Metastatic pancreatic neuroendocrine tumors feature elevated T cell infiltration
Jacques Greenberg, Jessica Limberg, Akanksha Verma, David Kim, Xiang Chen, Yeon J. Lee, Maureen D. Moore, Timothy M. Ullmann, Jessica W. Thiesmeyer, Zachary Loewenstein, Kevin J. Chen, Caitlin E. Egan, Dessislava Stefanova, Rohan Bareja, Rasa Zarnegar, Brendan M. Finnerty, Theresa Scognamiglio, Yi-Chieh Nancy Du, Olivier Elemento, Thomas J. Fahey III, Irene M. Min
Jacques Greenberg, Jessica Limberg, Akanksha Verma, David Kim, Xiang Chen, Yeon J. Lee, Maureen D. Moore, Timothy M. Ullmann, Jessica W. Thiesmeyer, Zachary Loewenstein, Kevin J. Chen, Caitlin E. Egan, Dessislava Stefanova, Rohan Bareja, Rasa Zarnegar, Brendan M. Finnerty, Theresa Scognamiglio, Yi-Chieh Nancy Du, Olivier Elemento, Thomas J. Fahey III, Irene M. Min
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Research Article Immunology Therapeutics

Metastatic pancreatic neuroendocrine tumors feature elevated T cell infiltration

Abstract

Pancreatic neuroendocrine tumors (PNETs) are malignancies arising from the islets of Langerhans. Therapeutic options are limited for the over 50% of patients who present with metastatic disease. We aimed to identify mechanisms to remodel the PNET tumor microenvironment (TME) to ultimately enhance susceptibility to immunotherapy. The TMEs of localized and metastatic PNETs were investigated using an approach that combines RNA-Seq, cancer and T cell profiling, and pharmacologic perturbations. RNA-Seq analysis indicated that the primary tumors of metastatic PNETs showed significant activation of inflammatory and immune-related pathways. We determined that metastatic PNETs featured increased numbers of tumor-infiltrating T cells compared with localized tumors. T cells isolated from both localized and metastatic PNETs showed evidence of recruitment and antigen-dependent activation, suggestive of an immune-permissive microenvironment. A computational analysis suggested that vorinostat, a histone deacetylase inhibitor, may perturb the transcriptomic signature of metastatic PNETs. Treatment of PNET cell lines with vorinostat increased chemokine CCR5 expression by NF-κB activation. Vorinostat treatment of patient-derived metastatic PNET tissues augmented recruitment of autologous T cells, and this augmentation was substantiated in a mouse model of PNET. Pharmacologic induction of chemokine expression may represent a promising approach for enhancing the immunogenicity of metastatic PNET TMEs.

Authors

Jacques Greenberg, Jessica Limberg, Akanksha Verma, David Kim, Xiang Chen, Yeon J. Lee, Maureen D. Moore, Timothy M. Ullmann, Jessica W. Thiesmeyer, Zachary Loewenstein, Kevin J. Chen, Caitlin E. Egan, Dessislava Stefanova, Rohan Bareja, Rasa Zarnegar, Brendan M. Finnerty, Theresa Scognamiglio, Yi-Chieh Nancy Du, Olivier Elemento, Thomas J. Fahey III, Irene M. Min

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Figure 4

A more robust immune microenvironment identified in metastatic PNETs.

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A more robust immune microenvironment identified in metastatic PNETs. (A...
(A) Representative images of H&E, CD3, CD8, and CCL5 IHC staining between metastatic and localized PNETs (n = 9 and 8 for each, respectively). Scale bar: 200 μm. (B) Degree (%) of CD3+ and CD8+ mild and moderate level of infiltration among localized and metastatic PNETs. Mild infiltration level is defined as < 5% among tumor cells, whereas moderate infiltration is defined as 5%–50% expression among tumor cells (35, 36). Metastatic PNETs had higher percentage of moderate infiltration of CD3+ and CD8+ T cells than localized tumors, which were associated more with a mild level of infiltration. P values were determined by Fisher’s exact test. (C) Degree (%) of CCL5+ T cell infiltration among localized and metastatic tumors (left) and among those with either mild or moderate T cell infiltration (right). Tumors with moderate T cell infiltration had higher CCL5 expression than those with mild infiltration, although statistical significance was marginally different (P = 0.058). (D) Scatterplots showing the range of associations (R) of CCL5 versus CD3 expression (top) and CCR5 versus CD3 expression (bottom). P values were determined by Spearman’s test. (E) Development of tertiary lymphoid structures stained for CD3, CD8, and CD163 was noted in the primary tumors of metastatic lesions (n = 2). Scale bar: 50 μm.