Caris Life Sciences has filed a federal lawsuit accusing Foundation Medicine of infringing on five patents in the development of three cancer assays. Foundation Medicine says it will "vigorously defend the allegations made." [Source: © benqook/Fotolia]
Caris Life Sciences has filed a federal lawsuit accusing Foundation Medicine of infringing on five patents in the development of three cancer assays. Foundation Medicine says it will "vigorously defend the allegations made." [Source: © benqook/Fotolia]

Caris Life Sciences is accusing Foundation Medicine in a federal lawsuit of infringing on five Caris patents in the development of its cancer assays FoundationOne®, FoundationACT® and FoundationOne® Heme.

“As a result of Defendant’s infringement and the threat of its continued infringement, Caris faces a substantial risk of irreparable harm,” Caris stated in its 28-page complaint, filed yesterday, in U.S. District Court for the District of Massachusetts, Boston Division.

At issue in the lawsuit are five Caris patents covering the company’s system of performing molecular profiling of tumors to identify treatment options based on groups of molecular targets not traditionally or conventionally associated with various types of cancer:

  • U.S. Patent No. 8,880,350 (the “‘350 patent”), “System and Method for Determining Individualized Medical Intervention for a Disease State,” which uses the molecular targets EGFR, KIT, TOP1, MLH1, PTEN, PDGFRA, and ESR1.
  • U.S. Patent No. 9,292,660 (the “‘660 patent”), “Molecular Profiling of Tumors,” which uses the molecular targets BRAF, CTNNB1, cKIT, PIK3A, and PTEN in the context of treatments for lung cancer.
  • U.S. Patent No. 9,372,193 (the “‘193 patent”), “System and Method for Determining Individualized Medical Intervention for a Disease State,” which uses the molecular targets AR, EGFR, HER2, KIT, MLH1, PTEN, and PDGFRA; in testing for metastatic cancer.
  • U.S. Patent No. 9,383,365 (the “‘365 patent”), “System and Method for Determining Individualized Medical Intervention for a Disease State,”which uses the molecular targets EGFR, KIT, TOP1, MLH1, PTEN, PDGFRA and ERRB2;
  • U.S. Patent No. 9,092,392 (“the “‘392 patent”), “Molecular Profiling of Tumors,” which uses the molecular targets BRAF, EGFR, PIK3CA, and PTEN in the context of treatments for colorectal cancer.

Caris’ system—the Caris Molecular Intelligence Comprehensive Genomic Profiling Plus (CGP+) molecular testing service—uses multiple tumor profiling technologies to decode cancer, including immunohistochemistry, in situ hybridization, next-generation sequencing, Sanger sequencing, pyro sequencing and fragment analysis.

Oncologist Daniel Von Hoff, M.D., FACP, and pathologist Robert Penny, M.D., Ph.D., teamed up to invent and patent CGP+, described in the lawsuit as “a novel system of performing molecular profiling of tumors to identify treatment options independent of cancer type, based on groups of molecular targets not traditionally or conventionally associated with a specific type of cancer.”

CGP+ is designed to assesses DNA, RNA and proteins, including microsatellite instability, total mutational load, and programmed death-ligand 1 (PD-L1)—with the aim of revealing a molecular blueprint to guide physicians on personalized treatment decisions. The system is designed to generate a molecular profiling report, which the treating physician may then use to develop a personalized treatment plan for the patient.

“Through its Caris Molecular Intelligence® product, a comprehensive genomic profiling product formerly known as Target Now®, Caris has provided molecular profiling for more than 123,000 clinical cases,” Caris asserted in its complaint.

 

'Vigorous' Defenses Planned

Caris is seeking findings that all five patents were infringed, as well as enhanced damages, and am “exceptional case” finding entitling the plaintiff to attorney fees and court costs.

