Loss of TRPV4 reduces pancreatic cancer growth and metastasis
Joelle M.-J. Romac, Sandip M. Swain, Nidula Mullappilly, Bandana Bindhani, Rodger A. Liddle
Joelle M.-J. Romac, Sandip M. Swain, Nidula Mullappilly, Bandana Bindhani, Rodger A. Liddle
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Research Article Gastroenterology Oncology

Loss of TRPV4 reduces pancreatic cancer growth and metastasis

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a rapidly metastasizing cancer characterized by a dense desmoplastic stroma composed of extracellular matrix (ECM) proteins, which complicates treatment. Upon stimulation, pancreatic stellate cells (PSCs) differentiated into cancer-associated fibroblasts (CAFs) that are the source of ECM and cytokines in PDAC. We previously reported that mechanical stress activates PSCs and induces fibrosis through mechanical ion channel PIEZO1-mediated TRPV4 channel activation, but its role in PDAC remains unclear. Here we report that pathological activation of PIEZO1 differentiated human PSCs into an inflammatory CAF phenotype that expresses chemoresistance and cancer stemness markers CD10 and GPR77. In an orthotopic PDAC model, TRPV4-KO mice exhibited a significant reduction in tumor size, circulating inflammatory cytokines, tissue inhibitor of metalloproteinases-1 (TIMP1), and premetastatic niche markers, serum amyloid A (SAA) proteins. A similar trend was observed in mice lacking functional PIEZO1 in PSCs. The livers of TRPV4-KO mice exhibited fewer cancer cell microlesions, lacked macrotumors, produced lower levels of inflammatory protein S100A8, and developed fewer inflammatory cell clusters. In orthotopic and genetically engineered models of PDAC, these mice also had improved survival, suggesting that blocking TRPV4 channels may be a promising therapeutic target for PDAC.

Authors

Joelle M.-J. Romac, Sandip M. Swain, Nidula Mullappilly, Bandana Bindhani, Rodger A. Liddle

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Figure 7

TRPV4 is necessary for hepatic metastasis of PDAC.

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TRPV4 is necessary for hepatic metastasis of PDAC. (A) Graphical illustr...
(A) Graphical illustration of experimental design. KPC cells (100,000 cells) were injected into the pancreas, followed by injection of KPCY cells (500,000 cells) into the spleen 10 days later. (B) Representative images of immunostaining of mouse liver for Ki67 and GFP (marking KCPY cells) at low (upper panels) and high magnification (lower panels). Scale bars: 100 μm (top) and 50 μm (bottom). (C and D) Quantitative analysis of Ki67 positively stained cells and liver lesions of WT and TRPV4-KO liver. The analysis was performed on large sections of pancreatic tissues using tiling and stitching of images obtained with a Zeiss 880 Airyscan confocal microscope. Lesions were defined as an aggregate of at least 10 KPCY cells. (E and F) Representative images of immunostaining of liver sections with CD68 and quantitative analysis of CD68+ cells in liver sections from WT or TRPV4-KO mice. Scale bars: 100 μm. Statistical analyses were performed using Student’s t test. Animal number, n = 4–5. Results were expressed as mean ± SEM. *P ≤ 0.05; **P ≤ 0.01.