Photo: Felix Aburto
It was the first Saturday of Spring 2003, and Joe DeRisi and his postdoc David Wang were staked out at either end of the University of California, San Francisco's Genentech Hall waiting for the FedEx truck. DeRisi, had recently moved his lab to the university's new Mission Bay campus. With the lot still surrounded by chain link fencing and the loading dock closed for the weekend, DeRisi and Wang feared that the FedEx driver might get discouraged and depart without delivering their package: samples of genetic material extracted from the causative agent of SARS.
At the time, SARS was killing patients and healthcare workers in Southeast Asia. Diagnostic tests had until that point failed to identify the culprit. DeRisi thought he could help. Over the previous year, DeRisi, Wang, HHMI investigator Don Ganem, and their UCSF colleagues had engineered a microarray that sported sequences from all known...
FROM VIRUSES TO PARASITES
The discovery brought DeRisi full circle back to his roots in virology. As a graduate student, DeRisi joined Pat Brown's lab at Stanford University to study how retroviruses integrate into the host genome. But he soon found himself sidetracked by more technological challenges. The Brown lab had been working on a technique for identifying stretches of DNA passed from parent to offspring. DeRisi got caught up in figuring out how to spot the necessary DNA fragments onto glass chips. In short order, he and labmate Vishy Iyer assembled a chip containing the entire yeast genome, a feat that enabled them to do gene-expression studies on a massive scale. "In the end my thesis became about whole-genome analysis of gene expression rather than retrovirology," says DeRisi.
The work earned DeRisi a position as a fellow at UCSF, and within a year, he was offered a assistant professorship. When DeRisi was recruited, "he was barely out of swaddling clothes," notes UCSF chancellor J. Michael Bishop. "But there was a quick initiative to get him on the faculty so we wouldn't lose him," he says. "Joe sets a spectacular example for students and postdocs because of the way he does science: full throttle, daring, and socially driven."
Among DeRisi's daring, socially driven projects is a study of the biology of
They discovered that
In collaboration with Kip Guy, then at UCSF, DeRisi and his colleagues have also synthesized libraries of compounds based on the quinoline backbone structure of antimalarial drugs such as chloroquine. Using a high-throughput technique that employs flow cytometry to assess the growth of parasites in 96-well plates, the researchers have isolated a half-dozen small molecules that seem to inhibit
FIVE LITERS OF BLOOD
"I remember when Joe was really excited about growing malaria in five-liter cultures so he could do a full time course of infection," says Jim Wilhelm of the Carnegie Institution in Baltimore. "He found some source of blood at the hospital, but it turned out malaria didn't like it," says Wilhelm. "So he had to switch to bleeding people in the lab." That degree of perseverance is "typical Joe," says Wilhelm, who collaborated with DeRisi to develop a technique for immuno-precipitating cellular proteins and identifying any RNAs associated with them. "When he sees something worth doing, he does it. He doesn't let anything stand in his way. If he needs five liters of blood, he finds five liters of blood. I had no doubt that experiment was going to get done."
Last year, DeRisi, now an HHMI investigator, was named a MacArthur fellow. The award was "an amazing gift," says DeRisi, who is using a portion of the prize money to support malaria studies in Uganda. Over the summer, DeRisi sent a pair of students to work with UCFS's Phil Rosenthal to help set up a lab for culturing
The first trip was a success. "When we left, the lab was up and running," says Wilson, and they brought back a handful new strains they've succesfully adapted to culture. What's more, Wilson says the trip to Africa allowed him to encounter the disease close up. "I'd never seen a person with malaria," he says. "I'd never slept under a mosquito net." Such firsthand experience helps to remind everyone involved of their long-term goals. "I think Joe has a real commitment to trying to make the world a better place," says Jennifer Gerton of the Stowers Institute for Medical Research in Kansas City, Mo. "He's really motivated by a desire to help humanity."
The projects are technically challenging. "It has always been really fun for me to build a robot and then write the code that drives it," says DeRisi. Of course, in the end, the biology is the thing. "We're not trying to build the most efficient machine ever. We take a brute-force approach and make something that's going to work day in, day out," says DeRisi. "We have to be result-driven here, because we're going to get grants for the biology we produce, not for the elegance of the machines that we make."
At the same time, DeRisi labors to make microarray technology available to the masses. "He's like a missionary in terms of bringing genomics approaches to other people," says Wilhelm. In addition to establishing the UCSF core facility, DeRisi has run courses in Cold Spring Harbor and Santa Cruz to teach participants how to make their own arrays. The classes are "a tour de force for Joe and pretty grueling for the students," says Gerton. "But if they're motivated, I think the students can learn pretty much everything they need to know to take that technology back to wherever they hail from and get it going." For those who don't sign up for the course, DeRisi posts all the secrets of microarrays on his website, where he offers software, protocols, and the instructions for building an arrayer, including a complete list of parts and prices.
"A lot of people can't afford to spend $500 per experiment on their microarrays," says Gerton. By enabling individual labs to churn out their own arrays, she says, DeRisi encourages researchers to repeat experiments and collect data points in triplicate, an approach that makes for stronger results. All in all, says Wilhelm, "Joe really enables people around him to do a lot better science."
Although he rarely lifts a pipette these days, DeRisi still engages actively in dozens of collaborative projects. "He just can't help himself," says Gerton, who has worked with DeRisi to map the double-strand break sites that lead to meiotic recombination in yeast. "His interests are very broad and if he can think of an interesting way to attack a problem, off he goes. He must have close to 100 publications with collaborators."
"He has an insatiable curiosity," agrees Bishop. "But he also has a laser focus. No matter how many interests Joe manifests, he's sufficiently focused to be productive and to stick with something until he's got what he wants out of it."
DeRisi legendarily limitless energy reserves certainly don't hurt. "Joe is like a little pocket rocket," says Wilson. "He's got a ton of ideas and more energy than anyone I've ever known." Wang agrees. "A description I've heard many times is that Joe is like the Energizer Bunny on crack," he laughs. "I can't remember who said it first, but I think it's quite accurate."