I can’t do that anymore. What happened yesterday and what happened in Oregon are now so strongly bonded that it feels like Eugene is located right across the Hudson. A reporter named Mike Dermott wrote a huge piece about Oregon last week. I never bothered to read it before now. But I’ve read it a dozen times in the past couple of hours. I can nearly recite it from memory. Copied from
The Man Who Conquered Death
By Mike Dermott
Graham Otto never set out to conquer death. He was just hoping to help out the redheads of the world.
“I’m a redhead,” he noted in his private journal, to which I was granted exclusive access by the Otto family. “I’ve yet to meet a redheaded guy who enjoys being a redhead.” The name of the gene is MCR1. It’s located on chromosome 16. And according to the complete map of the human genome, it’s the gene that causes red hair (along with a rare condition called brittle cornea syndrome). Working with a team of fellow geneticists, Otto targeted this gene in hopes of finding a way to color hair through gene therapy. “It wasn’t the most noble of genetic experiments,” he wrote. “It was the sort of thing a wealthy university like U. Oregon does from time to time, when it feels like playing around.”
“He was excited about the potential business aspect of it. We all were,” recalls his wife, Sarah. “Frankly, I was just thrilled at the prospect of never having to pay three hundred dollars for highlights ever again.”
He didn’t fit the traditional scientist mold. Otto had attended Oregon on a partial scholarship for track and placed as high as eighth in the two-mile event at the 2000 Prefontaine Classic. He was an outgoing man, who always preferred company while working in the lab and who was always able to talk about his work in ways that laymen found not only accessible but downright fascinating.
“I think that’s what made him such a great teacher,” says UO president Raymond Lack. “He was passionate about his work but not to the point where he became insular. You never felt like he was talking over your head about any of this stuff. He made it sound interesting, even entertaining. And trust me, that’s not a commonplace trait among his peers. His communication skills were a rare gift for anyone, in any profession.”
In terms of changing hair color through gene therapy, Otto was a miserable failure. The problem wasn’t extracting the redhead protein from the gene. That proved easy for Otto and his self-described team of “Hair Bears.” The problem was replacing the color. “If you take away a person’s genetically predisposed color, you essentially give them colorless hair—albino hair,” he wrote. “You have to eliminate that protein in the gene
and
you have to find a way to add the color of your preference, and that’s where the engineering becomes close to a technical impossibility.” Otto experimented with altering proteins found elsewhere in the DNA helix of fruit flies (who can have red eyes that are triggered by the same gene), trying to activate a different color. “We tried blue. We tried brown. We tried green. Nothing worked.”
Exasperated one night in the lab, Otto became careless. In the midst of deadening the red protein in that day’s batch of flies, he removed an extra protein from the gene as well. “I knew exactly what I had done,” he wrote. “But it was late, and I didn’t feel like starting over. Every good scientist knows that if you contaminate the original sample, you toss it. But I didn’t. I figured it wouldn’t make a difference in the end, so I went ahead and injected the vector. It was pure sloppiness.” When Otto returned the following morning, nothing unusual had occurred. He tried to introduce a new color protein into the flies’ DNA, but it again failed. He placed the batch of flies aside and began taking on a new group of test subjects.
But then something odd happened to that tainted sample of flies. “They wouldn’t die. A fruit fly usually lives for less than two months. And even then, within twenty-four hours or so, you begin seeing a handful of them drop. But none of the flies I injected with the vector dropped. Ever. They just kept flying around.”
Up until Otto’s serendipitous mistake, it was assumed that biological aging was controlled by hundreds, if not thousands, of separate genetic proteins found in the body—proteins that worked in concert to determine the rate of aging across various parts of an individual. “We always assumed that a thousand different internal mechanisms and external factors worked together to trigger the aging process,” says Dr. Phillip Frank, head of genetics at the National Institutes of Health. “When you think about it, you begin aging from the second you’re born. Our studies showed that specific proteins in your body activated all the different physiological processes and free radicals that go into both growing up and growing old. There was no master switch.”
Until Graham Otto came around.
