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      Targeting the LOX/hypoxia axis reverses many of the features that make pancreatic cancer deadly: inhibition of LOX abrogates metastasis and enhances drug efficacy

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          Abstract

          Pancreatic ductal adenocarcinoma (PDAC) is one of the leading causes of cancer-related mortality. Despite significant advances made in the treatment of other cancers, current chemotherapies offer little survival benefit in this disease. Pancreaticoduodenectomy offers patients the possibility of a cure, but most will die of recurrent or metastatic disease. Hence, preventing metastatic disease in these patients would be of significant benefit. Using principal component analysis (PCA), we identified a LOX/hypoxia signature associated with poor patient survival in resectable patients. We found that LOX expression is upregulated in metastatic tumors from Pdx1-Cre Kras G12D/+ Trp53 R172H/+ (KPC) mice and that inhibition of LOX in these mice suppressed metastasis. Mechanistically, LOX inhibition suppressed both migration and invasion of KPC cells. LOX inhibition also synergized with gemcitabine to kill tumors and significantly prolonged tumor-free survival in KPC mice with early-stage tumors. This was associated with stromal alterations, including increased vasculature and decreased fibrillar collagen, and increased infiltration of macrophages and neutrophils into tumors. Therefore, LOX inhibition is able to reverse many of the features that make PDAC inherently refractory to conventional therapies and targeting LOX could improve outcome in surgically resectable disease.

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          Most cited references35

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          Preinvasive and invasive ductal pancreatic cancer and its early detection in the mouse.

          To evaluate the role of oncogenic RAS mutations in pancreatic tumorigenesis, we directed endogenous expression of KRAS(G12D) to progenitor cells of the mouse pancreas. We find that physiological levels of Kras(G12D) induce ductal lesions that recapitulate the full spectrum of human pancreatic intraepithelial neoplasias (PanINs), putative precursors to invasive pancreatic cancer. The PanINs are highly proliferative, show evidence of histological progression, and activate signaling pathways normally quiescent in ductal epithelium, suggesting potential therapeutic and chemopreventive targets for the cognate human condition. At low frequency, these lesions also progress spontaneously to invasive and metastatic adenocarcinomas, establishing PanINs as definitive precursors to the invasive disease. Finally, mice with PanINs have an identifiable serum proteomic signature, suggesting a means of detecting the preinvasive state in patients.
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            Mutant p53 gain of function in two mouse models of Li-Fraumeni syndrome.

            The p53 tumor suppressor gene is commonly altered in human tumors, predominantly through missense mutations that result in accumulation of mutant p53 protein. These mutations may confer dominant-negative or gain-of-function properties to p53. To ascertain the physiological effects of p53 point mutation, the structural mutant p53R172H and the contact mutant p53R270H (codons 175 and 273 in humans) were engineered into the endogenous p53 locus in mice. p53R270H/+ and p53R172H/+ mice are models of Li-Fraumeni Syndrome; they developed allele-specific tumor spectra distinct from p53+/- mice. In addition, p53R270H/- and p53R172H/- mice developed novel tumors compared to p53-/- mice, including a variety of carcinomas and more frequent endothelial tumors. Dominant effects that varied by allele and function were observed in primary cells derived from p53R270H/+ and p53R172H/+ mice. These results demonstrate that point mutant p53 alleles expressed under physiological control have enhanced oncogenic potential beyond the simple loss of p53 function.
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              Chronic pancreatitis is essential for induction of pancreatic ductal adenocarcinoma by K-Ras oncogenes in adult mice.

              Pancreatic ductal adenocarcinoma (PDA), one of the deadliest human cancers, often involves somatic activation of K-Ras oncogenes. We report that selective expression of an endogenous K-Ras(G12V) oncogene in embryonic cells of acinar/centroacinar lineage results in pancreatic intraepithelial neoplasias (PanINs) and invasive PDA, suggesting that PDA originates by differentiation of acinar/centroacinar cells or their precursors into ductal-like cells. Surprisingly, adult mice become refractory to K-Ras(G12V)-induced PanINs and PDA. However, if these mice are challenged with a mild form of chronic pancreatitis, they develop the full spectrum of PanINs and invasive PDA. These observations suggest that, during adulthood, PDA stems from a combination of genetic (e.g., somatic K-Ras mutations) and nongenetic (e.g., tissue damage) events.
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                Author and article information

                Journal
                EMBO Mol Med
                EMBO Mol Med
                emmm
                EMBO Molecular Medicine
                John Wiley & Sons, Ltd (Chichester, UK )
                1757-4676
                1757-4684
                August 2015
                15 June 2015
                : 7
                : 8
                : 1063-1076
                Affiliations
                [1 ]Cancer Research UK Beatson Institute, Garscube Estate Glasgow, UK
                [2 ]The Garvan Institute of Medical Research Sydney, NSW, Australia
                [3 ]Cancer Research UK Manchester Institute Withington, Manchester, UK
                [4 ]West of Scotland Pancreatic Unit, Glasgow Royal Infirmary Glasgow, UK
                [5 ]Institute of Cancer Sciences, University of Glasgow, Garscube Estate Glasgow, UK
                [6 ]Institute of Cancer Research London, UK
                [7 ]Biotech Research & Innovation Centre (BRIC), University of Copenhagen Copenhagen (UCPH), Denmark
                Author notes
                * Corresponding author. Tel: +45 3532 5666; Fax: +45 3532 5669; E-mail: janine.erler@ 123456bric.ku.dk
                ** Corresponding author. Tel: +44 141 330 3656; Fax: +44 141 942 6521; E-mail: o.sansom@ 123456beatson.gla.ac.uk

                Subject Categories Cancer; Digestive System

                [†]

                These authors contributed equally to this work

                Article
                10.15252/emmm.201404827
                4551344
                26077591
                c1e2455e-fba6-4a45-aff5-d0a4da664209
                © 2015 Cancer Research UK Beatson Institute. Published under the terms of the CC BY 4.0 license

                This is an open access article under the terms of the Creative Commons Attribution 4.0 License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                : 09 November 2014
                : 12 May 2015
                : 21 May 2015
                Categories
                Research Articles

                Molecular medicine
                animal models of cancer,collagen cross-linking,lysyl oxidase,pancreatic cancer

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