"Corn is the world's worst organism for this," says Norman Ellstrand, a plant geneticist at the University of California at Riverdale and director of the Biology Impacts Center.
"When I heard about this, my first thoughts were, 'What were they thinking?'"
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Fear of Pharming -- Controversy swirls at the crossroads of agriculture and medicine
September 20, 2004
Technology at Scientific American.com:
Farming, one of the world's oldest practices has suddenly found itself entangled with modern medicine. Imagine this: at your child's appointment for a routine vaccination, the doctor proffers a banana genetically engineered to contain the vaccine and says, "Have her eat this and call me in the morning." Though still far-fetched, the scenario is getting closer to reality, with the first batch of plant-made medicines--created by genetically modifying crops such as corn, soy, canola and even fruits such as tomatoes and bananas to produce disease-fighting drugs and vaccines--now in early clinical testing
Splicing foreign genes into plants is nothing new -- biologists have been doing it for about 25 years. Using the technology to produce protein-based medicine could revolutionize the drug industry, proponents say. Plants are inherently safer than current methods of using animal cell cultures, which carry a risk of spreading animal pathogens; plants also provide a much cheaper means of production. But fears that these "pharma crops" will contaminate the food supply are casting shadows on the promise of the technology.
The problem is that containing genes from GM plants seems to be harder than scientists expected. Recent data suggest that bioengineered genes spread more widely than previously thought. A pilot study released in February by the Union of Concerned Scientists (USC) found that more than half of native species of corn, soybean and canola tested contained low levels of DNA from strains engineered to confer resistance against herbicides. An analysis published in March established that genetically engineered corn had found its way into Mexico despite that country's six-year-old ban on growing GM varieties of the crop. And a major review of biologically modified organisms conducted last year by the National Academies of Science stressed the need to develop better confinement techniques. These findings and others illustrate the reality that experts are starting to acknowledge: the way things are going, maintaining zero levels of contamination from GM plants may be impossible.
Leaks of pharma crops have occurred as well. Two years ago, USDA inspectors found experimental corn plants containing a pig vaccine growing in nearby conventional fields in two separate incidents in Nebraska and Iowa. ProdiGene, the Texas biotech company responsible for the mishaps, was heavily fined for violating its permit and ordered to destroy 500,000 bushels of soybeans and 155 acres of corn plants. But perhaps more importantly, the leak shook the public's confidence in the technology. So far, no one has shown that current GM crops carry any health risks. But pharma crops, the new generation of GM plants, raise the safety stakes: the proteins spliced into these plants are specifically chosen to target physiological function.
The USDA Animal and Plant Health Inspection Service (APHIS), which oversees crops, responded to the ProdiGene incident by revising its regulations for growing pharma crops. Companies must now use designated equipment for planting and harvesting, provide better crop containment training for growers, and undergo at least five inspections a year. The new rules also require that pharmaceutical corn be grown at least one mile away from any other fields and planted at least 28 days before or after surrounding corn crops are planted. Lisa Dry, spokeswoman for the Biotechnology Industry Organization (BIO), says the new rules make drug pharming so distinct from producing commodities crops that future contamination is preventable. And industry, keen to avoid any further negative publicity, takes contamination very seriously. In fact, according to Neil Johnson, regulatory programs director at APHIS's Biotechnology Regulatory Services, many if not most companies running field tests for pharma crops currently operate under tighter restrictions than government regulations demand.
But even with stringent compliance by industry, the science of gene flow could flout APHIS's rules. Corn in particular, which accounts for about two thirds of pharmaceutical crops being tested, has a strong tendency to cross-pollinate. "Corn is the world's worst organism for this," says Norman Ellstrand, a plant geneticist at the University of California at Riverdale and director of the Biology Impacts Center. "When I heard about this, my first thoughts were, 'What were they thinking?'" Corn pollen is viable for only a few days, and the 28-day segregation requirement provides a good deal of additional protection against contamination. But the problem, Ellstrand observes, is that there is little actual data on how far genes can travel.
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