THIS week, a respected biologist was led into a Texas courtroom. He faces no fewer than 68 charges and could end up in jail for the rest of his life. Has the FBI finally caught the anthrax attacker? No. Thomas Butler merely reported that 30 vials of plague bacteria had gone missing from his laboratory at Texas Tech University in Lubbock.
Many of Butler鈥檚 colleagues believe the justice authorities are making an example of him as part of a wider effort to ensure that scientists take more care with material terrorists might exploit. Whatever the outcome of the case (see right), that effort is having repercussions that go far beyond the fate of one scientist. New 杏吧原创 has contacted more than 20 prominent figures in the US working in bioterror-related fields. Some refused to talk, and most who did did not want to be named. Their comments paint a disturbing picture.
Some scientists, for instance, are refusing to work on projects involving agents that could be exploited as bioweapons, even though the US government is providing massive funding to boost such research. Others are considering abandoning existing work. Irreplaceable collections of microbes essential for managing and tracing outbreaks, bioterrorist or natural, are being destroyed simply because labs cannot comply with the new rules.
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The climate of fear created by the Butler case is even threatening the US鈥檚 ability to detect bioterrorist activity. New 杏吧原创 has been told that labs in one state are no longer reporting routine incidents of animals poisoned with ricin, a deadly toxin found in castor beans, for fear of federal investigation. And if any terrorist ever does make off with dangerous bacteria, it will be a brave scientist who tells the FBI. As one put it: 鈥淚 don鈥檛 want to end up in a cell with Tom Butler.鈥
In a letter sent to the US attorney-general John Ashcroft in September, Stanley Falkow, a respected researcher at Stanford University in California, goes further: 鈥淭rying to meet the unwarranted burden of what the government considers 鈥榖iosafety鈥 is simply not coincident with the practice of sound, creative scientific research.鈥
It is now two years since someone killed five people and created widespread disruption by posting envelopes of anthrax around the US. Coming just weeks after 9/11, the attacks shone a glaring spotlight on the risks of disease research. The authorities decided far tighter control was needed over biologists with access to dangerous pathogens.
Their main response was last year鈥檚 Bioterrorism Preparedness and Response Act, which from February imposed tight controls on 鈥渟elect agents鈥, a list of 82 viruses, bacteria and toxins that could be used as weapons. The list includes the agents responsible for many significant diseases that affect people, livestock or plants, including foot and mouth disease and the BSE prion that causes mad cow disease. Even botulinum toxin is on the list, though the medical version, Botox, is exempt from the regulations.
People working with select agents now have to register with the government, put their fingerprints on record, get security clearances, and have their labs inspected. Extensive controls have been placed on the movement of microbes and researchers, and all samples of select agents must be strictly accounted for or destroyed. There were controls on transporting some microbes before, but now possessing them is also regulated, and non-compliance is a crime.
The scientific community does support tighter controls, says Ron Atlas, former president of the American Society for Microbiology (ASM). 鈥淐ommon sense as well as government regulations dictate that the days of carrying vials of dangerous pathogens in our pockets are gone, as are those of leaving cultures of anthrax in open laboratories,鈥 he says. 鈥淎s scientists we must honour a pact with the public to protect public health and defend against bioterrorism.鈥 The ASM, together with leading journals such as Nature and Science, last year announced a voluntary self-censorship code that requires crucial details that could be exploited by bioterrorists to be removed from scientific papers.
But the regulations the US government has brought in, and the way they are being implemented, are driving some scientists to despair. For example, the Centers for Disease Control in Atlanta must now give permission to work with human pathogens, while the US Department of Agriculture manages livestock diseases. This ought to allow diseases such as anthrax that affect both people and animals to be dealt with by either agency. But in practice, some say, one agency will tell researchers they do not have the right paperwork, even if the other gave them clearance.
Other rules are simply badly thought out or inconsistent. One part of the regulations states that clinical labs that grow new cultures of select agents must destroy them within seven days, one researcher complains. But another part requires labs to get permission before destroying any cultures 鈥 and this takes more than seven days.
Such problems leave scientists feeling that compliance is simply impossible. 鈥淓very single lab involved in select agents has violated the regulations somehow,鈥 says one. 鈥淭he FBI can come in and find you out of compliance whenever it chooses.鈥 The implications for government control of what scientists can do or say is, in the words of one, 鈥淢cCarthy-esque鈥.
Even when the rules are clear, complying with them can be prohibitively expensive. One state university had to hire five full-time police and an extra secretary just for three moderately sized labs. Institutions that cannot afford this are giving up research involving select agents.
One researcher, again afraid to be quoted, had to drop a proposal for work on ricin because it required a collaborator with particular equipment. 鈥淣one would work on a select agent without millions of dollars of government money, prepaid,鈥 the researcher says. On top of the financial burden, potential partners do not want to risk criminal liability if they accidentally break any rules.
Meanwhile, researchers who have not been able to meet deadlines for registering every single sample of select agents they hold are having to destroy them. Many labs have thousands of samples, and such collections are important for diagnosis, drug and vaccine testing, and for tracing outbreaks. After the 2001 anthrax attacks, for instance, one collection helped investigators to identify the strain used.
