Next-Gen Sequencing Update: Sequencing for Thousands, Suing for Millions
It is shaping up to be an eventful fourth quarter for genomic sequencing companies. Investors welcomed sequencing newcomer Pacific Biosciences (PacBio) to the public stage with a strong initial public offering (IPO). According to The Wall Street Journal, the company managed “the first U.S. life-sciences [IPO] this year to price well and trade higher” (although the stock has since traded down somewhat). Up next: another next-gen sequencing IPO with Complete Genomics (CGI) expected to follow PacBio into the public market as early as tomorrow.1
The past few weeks have also seen strong third quarter earnings reports from market leaders Illumina (earnings recap) and Life Technologies (earnings recap), with both companies touting double-digit growth in their next-generation sequencing businesses. Illumina and Life Technologies (Life) are also hard at work on their next generation of products which are intended to compete more directly with the offerings from PacBio and CGI (Oxford Nanopore for Illumina, Ion Torrent and Starlight for Life). Meanwhile, China’s own sequencing entrant, BGI, continues to buy up sequencers (first from Illumina, more recently from Life), and what will soon become the world’s largest provider of genomic sequencing has its own ambitious plans.
A Do-It-Yourself Genomic Challenge to Myriad, the FDA and the Future of Genetic Tests
Over the weekend, Steven L. Salzberg and Mihaela Pertea published a short but significant article in the journal Genome Biology. In “Do-it-yourself genetic testing,” Salzberg and Pertea describe the creation of “a computational screen that tests an individual’s genome for mutations in the BRCA genes, despite the fact that both are currently protected by patents.”
The software-based test can be downloaded from the website of the University of Maryland’s Center for Bioinformatics & Computational Biology, where Salzberg is the director and Pertea is on the faculty. The test purports to test genomic sequence data against a set of known mutations in the BRCA genes. In addition to representing a conceptual alternative for those seeking to evaluate their risk of hereditary breast cancer, the so-called “Salzberg Screen” is also a direct challenge to Myriad Genetics, the FDA and the existing legal, regulatory and policy regimes that continue to struggle to keep pace with the science and technology of genomics and personalized medicine.
Below, we examine how the Salzberg Screen fits—or does not—within the current legal and regulatory landscape, as well as what it signals for the future of do-it-yourself genomics, whole-genome sequencing and the law.
The Conversation Begins: Recap from Day One of FDA’s LDT Regulatory Meeting
Welcome to Hyattsville, MD, where we have just completed day one of FDA’s two day “Public Meeting on Oversight of Laboratory Developed Tests” (LDTs). The session was civil, well-organized and largely devoid of surprises. It did, however, mark the official kick-off of the FDA’s highly publicized decision to develop a “risk-based application of oversight” for all LDTs.
If you’re interested in the details of what was said and by whom you’ll find links at the bottom to all of the relevant transcripts, video feeds and Twitter coverage. For my part, here are the three key take-away points from day one:
Timing. Last week I wrote that it was unlikely that this meeting, or any of the other myriad regulatory and legislative proposals for LDT regulation, would produce a significant shift in the legal and regulatory landscape any time soon. One day of FDA meetings has done nothing to change that opinion.
The Unexpected Impact of Genetics on the Business World
Recent advances in genetic science are remarkable. In 2003 the first full human genome was sequenced after 13 years of work at a cost of over $3 billion. Today, the cost to sequence any individual’s entire genome is approaching $1,000. Genetic tests for specific genes linked to cancer and other diseases exist today and many more are being developed. We hear of a new era of “personalized medicine” in which drugs and therapies will be prescribed based on the individual patient’s specific genes.
All of this may seem to have little direct relevance to companies outside of biotechnology. However, the development of genetic knowledge and technology already has spawned new laws, regulations and patent uncertainties that impact almost all businesses in some way.
Privacy and Nondiscrimination. The federal Genetic Information Nondiscrimination Act of 2008 (GINA) represents the most comprehensive effort to date to regulate the use of genetic information. GINA initially only prohibited health insurers and group health plans from using genetic information to deny coverage or set payment rates. Another section, which just became effective in November 2009, affects all private and public employers with more than 15 employees.
More Myriad: Moving Beyond Single Gene Patents
Unless you have been living under a rock – or, if you hail from the Northeast, living under water – Monday’s decision in Association for Molecular Pathology v. USPTO is no longer new news. Previous coverage from the Genomics Law Report (here and here) reviews Judge Sweet’s opinion and its implications.
