Blood Exosomes Contain Tumor-Specific Genetic Brain Cancer Information.Tiny vesicles called exosomes released into the bloodstream from aggressive brain tumors contain genetic signatures that may help guide future diagnosis and treatment of this deadly disease. In their report in the December issue of Nature Cell Biology, Massachusetts General Hospital Massachusetts General Hospital Health care The major teaching hospital for Harvard Medical School, widely regarded as one of the best health care centers in the world researchers describe finding tumor-associated gene messages in the blood samples of brain cancer patients, including the gene mutation known as EGFRvIII, which is specific for the aggressive form of brain cancer glioblastoma glioblastoma /glio·blas·to·ma/ (gli?o-blas-to´mah) any malignant astrocytoma. glioblastoma multifor´me . "The fact that we can harvest this important cancer signature from exosomes circulating in blood is a critical demonstration of Exosome's technology for advanced personalized medicine diagnostics", said James R. McCullough, chief executive officer of Exosome Diagnostics. "Exosomes offer us the possibility of diagnosing and monitoring a variety of cancers from blood draws, rather than solely by invasive tissue biopsies. In addition, because the effects of some anti-cancer drugs are enhanced or disabled by a tumor's genetic composition, it may be possible to manage treatment regimens by analyzing the genetic contents of patient exosomes." Exosome Diagnostics is developing several tests using the non-invasive exosome technology to measure single genetic mutations such as those found in the EGFR EGFR Epidermal Growth Factor Receptor (a kinase enzyme) EGFR Estimated Glomerular Filtration Rate , KRAS KRAS Knowledge Representation for Autonomous Systems and BRAF BRAF Baton Rouge Area Foundation BRAF Bookstore Requisition Attachment Form (USF) genes for use in lung, colon, brain and melanoma cancers. The company is also developing complex mutational profiles of cancer tumors for monitoring disease progression and mutational status. After the research described in the paper was completed, Exosome Diagnostics exclusively licensed Massachusetts General Hospital's provisional patent on the technology. "We believe these results have broad implications for personalized medicine," said Johan Skog, Ph.D., director of genetics at Exosome Diagnostics. "Detecting mutational profiles through a noninvasive blood test could allow us to monitor how a tumor's genetic makeup changes in response to therapy, which may necessitate changes in treatment strategy." The lead author on the study, Dr. Skog, is also with the MGH MGH Massachusetts General Hospital MGH McGraw-Hill Companies MGH Montreal General Hospital (Montreal, Canada) MGH Monumenta Germania Historica MGH May Go Home MGH Minneapolis General Hospital Neuroscience Center. Many types of cells release exosomes as part of normal cell-to-cell communication, and several types of tumor cells are known to shed exosomes containing proteins that can alter the cellular environment to favor tumor growth. The current investigation is believed to be the first to carefully analyze the contents of exosomes shed from glioblastoma cells and to characterize their genetic content. "Because they contain virtually the entire transcriptome The transcriptome is the set of all messenger RNA (mRNA) molecules, or "transcripts", produced in one or a population of cells. The term can be applied to the total set of transcripts in a given organism, or to the specific subset of transcripts present in a particular cell type. ," said Dr. Skog, "exosomes may one day be used to conduct full tumor genetic profiling to help with early diagnosis and eligibility for personalized therapeutic treatment based on an individual's specific tumor." The investigators first analyzed tumor cells from three glioblastomas and verified that the cells released exosomes containing RNA RNA: see nucleic acid. RNA in full ribonucleic acid One of the two main types of nucleic acid (the other being DNA), which functions in cellular protein synthesis in all living cells and replaces DNA as the carrier of genetic and protein molecules, sometimes at levels significantly different from that present in the tumor cells themselves. Some messenger RNAs related to activities such as cell proliferation and migration, angiogenesis angiogenesis /an·gio·gen·e·sis/ (-jen´e-sis) vasculogenesis; development of blood vessels either in the embryo or in the form of neovascularization or revascularization. an·gi·o·gen·e·sis n. or immune response immune response n. An integrated bodily response to an antigen, especially one mediated by lymphocytes and involving recognition of antigens by specific antibodies or previously sensitized lymphocytes. were highly abundant in the exosomes but not in tumor cells from the same patient. When labeled glioblastoma exosomes were cultured with normal cells, tumor RNA was delivered into the normal cells and translated into proteins. To study the potential of glioblastoma exosomes as markers of a tumor's genetic makeup, the research team analyzed tumor tissue and blood serum from 25 glioblastoma patients and were able both to find tumor exosomes and to identify, in some samples, a mutation in the epidermal growth factor receptor This article is about a cell suface receptor. For estimated measure of kidney function (eGFR), see Glomerular filtration rate. The epidermal growth factor receptor (EGFR) gene that characterizes a tumor subtype (programming) subtype - If S is a subtype of T then an expression of type S may be used anywhere that one of type T can and an implicit type conversion will be applied to convert it to type T. . In two patients, exosome analysis identified an EGFR mutation that did not appear in the sample of tumor tissue, reflecting how the often-chaotic diversity of cells within a tumor may cause a surgical biopsy to miss cells carrying critical information. Xandra Breakefield, PhD, of the MGH Neuroscience Center is the senior and corresponding author of the Nature Cell Biology paper. She is also a member of the Exosome Diagnostics scientific advisory board. Exosome Diagnostics is a developer of proprietary genetics-based diagnostic tests with applications in oncology and endocrinology. The company's core technology is based on the discovery that blood circulating nanovesicles called exosomes contain unique genetic markers that can be used as a personalized medicine diagnostic. Exosome Diagnostics +1-646-792-6190 www.exosomedx.com |
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