“We have invested heavily in the development of our innovative technology for precision medicine because we strongly believe, and have demonstrated, that the molecular findings identified with tumor profiling can be utilized to provide cancer patients viable therapeutic options,” Russ Farr, J.D., SVP and general counsel for Caris Life Sciences, said yesterday in a statement. “We intend to vigorously defend our intellectual property and investment and take action against those who violate it.”

In a statement today, Foundation Medicine said: “We do not routinely comment on ongoing litigation. We are evaluating the complaint at this time, and we intend to vigorously defend the allegations made.”

FoundationOne is Foundation Medicine’s flagship assay for solid tumor cancers—including, but not limited to, non-small cell lung cancer (NSCLC), colorectal cancer, breast cancer, ovarian cancer, and melanoma. According to the company, FoundationOne is validated to detect all classes of genomic alterations in more than 300 cancer-related genes, including select introns from more than 25 genes often rearranged or altered in solid tumors.

FoundationAct is Foundation Medicine’s liquid biopsy assay for solid tumors, such as those in NSCLC, breast, colon, and prostate cancers. The assay has been validated to detect all classes of genomic alterations in more than 60 of the most commonly mutated genes in solid tumors using only a blood sample. The company says the blood-based circulating tumor DNA (ctDNA) assay may be considered when tissue is unobtainable, when the physician elects to use a ctDNA assay, or to complement FoundationOne® testing.

FoundationOneHeme is designed to detect all classes of genomic alterations in more than 400 cancer-related genes—namely hematologic malignancies and sarcomas including, but not limited to, leukemias, myelodysplastic syndromes, myeloproliferative neoplasms, lymphomas, and multiple myeloma. In addition to DNA sequencing, FoundationOneHeme employs RNA sequencing across more than 250 genes to capture a broad range of gene fusions, common drivers of hematologic malignancies, and sarcomas.

Both assays are designed to interrogate hundreds of cancer-related genes in solid tumors, or hematologic cancers and advanced sarcomas, respectively, to identify genomic alterations in patients that can be matched with a therapy that targets them.

 

'Child' of Myriad and Mayo

“The claims seem pretty broad. It seems like they cover almost every multi-panel genetic diagnostic test that comes with a report out there, with respect to these particular genes. From an infringement perspective, it looks like Caris has a good shot,” Jacob S. Sherkow, J.D., associate professor at the Innovation Center for Law and Technology, New York Law School, told GEN.

“But if I were Caris, my bigger concern would be a court finding that the patents are of dubious validity,” based on decisions in recent years restricting patentable subject matter under Title 35 of the U.S. Code, Section 101,” Professor Sherkow said.

“Claims that are directed to systems, new ways of doing things using a computer, those claims get invalidated with incredible frequency under section 101. I would suspect that at least some of these claims here seem to suffer from these Section 101 problems, and I would imagine that that would be a principal argument that Foundation Medicine would make in its defense.”

Professor Sherkow cited the U.S. Supreme Court decision in Alice Corp. b. CLS Bank International (No. 13–298, 2014), in which a unanimous High Court invalidated software patents of Alice designed to facilitate the exchange of financial obligations between two parties by using a computer system as a third-party intermediary. Because the claims are drawn to a patent-ineligible abstract idea, they are not patent eligible under §101, the Supreme Court decided in an opinion written by Justice Clarence Thomas.

 He also cited the Supreme Court decisions in Association for Molecular Pathology (AMP) v. Myriad Genetics, in which the Court unanimously overturned seven of Myriad Genetics’ 24 patents related to its discovery of the precise location and sequence of breast cancer susceptibility genes BRCA 1 and 2; and the 2012 decision in Mayo Collaborative Services v. Prometheus Laboratories , in which the High Court unanimously held as patent-ineligible the methods of dosage calibration for thiopurine drugs for gastrointestinal and nongastrointestinal autoimmune diseases that had been patented by Nestle’s Prometheus’ Laboratories.

“It’s fair to say that a likely result from this lawsuit is going to be the child of these Myriad and Mayo decisions,” Professor Sherkow said.

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