%0 Journal Article %J Nat Commun %D 2018 %T A proteomic landscape of diffuse-type gastric cancer. %A Ge, Sai %A Xia, Xia %A Ding, Chen %A Zhen, Bei %A Zhou, Quan %A Feng, Jinwen %A Yuan, Jiajia %A Chen, Rui %A Li, Yumei %A Ge, Zhongqi %A Ji, Jiafu %A Zhang, Lianhai %A Wang, Jiayuan %A Li, Zhongwu %A Lai, Yumei %A Hu, Ying %A Li, Yanyan %A Li, Yilin %A Gao, Jing %A Chen, Lin %A Xu, Jianming %A Zhang, Chunchao %A Jung, Sung Yun %A Choi, Jong Min %A Jain, Antrix %A Liu, Mingwei %A Song, Lei %A Liu, Wanlin %A Guo, Gaigai %A Gong, Tongqing %A Huang, Yin %A Qiu, Yang %A Huang, Wenwen %A Shi, Tieliu %A Zhu, Weimin %A Wang, Yi %A He, Fuchu %A Shen, Lin %A Qin, Jun %K Chemoradiotherapy, Adjuvant %K Datasets as Topic %K DNA Mutational Analysis %K Down-Regulation %K Exome %K Follow-Up Studies %K Gastrectomy %K Genes, Neoplasm %K Humans %K Immunohistochemistry %K Mutation %K Neoadjuvant Therapy %K Neoplasm Proteins %K Neoplasm Staging %K Oligonucleotide Array Sequence Analysis %K Prognosis %K Proteomics %K Sequence Analysis, DNA %K Signal Transduction %K Stomach %K Stomach Neoplasms %K Survival Analysis %K Tandem Mass Spectrometry %K Up-Regulation %X

The diffuse-type gastric cancer (DGC) is a subtype of gastric cancer with the worst prognosis and few treatment options. Here we present a dataset from 84 DGC patients, composed of a proteome of 11,340 gene products and mutation information of 274 cancer driver genes covering paired tumor and nearby tissue. DGC can be classified into three subtypes (PX1-3) based on the altered proteome alone. PX1 and PX2 exhibit dysregulation in the cell cycle and PX2 features an additional EMT process; PX3 is enriched in immune response proteins, has the worst survival, and is insensitive to chemotherapy. Data analysis revealed four major vulnerabilities in DGC that may be targeted for treatment, and allowed the nomination of potential immunotherapy targets for DGC patients, particularly for those in PX3. This dataset provides a rich resource for information and knowledge mining toward altered signaling pathways in DGC and demonstrates the benefit of proteomic analysis in cancer molecular subtyping.

%B Nat Commun %V 9 %P 1012 %8 2018 Mar 08 %G eng %N 1 %1 https://www.ncbi.nlm.nih.gov/pubmed/29520031?dopt=Abstract %R 10.1038/s41467-018-03121-2