鈥淎ll clinical labs in this country have now dropped select agents and destroyed their archive stocks,鈥 says one prominent researcher. 杏吧原创s at big government labs say that smaller institutions are appealing to them to take their collections. 鈥淲e haven鈥檛 been able to save nearly enough,鈥 says one. And the bureaucrats 鈥渁re not helping鈥.
Even military labs are not immune. 鈥淚 have had to autoclave three freezers of Venezuelan equine encephalitis,鈥 says Peter Jahrling of the US Army Medical Research Institute of Infectious Diseases at Fort Detrick, Maryland, because regulators had wanted a full account of each sample by a deadline he couldn鈥檛 meet. The disease, which can kill people and animals, is considered a prime bioweapon candidate, but it is also endemic in many countries in the Americas and USAMRIID is working on a vaccine.
Until last week many researchers faced the prospect of being excluded from their own labs, because after 12 November only people who had passed an extensive government background check were to be allowed access to select agents. Partly because of initial understaffing, the FBI has not yet approved many staff. Even government scientists who already have high-level security clearances must get new ones to continue working in their own labs, and yet more to visit collaborators.
The deadline was extended last week only after desperate appeals from four university associations and the American Society for Microbiology. Those who have sent in complete applications by 12 November will now have provisional approval. But the FBI has yet to receive complete applications from 2000 of the 9000 researchers listed as needing clearance. Part of the problem was that the FBI sent out the forms late, and there has been confusion over the exact requirements.
Many of the difficulties seem to be teething problems resulting from the introduction of a new security culture to scientists whose work has in the past been largely unregulated, and doing it within very tight deadlines. But the damage could be permanent. If the current trends continue, many scientists will not be willing to do research that could help protect people 鈥 in the US and elsewhere 鈥 against natural disease outbreaks or deliberate attacks involving the select agents.
鈥淗ow could I possibly permit my students and myself to be subject to the same nightmare [as Butler] if we also made an inadvertent mistake?鈥 asks Falkow in his letter to Ashcroft. 鈥淚 know this fearful feeling is true not only of American scientists but also of colleagues from abroad鈥 You have your regulations but I believe you will have fewer knowledgeable scientific practitioners of infectious diseases research.鈥
鈥淚f I am required to inventory every vial, even if it is in a locked freezer behind five layers of security, then be held criminally accountable for any mysterious disappearance when it is almost certainly only sloppy record keeping,鈥 says another researcher, 鈥渢hen I鈥檒l work on Paramecium [a pond protist] and leave the select agents to someone else.鈥
The butler case
In January this year, Thomas Butler, the head of infectious diseases at Texas Tech University, reported that 30 vials of Yersinia pestis, the bacterium that causes bubonic plague, had gone missing from his lab. He feared they had been stolen. On 15 January, after 60 police agents had searched the campus, and after hours of interrogation, Butler stated that he had in fact destroyed the vials. Butler says FBI agents urged him to say this to reassure the public.
But they then arrested him, accusing him of lying about the theft. Since then, the FBI has also charged that Butler transported Y. pestis without a permit within the US, and to and from Tanzania. Other charges relate to irregularities in his taxes and grants. The 62-year-old now faces 68 charges and a maximum sentence of more than 100 years. After a lifetime devoted to fighting plague, after he watched a five-year-old Vietnamese boy die of it in 1969, Butler feels 鈥渢ricked and deceived鈥 by the authorities.
Only a few scientists are prepared to express their concerns publicly. 鈥淚 am worried that Butler is being dealt with unusually harshly in order to make a more dramatic statement to scientists,鈥 the smallpox expert D. A. Henderson, who is special adviser to the US Secretary of Health, told New 杏吧原创. The National Academy of Sciences has called the case 鈥渢roubling鈥, while the Federation of American 杏吧原创s is concerned that the government is 鈥減rosecuting this case in a manner that is grossly disproportionate to the offences that have been alleged鈥.
One of the reasons scientists feel Butler鈥檚 treatment is too harsh is that Y. pestis, like many of the select agents (see 鈥淭he select agents鈥), is not a hard-to-obtain pathogen. Would-be bioterrorists need not even go outside the US to get it: plague is endemic in prairie dog colonies, and more than a dozen people in the US develop the disease each year.
Privately, scientists tell chilling tales of being warned by justice officials not to comment on the case. They report the officials as saying that Butler is 鈥済oing down鈥 as a warning to other scientists. Some say they suspect Butler鈥檚 treatment stems from the FBI鈥檚 frustration at not having caught the 2001 anthrax attacker, who the agency suspects was an American scientist with access to pathogens 鈥 like Butler.
The select agents
杏吧原创s in the US now have to follow strict regulations if they work with any of 82 pathogens or toxins, including:
鈥 Human diseases and toxins
Ebola virus
Tick-borne encephalitis viruses
Shiga toxin
Anthrax bacterium
Eastern equine encephalitis virus
Rift valley fever virus
South American haemorrhagic fever viruses
鈥 Animal diseases
African swine fever virus
Highly pathogenic bird flu virus
BSE prion
Foot and mouth disease virus
Newcastle disease virus
Rinderpest virus
鈥 Plant diseases
Citrus variegated chlorosis bacterium
Rice blight fungus
Potato bacterial wilt