Stromal architecture directs early dissemination in pancreatic ductal adenocarcinoma
Arja Ray, Mackenzie K. Callaway, Nelson J. Rodríguez-Merced, Alexandra L. Crampton, Marjorie Carlson, Kenneth B. Emme, Ethan A. Ensminger, Alexander A. Kinne, Jonathan H. Schrope, Haley R. Rasmussen, Hong Jiang, David G. DeNardo, David K. Wood, Paolo P. Provenzano
Arja Ray, Mackenzie K. Callaway, Nelson J. Rodríguez-Merced, Alexandra L. Crampton, Marjorie Carlson, Kenneth B. Emme, Ethan A. Ensminger, Alexander A. Kinne, Jonathan H. Schrope, Haley R. Rasmussen, Hong Jiang, David G. DeNardo, David K. Wood, Paolo P. Provenzano
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Research Article Cell biology Oncology

Stromal architecture directs early dissemination in pancreatic ductal adenocarcinoma

Abstract

Pancreatic ductal adenocarcinoma (PDA) is an extremely metastatic and lethal disease. Here, in both murine and human PDA, we demonstrate that extracellular matrix architecture regulates cell extrusion and subsequent invasion from intact ductal structures through tumor-associated collagen signatures (TACS). This results in early dissemination from histologically premalignant lesions and continual invasion from well-differentiated disease, and it suggests TACS as a biomarker to aid in the pathologic assessment of early disease. Furthermore, we show that pancreatitis results in invasion-conducive architectures, thus priming the stroma prior to malignant disease. Analysis in potentially novel microfluidic-derived microtissues and in vivo demonstrates decreased extrusion and invasion following focal adhesion kinase (FAK) inhibition, consistent with decreased metastasis. Thus, data suggest that targeting FAK or strategies to reengineer and normalize tumor microenvironments may have roles not only in very early disease, but also for limiting continued dissemination from unresectable disease. Likewise, it may be beneficial to employ stroma-targeting strategies to resolve precursor diseases such as pancreatitis in order to remove stromal architectures that increase risk for early dissemination.

Authors

Arja Ray, Mackenzie K. Callaway, Nelson J. Rodríguez-Merced, Alexandra L. Crampton, Marjorie Carlson, Kenneth B. Emme, Ethan A. Ensminger, Alexander A. Kinne, Jonathan H. Schrope, Haley R. Rasmussen, Hong Jiang, David G. DeNardo, David K. Wood, Paolo P. Provenzano

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Figure 2

PDA cell extrusion into periductal collagen architectures.

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PDA cell extrusion into periductal collagen architectures. (A and B) Sch...
(A and B) Schematic (top left boxes) and micrographs of partial extrusion of carcinoma cells in KPCT/KPCG tumor sections into (A) TACS-2 and (B) TACS-3 in the periductal stroma. Magnified images (yellow boxes) show either all channels (bottom left) or without SHG (insets). Yellow arrowhead (B) points to another fully extruded, aligned cell. (C and D) Frequency of partial cell extrusion in (C) PanIN and (D) well-differentiated PDA (WD-PDA) associated with parallel TACS-2 (II) or perpendicular TACS-3; data are mean ± SD; n = 27 (C) and 14 (D) FOVs; *P < 0.05 by Mann-Whitney U test. (E) Partial extrusion in human well-differentiated (WD) PDA samples. Magnified images (yellow box) show either all channels (bottom inset) or without SHG (top inset). (FH) Typical fully extruded carcinoma cells (F and G) in PanIN and well-differentiated PDA and (H) their frequency among all extrusions; data are mean ± SD, n = 45 (PanIN) and 14 (WD-PDA); *P < 0.05 by Mann-Whitney U test. Magnified images (yellow boxes) are shown without SHG (insets) or with all channels (left). (I and J) Histogram of (I) aspect ratios and (J) diameters of fully extruded cells in mice; n = 68 cells across 12 mouse tumors. (K) Fully extruded periductal cells in human WD- PDA samples; Insets show magnified yellow box region, shown without the SHG channel; solid yellow arrowhead (K) points to another aligned, fully extruded cell, and outlined yellow arrowhead points to a rounded, nonaligned cell. (L and M) Cancer-adjacent “normal” regions from KPC mice or humans. Insets show magnified images of extruded cells marked with yellow boxes, with all channels or without SHG. (N) Collagen architecture surrounding ducts in human chronic pancreatitis (CP). (O) Frequency of TACS-2 and TACS-3 in association with ductal structures in human CP (n = 8–33 fields of view from 6 patient samples). Scale bars: 20 μm.