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supposed to take this long for its fund to begin investing in startups.
When it started its life science fund, the NYCEDC was on the hook for $10 million, with Celgene, Eli Lilly, and GE Ventures chipping in another $40 million, and a VC partner matching that total with another $50 million. But it took awhile to snare the right venture firms, and its communicated timelines have been pushed back multiple times. For instance, when the fund was first announced, the plan was to secure a VC partner by the end of 2013 and make the first investment in early 2014.
The fund didn’t tap its VC partners, Arch and Flagship, until early 2015. The two firms threw in more cash, bringing the total fund to $150 million. Sources told Xconomy in 2015 that there were specific incentives baked into the fund meant to keep its startups from leaving New York. (Rigby wouldn’t say if such incentives are tied to HiberCell’s funding, just that the company “desires” to stay and grow in New York.)
Even after the VC partners came on board, it took the fund another four years to make its first investment (Flagship has yet to announce a funding). In 2017, NYCEDC officials told Xconomy that its VC partners had been “establishing a presence in New York City and thoughtfully developing opportunities for ventures.”
When asked why the NYCEDC took so long to make its first investment, Thiede said it has taken time to choose and push forward the right company. “The expectations were re-calibrated once we got boots on the ground here,” he says. There are “more realistic expectations of what the right investments…and market signals are for New York City.”
Part of that recalibration involved a shifting investment strategy. At an Xconomy event in 2017, Flagship principal Jason Park, who runs the firm’s New York efforts, noted that Flagship planned to put the cash into “one or two transformational companies” rather than spread small dollars around into more than a dozen. Thiede says Arch has adopted the same type of vision as Flagship—to start a smaller number of high-profile companies.
The HiberCell round represents the culmination of a few local efforts. Aguirre-Ghiso won the 2016 BioAccelerate NYC Prize, a citywide competition run by the Partnership Fund for New York City to provide funding for biomedical research. Arch was one of the judges in that contest—a deliberate attempt by the Partnership Fund to get New York research on the radar screen of venture capitalists. Arch eventually formed HiberCell after Aguirre-Ghiso used that prize money to finance his work, says Maria Gotsch, president and CEO of the Partnership Fund. Arch’s presence pulled in the NYCEDC money as well.
“With any life science company in an emerging market, there are a series of pieces that have to come together,” Gotsch says. “This is where the pieces were connected a little bit more explicitly than in other situations.”
HiberCell’s ambitions are significant. Rather than trying to kill a primary tumor itself, as most cancer drugs do, HiberCell is forging a different path.
Even when cancer is seemingly wiped out by chemotherapy or other drugs, DTCs—single or small clusters of cells from the initial tumor that burrow into other tissues like the lung and bone marrow—can remain and stay dormant for months, even years. But when cancer returns and metastasizes—meaning, forms new tumors in other tissues—DTCs are a possible culprit. The challenge for HiberCell is to figure out what to do about these sleeper cells, but there are myriad challenges. Among them: How can we identify patients with these cells, find them, and isolate them? How do these cells interact with and evade the immune system? How can we wipe them out? And how would a drug that does wipe them out be used?
Researchers have been trying to answer these and other questions. Aguirre-Ghiso and others, for instance, have published papers identifying a protein that seems to be linked to DTCs. (An article published in Nature in June has more on this emerging field.) And some academic labs are pursuing drugs meant to muck with DTCs in one way or another.
HiberCell is trying to take the work a step further. It has rounded up leaders in the space like researchers from the Fraunhofer Institute for Toxicology and Experimental Medicine in Germany, who have been working to understand the genetics of DTCs by analyzing patient tissue samples. And the company has licensed two drugs from large pharmaceutical companies—Rigby wouldn’t say which ones—that may be able to keep DTCs asleep, or kill them while they’re sleeping. Those drugs could be ready for human testing by 2020 or early 2021.
The idea is for these “dormancy” drugs, as Rigby calls them, to be given very early on in a patient’s disease—either before or in conjunction with surgery to remove a tumor. Or, perhaps, the drugs could be added on top of existing treatments to extend the time that cancer is in remission, Rigby says.