you get to light, the greater your shadow becomes.
But don't be afraid. And don't forget...
You hold the mightiest weapon of all.
-Kingdom Hearts

  NO.  Hands down NO!  If someone is unable to compete due to a physical disability that they can not over come than they do not belong on the feild.  In sports no enhancement beyond what you are able to attain from your own conditioning.

  However, if it is used to produce the "Super Soldiers" to defend our country then, what the hell, Go for it.
In remembrance of Moonbaby, one of the brightest and most glorious stars to ever grace the Monstrous community.  Missed you will be, forgotten NEVER.