Chandrasekharan Subhashini, McGuire Amy L, Van den Veyver Ignatia B
Duke Global Health Institute, Duke University, Durham, NC, USA.
Prenat Diagn. 2014 Oct;34(10):921-6. doi: 10.1002/pd.4445. Epub 2014 Jul 31.
Thousands of patents have been awarded that claim human gene sequences and their uses, and some have been challenged in court. In a recent high-profile case, Association for Molecular Pathology, et al. v. Myriad Genetics, Inc., et al., the US Supreme Court ruled that genes are natural occurring substances and therefore not patentable through 'composition of matter' claims. The consequences of this ruling will extend well beyond ending Myriad's monopoly over BRCA testing and may affect similar monopolies of other commercial laboratories for tests involving other genes. It could also simplify intellectual property issues surrounding genome-wide clinical sequencing, which can generate results for genes covered by intellectual property. Non-invasive prenatal testing (NIPT) for common aneuploidies using cell-free fetal (cff) DNA in maternal blood is currently offered through commercial laboratories and is also the subject of ongoing patent litigation. The recent Supreme Court decision in the Myriad case has already been invoked by a lower district court in NIPT litigation and resulted in invalidation of primary claims in a patent on currently marketed cffDNA-based testing for chromosomal aneuploidies.
数以千计的专利已被授予,这些专利涉及人类基因序列及其用途,其中一些已在法庭上受到质疑。在最近一起备受瞩目的案件中,分子病理学协会等诉Myriad Genetics公司等,美国最高法院裁定,基因是自然存在的物质,因此不能通过“物质的组合”主张获得专利。这一裁决的后果将远远超出结束Myriad对BRCA检测的垄断,可能会影响其他商业实验室对涉及其他基因检测的类似垄断。它还可能简化围绕全基因组临床测序的知识产权问题,全基因组临床测序可以生成受知识产权保护的基因的结果。目前,通过商业实验室提供使用孕妇血液中游离胎儿(cff)DNA进行常见非整倍体的无创产前检测(NIPT),这也是正在进行的专利诉讼的主题。下级地方法院在NIPT诉讼中已经援引了最高法院最近在Myriad案中的裁决,导致一项关于目前市场上基于cffDNA的染色体非整倍体检测的专利的主要权利要求无效。