Moving Beyond Single Gene Patents. Much of the discussion following the decision has centered on what effect the invalidation of Myriad’s gene patents – should that decision be affirmed by a higher court and extended to other similar patents – will have on scientific and commercial innovation.
In many ways, that issue is at the center of the policy debate surrounding Sweet’s opinion and, more generally, the appropriateness of certain biotechnology patents. It’s a question that’s difficult to answer prospectively, but Andrew Pollack’s piece in The New York Times succinctly makes an important point about an emerging reality in the biotechnology industry.
…[T]he [biotechnology] industry is already moving to a period of somewhat less dependence on DNA patents for its sustenance. Diagnostic laboratories, for instance, are shifting from testing individual genes to testing multiple genes or even a person’s entire genome. When hundreds or thousands of genes are being tested at once, patents on each individual gene can become a hindrance to innovation rather than a spur.
Pigs Fly: Federal Court Invalidates Myriad’s Patent Claims
Late on the afternoon of Monday, March 29, 2010, Judge Robert W. Sweet of the United States District Court for the Southern District of New York issued a jaw-dropping summary judgment ruling (pdf) in Association for Molecular Pathology v. USPTO that invalidates certain of Myriad Genetics’ patents related to the BRCA 1 and 2 breast and ovarian cancer susceptibility genes. In a post written immediately after the release of the opinion, Dan gave a thorough summary of the ruling. Our objective here is to offer a bit more depth on what the ruling means—and what it doesn’t mean. On the one hand, Judge Sweet’s order is radical and astonishing in its sweep. On the other, it will be some time before we have any idea what impact it will ultimately have.
We should first disclose that one of us (John) has a dog in this fight, albeit a small one. In 2003, (along with biologist and patent lawyer Roberte Makowski), John published an article in the Journal of the Patent and Trademark Office Society entitled Back to the Future: Rethinking the Product of Nature Doctrine as a Barrier to Biotechnology Patents (pdf). In that article, Roberte and John laid out an argument for challenging Myriad-style patents on “isolated” genes as claiming products that are only trivially different from the naturally-occurring versions. Judge Sweet cited this article and, in several parts of his opinion, followed the roadmap it created. So, if you oppose the Myriad patents, you’re welcome; if you like them, we’re sorry.
What Summary Judgment Means. As Dan noted, and John first wrote last fall, it is rare for plaintiffs to win on summary judgment. For either side to receive summary judgment, it must show that there are no disputed issues of fact that require a trial to resolve, and that, on the undisputed facts, the law mandates judgment in its favor. This standard is especially hard for a plaintiff to meet, since it bears the burden of proof at trial. At the summary judgment stage, a defendant can usually create an issue of fact and thereby avoid summary judgment just by saying “they have the burden of proof at trial, and a jury might not believe them.” Although this is an unusual case in that the basic facts—most notably Myriad’s patent claims and the fundamental biology and genetics that makes possible those claims—really are not in dispute, a summary judgment ruling for the plaintiffs nonetheless sends a clear message about how strong this particular judge thought their case was—and how weak he thought Myriad’s was.
The Road to Invalidation. The court broke Myriad’s patent claims into two major groups: (i) those claiming isolated DNA sequences and (ii) those claiming methods for comparing or analyzing gene sequences to identify the presence of mutations corresponding to a predisposition to breast or ovarian cancer (p. 2). Both sets of patents were rejected under Section 101 of the Patent Act, which enumerates the permissible categories of patentable subject matter: processes, machines, manufactures, and compositions of matter. As the judge noted, a long history of cases forbids claims on laws of nature, abstract ideas, and natural phenomena, which include products of nature.
Meet the New deCODE, Same as the Old deCODE?
When deCODE genetics declared bankruptcy last fall it made a big splash. Geneticists pondered the future of the Icelandic biotechnology company’s one-of-a-kind genetic database and research platform, while investors and creditors wondered if they were going to be left out in the cold.
The initial bankruptcy buzz gave way over the past several months to a steady but relatively unremarkable stream of filings in the United States Bankruptcy Court for the District of Delaware (the case is No. 09-14063). Last week, however, brought a noteworthy docket entry, with the bankruptcy court approving the sale of most of deCODE genetics Inc.’s assets to Saga Investments LLC (pdf) – an investment company whose owners include Polaris Venture Partners, ARCH Venture Partners and genomic sequencing giant (and DTC genomics dabbler) Illumina.
