DDR1-induced neutrophil extracellular traps drive pancreatic cancer metastasis
Jenying Deng, Yaan Kang, Chien-Chia Cheng, Xinqun Li, Bingbing Dai, Matthew H. Katz, Taoyan Men, Michael P. Kim, Eugene A. Koay, Huocong Huang, Rolf A. Brekken, Jason B. Fleming
Jenying Deng, Yaan Kang, Chien-Chia Cheng, Xinqun Li, Bingbing Dai, Matthew H. Katz, Taoyan Men, Michael P. Kim, Eugene A. Koay, Huocong Huang, Rolf A. Brekken, Jason B. Fleming
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Research Article Oncology

DDR1-induced neutrophil extracellular traps drive pancreatic cancer metastasis

Abstract

Pancreatic ductal adenocarcinoma (PDAC) tumors are characterized by a desmoplastic reaction resulting in dense deposition of collagen that is known to promote cancer progression. A central mediator of protumorigenic collagen signaling is the receptor tyrosine kinase discoid domain receptor 1 (DDR1). DDR1 is a critical driver of a mesenchymal and invasive cancer cell PDAC phenotype. Previous studies have demonstrated that genetic or pharmacologic inhibition of DDR1 reduces PDAC tumorigenesis and metastasis. Here, we investigated whether DDR1 signaling has cancer cell nonautonomous effects that promote PDAC progression and metastasis. We demonstrate that collagen-induced DDR1 activation in cancer cells is a major stimulus for CXCL5 production, resulting in the recruitment of tumor-associated neutrophils (TANs), the formation of neutrophil extracellular traps (NETs), and subsequent cancer cell invasion and metastasis. Moreover, we have identified that collagen-induced CXCL5 production was mediated by a DDR1/PKCθ/SYK/NF-κB signaling cascade. Together, these results highlight the critical contribution of the collagen I–DDR1 interaction in the formation of an immune microenvironment that promotes PDAC metastasis.

Authors

Jenying Deng, Yaan Kang, Chien-Chia Cheng, Xinqun Li, Bingbing Dai, Matthew H. Katz, Taoyan Men, Michael P. Kim, Eugene A. Koay, Huocong Huang, Rolf A. Brekken, Jason B. Fleming

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Figure 10

7rh treatment reduced NET formation through inhibition of the DDR1/PKCθ/SYK/CXCL5 axis and reduced cancer metastasis.

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7rh treatment reduced NET formation through inhibition of the DDR1/PKCθ/...
(A and B) MDA-PATC 148 cells were pretreated with 7rh for 30 minutes and then with collagen I for 3 hours. (A) Phospho-NF-κB P65, phospho-PKCθ, and phospho-SYK were analyzed by western blotting. (B) CXCL5 levels were analyzed by ELISA. Data are mean ± SD. n = 4, 3 independent experiments; 1-way ANOVA with Sidak post hoc testing. *P < 0.05; ***P < 0.001. (CE) Human neutrophils were cocultured with MDA-PATC 148 and BxPC-3 cells by Matrigel transwell chamber for 18 hours. (C) NET structures were analyzed by immunofluorescence staining using DAPI (blue), anti-NE (red), and anti–histone H3 (green) mAbs. Scale bar: 50 μm. (D) The NET quantification is displayed as NET histone area (μm2) per field, 6 fields per group. Data are mean ± SD. n = 6, 3 independent experiments; 1-way ANOVA with Sidak post hoc testing. ***P < 0.001. (E) Cit-histone H3 expression were analyzed by western blotting. (F and G) Mice were orthotopically injected with MDA-PATC 148 cells, with or without 3 mg/kg 7rh treatment for 9 weeks. (F) Liver metastasis was detected by immunofluorescence staining using DAPI (blue) and anti-CK19 (red) mAbs in liver section. Scale bar: 50 μm. The metastasis quantification is displayed as CK-19 positive signals/per x20 field, 6 fields per group. (G) Neutrophils infiltration was detected by immunofluorescence staining using DAPI (blue), anti-CK19 (red), and anti-Ly6G (green) mAbs in pancreas section. Scale bar: 50 μm. The Neutrophils infiltration quantification is displayed as Ly6G positive signals per x20 field, 6 fields per group. Data are mean ± SD. n = 5, unpaired 2-tailed Student’s t test. ***P < 0.001.