@article{f46d854e2acd49b6a0c2712dac1f085e,
title = "Signaling pathway screening platforms are an efficient approach to identify therapeutic targets in cancers that lack known driver mutations: a case report for a cancer of unknown primary origin",
abstract = "Precision medicine aims to tailor cancer therapies to target specific tumor-promoting aberrations. For tumors that lack actionable drivers, which occurs frequently in the clinic, extensive molecular characterization and pre-clinical drug efficacy studies will be required. A cell line maintained at low passage and a patient- derived xenograft model (PDX) were generated using a fresh biopsy from a patient with a poorly-differentiated neuroendocrine tumor of unknown primary origin. Next-generation sequencing, high throughput signaling network analysis, and drug efficacy trials were then conducted to identify actionable targets for therapeutic intervention. No actionable mutations were identified after whole exome sequencing of the patient{\textquoteright}s DNA. However, whole genome sequencing revealed amplification of the 3q and 5p chromosomal arms, that include the PIK3CA and RICTOR genes, respectively. We then conducted pathway analysis, which revealed activation of the AKT pathway. Based on this analysis, efficacy of PIK3CA and AKT inhibitors were evaluated in the tumor biopsy-derived cell culture and PDX, and response to the AKT inhibitor AZD5363 was observed both in vitro and in vivo indicating the patient would benefit from targeted therapies directed against the serine/threonine kinase AKT. In conclusion, our study demonstrates that high throughput signaling pathway analysis will significantly aid in identifying actionable alterations in rare tumors and guide patient stratification into early-phase clinical trials.",
author = "Pedro Torres-ayuso and Sudhakar Sahoo and Garry Ashton and Elvira An and Nicole Simms and Melanie Galvin and Leong, {Hui Sun} and Frese, {Kristopher K} and Kathryn Simpson and Natalie Cook and Andrew Hughes and Miller, {Crispin J} and Richard Marais and Caroline Dive and Krebs, {Matthew G} and John Brognard",
note = "Funding Information: The TARGET protocol and associated translational research analyses were approved by the North-West Preston Research Ethics Committee, United Kingdom in February 2015. The patient provided fully informed written consent to participate in this trial and for the use of donated tumor/blood samples for research that may help identify personalized therapeutic options. A blank consent form is provided in the supplementary information section. Research conducted in this study was performed in accordance with the Human Tissue Act 2004, and regulations approved by the Human Tissue Authority at The Christie NHS Foundation Trust (Manchester, UK). All patient information has been anonymized. Funding Information: We thank the patient and his family for donating samples for this research. AZD5363 and AZD8835 were kindly donated by AstraZeneca. We thank members of the Signalling Networks in Cancer team, the Clinical and Experimental Pharmacology in vivo team, Dr MR Girotti and Dr F Trapani at the Cancer Research UK Manchester Institute for helpful discussions. We thank the Biological Resources Unit, Molecular Biology and Flow Cytometry Core Facilities at Cancer Research UK Manchester Institute for technical assistance, and the Manchester Cancer Research Centre Biobank for logistical support. We also thank the National Institute for Health (NIHR) Manchester Clinical Research Facility. The TARGET program is funded by the Manchester Cancer Research Centre and The Christie Charity. This work was fully supported by Cancer Research UK (all authors) via the CRUK Manchester Institute (C5759/A20971), the CRUK Manchester Experimental Medicines Centre (C480/ A15578) and the CRUK Manchester Cancer Research Centre (C147/A18083). J.B. and P.T-A. were also funded by The Lung Cancer Research Foundation and the National Cancer Institute (ZIA BC 011691 to JB). P.T-A. was supported by a Fundaci{\'o}n Ram{\'o}n Areces postdoctoral fellowship. Publisher Copyright: {\textcopyright} 2018 The Author(s). Copyright: Copyright 2019 Elsevier B.V., All rights reserved.",
year = "2018",
month = jun,
day = "20",
doi = "10.1038/s41525-018-0055-6",
language = "English",
volume = "3",
journal = "Genomic Medicine",
issn = "1871-7934",
publisher = "Springer Nature",
number = "1",
}