A Holiday Fire-Sale? The sale, as approved by the bankruptcy court, sends substantially all of deCODE genetics Inc.’s assets – including its valuable genetic research engine that is driven in part by its access to its large Icelandic population database – to Saga Investments. As we described back in November, the bankruptcy sale process required a Stalking Horse bidder (Saga Investments) and a sale and auction process that, at least in theory, allowed other interested parties a chance to step in and make a bid for deCODE’s assets. No other bidders came forward, and the sale to Saga Investments was approved in just under two months.
Another Stop on the Road to the $1,000 Genome
The latest stop on the road to the $1,000 genome? San Francisco, CA, where J.P. Morgan’s 28th Annual Healthcare Conference is in full swing. There is an abundance of real-time Twitter coverage from the conference, but certain announcements warrant a more detailed discussion.
The announcement generating the biggest buzz today came from Illumina, Inc., whose CEO Jay Flatley unveiled a new genome sequencing machine, the HiSeq 2000. According to Matthew Herper of Forbes.com, Illumina’s new machine “will decode a person’s DNA in one week using $10,000 worth of materials – five times cheaper than any other competing gadget on the market.” Herper adds that the machines will begin shipping in February with a cost of $690,000 (compared to $500,000 for Illumina’s current model). Illumina’s own product page for the HiSeq 2000 provides more technical details, including coverage (~30x) and read length (2×100 bp). There have also been unconfirmed rumors that the machine will come equipped with an iPhone user interface, a concept that Flatley first pitched at last summer’s Consumer Genetics Show.
If it performs as advertised, the HiSeq 2000 is likely to be a huge hit with large genome sequencing centers, as evidenced by the announcement that the BGI (formerly the Beijing Genomics Institute) has agreed to purchase a whopping 128 of the new sequencing systems. But what, if anything, does the Illumina announcement mean for individuals consumers interested in receiving a complete genomic sequence?
Five Questions for Personal Genomics in 2010
Death, taxes and January prediction columns: these things are inevitable. So what? A new year offers a convenient—if arbitrary—time to review the year that was and contemplate what lies ahead. Without further ado, here are five of the questions the Genomics Law Report is asking as we kick off 2010.
1. Will the $1,000 genome live up to the hype? Affordable whole-genome sequencing is coming, possibly as early as this year depending on whom you ask. But when the day inevitably arrives, after the media frenzy has subsided, will the $1,000 genome prove anti-climactic?
Whole-genome sequencing is a means to an end and not an end in itself. The understandable excitement surrounding Complete Genomics’ November announcement that it had sequenced three genomes for an average cost of $4,400 often neglected to focus on what the price tag did not cover: the substantial costs associated with interpreting the genomic data.
For genomics researchers, the falling cost of whole-genome sequencing is a continuing cause for celebration, enabling increasingly ambitious research projects. But the success of personal genomics, which is what really matters to consumers, patients and healthcare providers, requires more than inexpensive genomic data. The real breakthrough in personal genomics will come when we can offer individuals affordable access to their whole-genome sequence as well as to the genomic tools and knowledgebase necessary for those individuals to put that data to use.
Is deCODEme Taking a Page from the 23andMe Playbook?
Daniel MacArthur of Genetic Future provides coverage of the decision by direct-to-consumer (DTC) genomics service provider deCODEme to offer existing 23andMe customers the ability to upload their raw 23andMe data to the deCODEme service. For free.
MacArthur correctly notes that the value of the genome scans provided by companies such as 23andMe and deCODEme lies not in the actual creation of raw genetic data but in the interpretation of that data, and wonders why deCODEme has decided to give that away for free. Here’s MacArthur’s take:
So, why the free offer? I’m guessing deCODEme is gambling (quite reasonably) that offering free uploads will attract a non-trivial number of 23andMe customers over to deCODEme’s interface. That then provides the Icelanders with an opportunity to give people a fair trial of their own interface, and hopefully to impress them with the quality and accessibility of the data provided.
That seems reasonable, and many 23andMe customers are likely already familiar with porting their raw genetic data to other interpretive tools – Promethease, for example – so perhaps this puts deCODE in front of a group of individuals who would not otherwise be in the market for a duplicative genome scan. (23andMe appears unconcerned by the prospect of a side-by-side comparison of its service with that of deCODEme.)
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