Biotech, Antibodies, VC
Accelerator’s New Startup, Xori, Aims to Use Chicken Cells to Make Better Antibody Drugs
Luke Timmerman 5/14/09
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of the company will be led by Larry Tjoelker, a former scientist at Bothell, WA-based Icos, MacroGenics, and Theraclone Sciences (another Accelerator company.) Xori’s goal will be to show that it can prove its concept works in animals, Gray said.
For Accelerator, Xori represents the first new company it has bankrolled in 2009, and the tenth overall since its founding in 2003. It’s the second time Accelerator has made a foray into the world of antibody drug development (Theraclone was first), and the second time it has supported a technology that originated at the University of Washington, after Seredigm.
So how is this technique really different and special? Others have certainly been working hard to make better, faster, cheaper antibodies—including Merck through its purchase of Lebanon, NH-based GlycoFi, and Bothell, WA-based Alder Biopharmaceuticals.
What Maizels’ lab has developed that’s different is a genetically modified line of chicken cells to serve as the host for creating antibodies. These cells are designed to allow genes to evolve quickly and to select the exact structure of the molecular target—and then create ideal antibodies that bind tightly against them, she says.
Standard antibody techniques might only yield five to 20 different antibody candidates that can hit a certain target-even though biology says there could potentially be many more. Many good candidates made during the standard mouse-based process get weeded out, never binding properly with a target on cells, Maizels says. That’s because the body has a natural tendency to develop antibodies against foreign invaders like viruses, but not against normal cells. The problem is that many diseased cells, like, say, tumors, look a lot like healthy cells to the immune system. Overcoming this tendency is a challenge that scientists refer to as breaking “tolerance.” Since chicken cells are quite different from both humans and mice, they should allow Xori to avoid this problem with tolerance, and help identify many antibodies with great potential as drugs that would otherwise fail the early scientific screens, Maizels says.
“It has the potential to treat diseases that we can’t treat now, so it’s an important thing for us to do,” Maizels says.
Like a lot of Accelerator’s investments, there’s not a lot of hard data to support the notion that this works in animals, much less in people. Accelerator was drawn to the idea because it has the potential to be applied to many different drugs, not just one, and antibody drugs represent such a big market, Schubert says. It also has other key ingredients, such as its passionate founder, and a core expertise in immunology that is one of the strengths of the Seattle biotech scene, Schubert says.
Schubert also told an interesting little backstory about how this deal came together. Usually, Accelerator gets ideas from the Institute for Systems Biology, a referral from Hood or another ISB faculty member, through its own research, or from investor referrals.
This case was a little different. Schubert first heard about the technology about 18 months ago while having a regular monthly lunch with a friend of his from business school, Aaron Coe of Seattle-based Calistoga Pharmaceuticals. Coe, who happens to be a second cousin of Maizels, told Schubert that she was doing some interesting work that might soon be ready for private investment.
So Schubert and Gray decided to take a look for themselves. “I’ve never seen Pat as excited at first blush about a technology as he was with this,” Schubert says. The passion never waned for the investors during the year this deal took to assemble, even though it’s common to go through highs and lows, like with a romance, Schubert says.
Maizels laughed out loud at the analogy. Apparently, she never expected to get dumped. “David has a different view of romance than I do,” she said with a laugh.
Luke Timmerman is the National Biotechnology Editor for Xconomy. You can e-mail him at ltimmerman@xconomy.com, call 206-624-2374, or follow him on Twitter at http://twitter.com/ldtimmerman.
5/14/09 8:16 pm
Well – it looks like Seattle is putting the “farm” in “big pharma”. We have rabbit mabs and chicken mabs – next will be goats and pigs.
With chickens and rabbits using similar mechanisms for generating diversity using gene conversion and the rabbits adding somatic hypermutation, these two will make a powerful force in generating some amazing therapeutic mabs that interact with epitopes that mice and human mabs won’t touch.
The number of validated targets for antibodies in human disease is approaching 500 and there are countless others yet to be validated or discovered. New antibody technologies that have arrived in the pacific NW starting with Alder and Spaltudaq (Theraclone) to North Coast Bio and Xori, have emerged as companies that have a unique opportunity to capitalize on some amazing technology all while reducing the cost of discovery, manufacturing, and increasing the efficiency and quality of this class of drug. If the cost of discovery can be lowered to the degree where emesis is not the response from investors, perhaps we can take advantage of this unique situation by creating small armies (companies) to take on the list of known targets, discover new ones, and create our own antibody hub here in Seattle.
Seattle – the new home of antibody Farmaceuticals
11/6/09 6:03 pm
Looks like man has come a long way since sliced bread.
11/6/09 6:13 pm
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