The tainted fruit flies carried on living for weeks and weeks, with an apparently limitless supply of energy. The only dead fruit flies Otto found in the container were their offspring (the altered genes, Otto discovered, weren’t passed on), the offspring of their offspring, and the offspring of their offspring’s offspring. The original flies remained alive and fluttering about indefinitely. Otto acted quickly, retracing his footsteps from that late night in the lab, finding the supposedly unimportant protein he had mistakenly altered, and replicating the experiment again, without altering the original protein in the gene. Again, the flies had a seemingly indefinite lifespan.
The supposedly innocuous portion of the gene Otto had messed with turned out to be much more important than he had ever envisioned. He rushed to form his own independent biotech firm and called a lawyer to draft a patent for the protein. “Normally, this is something you do over the course of years,” he told Lack in an e-mail. “But we’re doing it in a week, because if we can replicate it across species, maybe there’s something there.” And replicate it he did, across mice, rats, guinea pigs, and others, including his own aging golden retriever, Buggle. In all instances, the altered animals appeared ageless when compared to their respective control groups, never growing old past the day the vector was introduced into their system. And all of them remain alive and well today, in tourist displays set up by the university—except for Buggle, who remains comfortably in the Otto household.
Despite his extroverted nature, Otto wasn’t known as a cocky, presumptuous man. The only careless thing he did in his life was to mistakenly alter the wrong gene in those fruit flies. So when he published his findings, he insisted only on reporting what he had found, and didn’t speculate on the potentially enormous worldwide impact of his research. Nevertheless, many in his field declared it junk science. “It just seemed like too easy of an answer,” says Dr. Frank. Still, while many questioned Otto’s findings, they didn’t hesitate to recreate his experiments. And they soon found that his discovery was everything he said it was. Far more than that, actually. “He understated the results because he didn’t want to sound like some kook. He refused to call it a cure for aging,” says Sarah Otto. “But that’s what it was, and the follow-up research proved it.”
To see if the same gene therapy worked in humans, Otto solicited an unlikely test group: patients with early-onset Alzheimer’s disease. “A disease like Alzheimer’s is triggered specifically by the advance of age,” Otto wrote in a subsequent e-mail to Lack. “So if we administer the cure to people who are just developing the disease, we can do two things. One, we can potentially prevent further damage to their brains. Two, we can see within a shorter period of time if the cure takes hold. Normally, when you do a CAT scan of an Alzheimer’s patient, you see changes—sometimes rather drastic changes—to the brain over a short period. You can see the dark spots, the ‘cobwebs,’ as it were.”
The ten initial test subjects received monthly CAT scans after being administered the cure. “In every case, the cobwebs stopped growing,” noted Otto in his second published report. “The dark spots on their brains remained dark but never expanded, which is unheard of in Alzheimer’s patients. We studied them for over a year and not one of them saw the disease advance past the early stages. Their brains remained perfectly, blessedly intact.” Two of the patients have since died from unrelated causes; the other eight are still alive and well.
By the time Otto had published these subsequent findings, the biotech community was busy stress-testing the cure in every conceivable way. Not once were they able to poke a hole in what Otto had discovered. So miraculous were the cure’s effects that many doctors began to confess on the party circuit that they had injected themselves with the vector. According to urban legend in the community, one such doctor, David Spitz, accidentally let spill to a prominent socialite at a charity gala in Seattle that he had given himself the cure. The socialite demanded the cure for herself, eventually wearing Spitz down with offers of cash and signing secretly prepared documents that absolved him of all legal liability. Thus the black market for the cure was born, well before it had even crossed the FDA’s desk.
