Metabolic landscape of the healthy pancreas and pancreatic tumor microenvironment
Monica E. Bonilla, Megan D. Radyk, Matthew D. Perricone, Ahmed M. Elhossiny, Alexis C. Harold, Paola I. Medina-Cabrera, Padma Kadiyala, Jiaqi Shi, Timothy L. Frankel, Eileen S. Carpenter, Michael D. Green, Cristina Mitrea, Costas A. Lyssiotis, Marina Pasca di Magliano
Monica E. Bonilla, Megan D. Radyk, Matthew D. Perricone, Ahmed M. Elhossiny, Alexis C. Harold, Paola I. Medina-Cabrera, Padma Kadiyala, Jiaqi Shi, Timothy L. Frankel, Eileen S. Carpenter, Michael D. Green, Cristina Mitrea, Costas A. Lyssiotis, Marina Pasca di Magliano
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Research Article Oncology

Metabolic landscape of the healthy pancreas and pancreatic tumor microenvironment

Abstract

Pancreatic cancer, one of the deadliest human malignancies, is characterized by a fibro-inflammatory tumor microenvironment and wide array of metabolic alterations. To comprehensively map metabolism in a cell type–specific manner, we harnessed a unique single-cell RNA-sequencing dataset of normal human pancreata. This was compared with human pancreatic cancer samples using a computational pipeline optimized for this study. In the cancer cells we observed enhanced biosynthetic programs. We identified downregulation of mitochondrial programs in several immune populations, relative to their normal counterparts in healthy pancreas. Although granulocytes, B cells, and CD8+ T cells all downregulated oxidative phosphorylation, the mechanisms by which this occurred were cell type specific. In fact, the expression pattern of the electron transport chain complexes was sufficient to identify immune cell types without the use of lineage markers. We also observed changes in tumor-associated macrophage (TAM) lipid metabolism, with increased expression of enzymes mediating unsaturated fatty acid synthesis and upregulation in cholesterol export. Concurrently, cancer cells exhibited upregulation of lipid/cholesterol receptor import. We thus identified a potential crosstalk whereby TAMs provide cholesterol to cancer cells. We suggest that this may be a new mechanism boosting cancer cell growth and a therapeutic target in the future.

Authors

Monica E. Bonilla, Megan D. Radyk, Matthew D. Perricone, Ahmed M. Elhossiny, Alexis C. Harold, Paola I. Medina-Cabrera, Padma Kadiyala, Jiaqi Shi, Timothy L. Frankel, Eileen S. Carpenter, Michael D. Green, Cristina Mitrea, Costas A. Lyssiotis, Marina Pasca di Magliano

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Figure 6

Metabolic cellular crosstalk between epithelial cells and TAMs.

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Metabolic cellular crosstalk between epithelial cells and TAMs. (A) Viol...
(A) Violin plots showing ABCG1 is significantly upregulated in TAMs, and LDLR is significantly upregulated in tumor-derived epithelial cells. (B) Schematic of TAMs increasing ABCG1 (cholesterol exporter) expression. Cancer cells increase expression of a corresponding lipid/cholesterol receptor LDLR. (C) Transcription factor analysis showing SREBF2 regulon activity score is increased in tumor-derived epithelial cells. (D) Western blot, where protein expression of ABCG1 is 1.7 times higher in murine bone marrow–derived monocytes treated with TCM compared with control condition with M-CSF. (E) Immunofluorescence of CD163 (green), ABCG1 (red), and DAPI (blue) in healthy human pancreas and PDA. (F) Immunofluorescence of LDLR (green), panCK (red), and DAPI (blue) in healthy human pancreas and PDA. Immunofluorescence from E and F is representative of 3 healthy individuals and 3 individuals with PDA, with staining performed twice per sample. For the low-magnification images, the scale bar is 50 μm, and for the zoomed insets, the scale bar is 25 μm.