Abstract P066: Blood-based proteomic signatures associated with MEN1-related duodenopancreatic neuroendocrine tumor progression

Multiple Endocine Neoplasia Type 1 (MEN1) is associated with duodenopancreatic neuroendocrine tumors (dpNETs) and metastatic dpNET is the primary cause of disease-related mortality for this condition. Currently, there is a paucity of prognostic factors that can reliably identify patients with MEN1-related dpNETS who are at high risk of distant metastasis. Previously, we uncovered a blood-based polyamine metabolite signature that was associated with MEN1-dpNET disease progression. In the current study, we aimed to build upon our prior findings, by exploring the contributions of proteomics for identifying circulating protein markers associated with tumor progression. We performed in-depth proteomic analysis of serially collected plasmas from a genetically engineered mouse model of Men1-pNET, Men1fl/flPdx1-CreTg, and Men1fl/fl control mice to assess dynamic changes in the plasma proteome that associated with disease progression. Findings were compared to plasma proteomic profiles from a cohort of 56 patients with MEN1 (14 with distant metastasis dpNETs (cases) and 42 with either indolent dpNETs or no dpNETs (controls)). Analyses revealed 196 proteins related to oncogenic N-MYC, YAP1, POU5F1, and SMAD that were positively associated with pNET disease progression in Men1fl/flPdx1-CreTg mice. Similarly, 187 proteins were elevated in MEN1 patients with distant metastasis compared controls. Proteins with increased levels in metastatic cases included AMY2B, CELA3B, RNASE1, IGFBP2, CHI3L1, LYZ, TIMP1, LRG1, and COL18A1 previously associated with pancreatic cancer and other neuronal proteins. Cross-species intersection revealed 19 proteins including NDC80, DEF8, SPAG17, ATM, IMMT, DNAH6, DSP, CIT, HRG, CD79A, BDP1, SERPINA11, TARBP1, and SERPIND1 that were positively associated with disease progression in Men1fl/flPdx1-CreTg mice and human subjects. Our integrated analyses identified novel circulating protein features associated with disease progression in MEN1-related dpNET. Citation Format: Johannes F. Fahrmann, Amanda R. Wasylishen, Carolina R.C. Pieterman, Ehsan Irajizad, Jody Vykoukal, Ranran Wu, Jennifer D. Dennison, Christine B. Peterson, Guillermina Lozano, Hua Zhao, Kim-Ahn Do, Daniel M. Halperin, Sunita K. Agarwal, Jenny E. Blau, Jaydira D. Rivero, Naris Nilubol, Mary F. Walter, James M. Welch, Lee S. Weinstein, Menno R. Vriens, Rachel S. van Leeuwaarde, Mark J.C. van Treijen, Gerlof D. Valk, Nancy D. Perrier, Sam M Hanash, Hiroyuki Katayama. Blood-based pr