To the very end, Otto remained ambivalent about his discovery and its rapid spread. “I was overjoyed when we did the Alzheimer’s study and found what we found,” he wrote in his journal. “The idea that we could cure this disease that has ravaged so many families, the idea that we could prevent people’s memories from being erased—that was wonderful. And certainly I was excited at the financial prospect of the cure, the kind of money it could generate for the university, as well as for me and my family. I’m not immune to that part of it. That was all very exciting. But when I heard about David Spitz, and what he had done with it, I realized that we had triggered a kind of frenzy we were totally unprepared to deal with. You know, science is usually agony. You conduct millions of experiments just to move the world forward a millimeter. But in a way, that’s a good thing. Science gives us time to adjust. But the cure hasn’t been like that. I discovered it too quickly, odd as that may sound. That’s why, from the outset, I agreed with the president’s decision to ban it. I was glad someone was willing to step back and declare that we needed to know everything about this treatment before we unleashed it upon every citizen. Obviously, that didn’t stop it from spreading. But I’m glad someone stood up and took that stance. It needed to be done. A lot of the world fell in line quickly after that. And that’s good. Just because I benefited from sloppy handiwork doesn’t mean the rest of us will. Because we still don’t know what future effects this cure will have. Think about how many treatments have been fasttracked for approval by the FDA that eventually needed to be recalled. This cure could end up not working. And that might be the very-best-case scenario! Heaven help us all if it really does work.”
Graham Otto would never get to find out.
It was another late night in the lab. Despite his astonishing success, Otto had yet to realize any of the potential financial gain from his breakthrough. He dedicated himself to making sure the cure was 100 percent bulletproof, so that it might one day gain legitimate FDA approval and prompt the president to overturn the ban—that is, to overturn it at the right time, not when people found it most convenient or profitable. Otto was monitoring over a half-dozen species that night, comparing their statuses against control groups, trying to detect the slightest sign of aging. The Hair Bears were with him: Dr. Peter Madden, Dr. Brian Lo, Dr. Sidney Brown, and three PhD candidates (Candace Malkin, Dinesh Ganji, and Michael Duggan) in his now-growing department.
The University of Oregon has a security infrastructure that is the envy of most other colleges. Every building requires hologram identification worn on a lanyard. Every entrance is covered by surveillance cameras. The campus is extremely well lit, and hundreds of emergency phones dot the area, for easy access by any students or staff who feel immediately threatened.
But the Hair Bears’ lab was no longer located on the Oregon campus. Due to the success of Otto’s program, the university had agreed to build a new lab for him and his cohorts—a facility they hoped would rival any genetics lab in America. But while it was being built, the team, which had already outgrown its old quarters, was forced to work out of a makeshift lab in a nearby office park.
The Shelby Office Park looks very much like any other office park in the nation. It’s located on Shelby Circle, right near a strip of chain restaurants and home-improvement stores. It’s a poorly lit complex—even now, after what happened. A walk from the Shelby parking lot to one of the main buildings in the dead of night is enough to jangle even the toughest nerves. A card-key is needed to enter any of the buildings on the park’s campus. But the parking lot has no such requirement. Parking is free, and there’s no gate to check into. Anyone can drive up to the main buildings. And on the night of August 7, 2012, someone did.
An unmarked van pulled up to the curb in front of Building D, where the Hair Bears made their temporary home. The team typically finished up work at the same time, but Otto was known to tell everyone to go home and get their rest, while staying on alone in the lab—sometimes for a little while, sometimes for hours. (Although he enjoyed the company of his coworkers, Otto claimed to focus better when undisturbed.) From what police have been able to reconstruct, it seems that night he bade his colleagues goodbye and stayed in the lab for a scant ten extra minutes. After he closed up shop, he grabbed his briefcase and made his way down to the lobby.
As he exited the building, he saw the van. He likely also noticed that there were still four bikes parked in the rack next to the building entrance. Many of the team members used bikes, instead of cars, to get around town. The rack should have been empty. In the time it took Otto to recognize that something was amiss, three men had exited the van and accosted him.
They wore black from head to toe, with black hoods covering their heads. They had guns. They forced Otto to the ground and bound his legs, arms, and mouth with duct tape.
They dragged Otto to the van and opened the back. There Otto saw, to his horror, all six of his colleagues, similarly bound and piled on top of each other—a writhing tangle of bodies. They threw Otto in with the rest, doused them and the van with gasoline, and set it on fire. The three assailants then fled the scene as the van burst into flames. Only one of them, Casey Jarrett of Tacoma, has been identified and charged. Jarrett, who belongs to a pro-death evangelical sect known as Terminal Earth, defended his actions only by saying, “A little bit of bloodshed now or a lot later on.” Otto, Madden, Lo, Brown, Malkin, Ganji, and Duggan all perished in the blaze. Just hours later, David Spitz was gunned down outside his home in Seattle.