Even as American federal health officials announced plans to speed development of an Ebola vaccine, scientists who study the virus warned that the task would be arduous and that success was hardly guaranteed.
The Ebola virus is “a survivor,” said John Dye, chief of the viral immunology branch at the United States Army Medical Research Institute of Infectious Diseases. “It does what it can to avoid the human immune system.”
The government plans to fast-track development of a vaccine shown to protect macaque monkeys, aiming to test it in humans as early as next month.
If the vaccine proves effective, it may be given to health care workers and others at high risk for infection sometime in 2015, said Dr. Anthony S. Fauci, the head of the National Institute of Allergy and Infectious Diseases.
But the development effort depends on several contingencies: fast regulatory approval of the trial, the first of its type in healthy humans; results proving the vaccine is safe and provokes an immune response; and, perhaps most crucial, the interest and investment dollars of the pharmaceutical industry.
Assuming the necessary Food and Drug Administration approvals are obtained, Dr. Fauci said, about 20 volunteers will receive the experimental vaccine beginning in mid-September.
“You’ve got to be really careful,” he said. “This is the first time this will be put in a human.”
Some scientists have called the fast-track approach aggressive and optimistic, warning that human trials inevitably encounter stumbling blocks, including adverse reactions, and that it often takes many recalibrations to figure out the optimal dosages.
Researchers have been studying the Ebola virus for decades, and vaccine efforts have begun to bear fruit with the development of several new strategies for priming the immune system to recognize and attack the virus after exposure.
But Ebola is strangely elusive, raging through populations like wildfire before disappearing. Unlike viruses that attack only the respiratory system or only the gastrointestinal system, Ebola attacks almost every cell in the human body.
And unlike H.I.V., Ebola does not continue to be transmitted, because most people who have it die soon after they are infected.
Since it was first identified nearly 40 years ago, Ebola has infected fewer than 5,000 and killed fewer than 3,000 in Africa, home to 1.1 billion people. By contrast, more than 35 million people worldwide are infected with H.I.V., and close to 39 million have died of its complications.
Development of an Ebola vaccine should not be as challenging as developing an H.I.V. vaccine, scientists say. Yet the unpredictable and sporadic nature of this infection has made an Ebola vaccine an unattractive goal for drug makers.
“It’s not really a good target for a pharmaceutical company,” said Kartik Chandran, an associate professor of microbiology and immunology at Albert Einstein College of Medicine in New York who researches Ebola. “It’s not clear you could even earn back your investment.”
Even if an effective vaccine were developed, it is unclear who should receive it.
“Ebola is like lightning strikes,” Dr. Dye said. “How would you predict what area, what village, what country to vaccinate? Is it realistic to think we could vaccinate the whole continent of Africa?”
The vaccine to be tested in humans relies on a benign virus that carries two proteins from the surface of the Ebola virus. The proteins help the virus penetrate human cells.
If successful, the immune system will be trained to recognize the proteins and to mount a strong response should it encounter the virus.
“The immune system says, ‘Hey, we’ve seen this before.’ The plans have been leaked,” Dr. Chandran said.
The initial human trial is intended to evaluate the safety of the vaccine and to see whether it induces an immune response similar to the one produced in the monkeys.
The immunized animals were deliberately exposed to the Ebola virus and survived. But human volunteers will not be exposed to the virus under any circumstances, Dr. Fauci said.
That means the protective value of the vaccine in the real world may not be known for many years, several scientists noted.
“The monkey models that we use are the closest approximation to a human. However, we are different from monkeys, so we don’t know exactly how it would work,” Dr. Dye said.
There are other unanswered questions, he noted. What doses should be used? How long would the protection last? Would people need booster shots?
Given the sporadic nature of Ebola outbreaks, some experts believe a vaccine is not the answer. Instead, they say, it may be more pragmatic to focus on drugs that can be administered soon after people are exposed.
One such therapy relies on antibodies drawn from monkeys that survived infections with the Ebola and Marburg viruses in the laboratory. In subsequent trials, other monkeys were treated with the antibodies two days after exposure to the viruses and survived.
Cocktails of antibodies from mice injected with an Ebola protein have also protected monkeys.
Efforts to develop vaccines and treatments to counter the Ebola virus have been underway for more than a decade, but recent international alarm has infused new urgency into the research.
“The threat that this will go from one country to another has galvanized attention and a realization that these bizarre exotic diseases are real,” Dr. Fauci said. “This is a public health imperative.”