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@article{1776205, author = {Ptakova, Nikola and Martinek, Petr and Holubec, Lubos and Janovsky, Vaclav and Vancurova, Jana and Grossmann, Petr and Navarro, Paloma Alcaraz and Moreno, Juan F. Rodriguez and Alaghehbandan, Reza and Hes, Ondrej and Májek, Ondřej and Pesek, Milos and Michal, Michal and Ondic, Ondrej}, article_location = {HOBOKEN}, article_number = {7}, doi = {http://dx.doi.org/10.1002/gcc.22942}, keywords = {carcinoma; data drilling; ERBB; ERBB3; gene fusion; gene rearrangement; genetics; HER; HER 3; EGF‐ like domain; lung; MAPK; molecular; mRNA sequencing; neuregulin; next‐ generation sequencing; NRG1; PIK}, language = {eng}, issn = {1045-2257}, journal = {GENES CHROMOSOMES & CANCER}, title = {Identification of tumors with NRG1 rearrangement, including a novel putative pathogenic UNC5D-NRG1 gene fusion in prostate cancer by data-drilling a de-identified tumor database}, url = {https://onlinelibrary.wiley.com/doi/10.1002/gcc.22942}, volume = {60}, year = {2021} }
TY - JOUR ID - 1776205 AU - Ptakova, Nikola - Martinek, Petr - Holubec, Lubos - Janovsky, Vaclav - Vancurova, Jana - Grossmann, Petr - Navarro, Paloma Alcaraz - Moreno, Juan F. Rodriguez - Alaghehbandan, Reza - Hes, Ondrej - Májek, Ondřej - Pesek, Milos - Michal, Michal - Ondic, Ondrej PY - 2021 TI - Identification of tumors with NRG1 rearrangement, including a novel putative pathogenic UNC5D-NRG1 gene fusion in prostate cancer by data-drilling a de-identified tumor database JF - GENES CHROMOSOMES & CANCER VL - 60 IS - 7 SP - 474-481 EP - 474-481 PB - WILEY-BLACKWELL SN - 10452257 KW - carcinoma KW - data drilling KW - ERBB KW - ERBB3 KW - gene fusion KW - gene rearrangement KW - genetics KW - HER KW - HER 3 KW - EGF‐ like domain KW - lung KW - MAPK KW - molecular KW - mRNA sequencing KW - neuregulin KW - next‐ generation sequencing KW - NRG1 KW - PIK UR - https://onlinelibrary.wiley.com/doi/10.1002/gcc.22942 N2 - The fusion genes containing neuregulin-1 (NRG1) are newly described potentially actionable oncogenic drivers. Initial clinical trials have shown a positive response to targeted treatment in some cases of NRG1 rearranged lung adenocarcinoma, cholangiocarcinoma, and pancreatic carcinoma. The cost-effective large scale identification of NRG1 rearranged tumors is an open question. We have tested a data-drilling approach by performing a retrospective assessment of a de-identified molecular profiling database of 3263 tumors submitted for fusion testing. Gene fusion detection was performed by RNA-based targeted next-generation sequencing using the Archer Fusion Plex kits for Illumina (ArcherDX Inc., Boulder, CO). Novel fusion transcripts were confirmed by a custom-designed RT-PCR. Also, the aberrant expression of CK20 was studied immunohistochemically. The frequency of NRG1 rearranged tumors was 0.2% (7/3263). The most common histologic type was lung adenocarcinoma (n = 5). Also, renal carcinoma (n = 1) and prostatic adenocarcinoma (n = 1) were found. Identified fusion partners were of a wide range (CD74, SDC4, TNC, VAMP2, UNC5D), with CD74, SDC4 being found twice. The UNC5D is a novel fusion partner identified in prostate adenocarcinoma. There was no co-occurrence with the other tested fusions nor KRAS, BRAF, and the other gene mutations specified in the applied gene panels. Immunohistochemically, the focal expression of CK20 was present in 2 lung adenocarcinomas. We believe it should be considered as an incidental finding. In conclusion, the overall frequency of tumors with NRG1 fusion was 0.2%. All tumors were carcinomas. We confirm (invasive mucinous) lung adenocarcinoma as being the most frequent tumor presenting NRG1 fusion. Herein novel putative pathogenic gene fusion UNC5D-NRG1 is described. The potential role of immunohistochemistry in tumor identification should be further addressed. ER -
PTAKOVA, Nikola, Petr MARTINEK, Lubos HOLUBEC, Vaclav JANOVSKY, Jana VANCUROVA, Petr GROSSMANN, Paloma Alcaraz NAVARRO, Juan F. Rodriguez MORENO, Reza ALAGHEHBANDAN, Ondrej HES, Ondřej MÁJEK, Milos PESEK, Michal MICHAL and Ondrej ONDIC. Identification of tumors with NRG1 rearrangement, including a novel putative pathogenic UNC5D-NRG1 gene fusion in prostate cancer by data-drilling a de-identified tumor database. \textit{GENES CHROMOSOMES \&{} CANCER}. HOBOKEN: WILEY-BLACKWELL, 2021, vol.~60, No~7, p.~474-481. ISSN~1045-2257. Available from: https://dx.doi.org/10.1002/gcc.22942.
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