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Tumor Biology
Published in: Tumor Biology 10/2016

Open Access 01-10-2016 | Original Article

Neutral endopeptidase (NEP) is differentially involved in biological activities and cell signaling of colon cancer cell lines derived from various stages of tumor development

Authors: Magdalena Mizerska-Kowalska, Agnieszka Bojarska-Junak, Joanna Jakubowicz-Gil, Martyna Kandefer-Szerszeń

Published in: Tumor Biology | Issue 10/2016

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Abstract

The presented studies were aimed at exploring the role of neutral endopeptidase (NEP) in the function of colon cancer cell lines LS 180 and SW 620, derived from different grades and stages of tumor development. NEP silencing by siRNA resulted in decreased viability and proliferation accompanied by increased apoptosis in both cell lines. Additionally, cell cycle arrest at the G2/M phase was observed, but only in LS 180 cells. Opposite to these results, serum-stimulated migration was increased in both cell lines. Furthermore, NEP silencing influenced the invasive activity of LS 180 and SW 620 cells in an opposite manner: while LS 180 cells showed an enhanced invasiveness, SW 620 cells exerted a reduced activity. An exploration of the activity of signaling molecules responsible for the function of tumor cells—Akt, PTEN, and FAK—after NEP silencing indicated that the endopeptidase is involved in their regulation. The increased phosphorylation level of Akt was accompanied by a decrease in PTEN in the presence of a high concentration of serum. A reduced concentration of serum did not change the phosphorylation status of Akt. Enhanced autophosphorylation of FAK was observed in LS 180 and SW 620 cells cultivated in a medium with a high concentration of serum. Taken together, these results confirm that NEP is implicated in the regulation of the survival, growth, and motile activity of colon cancer. This is also the first report which shows that NEP mediates cancer cell migration and invasiveness, but not growth and survival, through Akt/FAK signaling pathways.
Literature
1.
Carl-McGrath S, Lendeckel U, Ebert M, Röcken C. Ectopeptidases in tumor biology: a review. Histol Histopathol. 2006;21:1339–53.PubMed
2.
Maguer-Satta V, Besançon R, Bachelard-Cascales E. Concise review: neutral endopeptidase (CD10): a multifaceted environment actor in stem cells, physiological mechanisms, and cancer. Stem Cells. 2011;29:389–96.CrossRefPubMed
3.
Sumitomo M, Shen R, Walburg M, Dai J, Geng Y, Navarro D, et al. Neutral endopeptidase inhibits prostate cancer cell migration by blocking focal adhesion kinase signaling. J Clin Invest. 2000;106:1399–407.CrossRefPubMedPubMedCentral
4.
Sumitomo M, Milowsky MI, Shen R, Navarro D, Dai J, Asano T, et al. Neutral endopeptidase inhibits neuropeptide-mediated transactivation of the insulin-like growth factor receptor-AKT cell survival. Cancer Res. 2001;61:3294–8.PubMed
5.
Sumitomo M, Iwase A, Zheng R, Navarro D, Kaminetzky D, Shen R, et al. Synegry in tumor suppression by direct interaction of neutral endopeptidase with PTEN. Cancer Cell. 2004;5:67–78.CrossRefPubMed
6.
Sumitomo M, Shen R, Nanus DM, et al. Involvement of neutral endopeptidase in neoplastic progression. Biochim Biophys Acta. 1751;2005:52–9.
7.
8.
9.
Correia NC, Gírio A, Antunes I, Martins LR, Barata JT. The multiple layers of non-genetic regulation of PTEN tumour suppressor activity. Eur J Cancer. 2014;50:216–25.CrossRefPubMed
10.
11.
Semba S, Satake S, Matsushita M, Yokozaki H. Phosphatase activity of nuclear PTEN is required for CDX2-mediated intestinal differentiation of gastric carcinoma. Cancer Lett. 2009;274:143–50.CrossRefPubMed
12.
Zhao J, Guan J-L. Signal transduction by focal adhesion kinase in cancer. Cancer Metastasis Rev. 2009;28:35–49.CrossRefPubMed
13.
Kuniyasu H, Luo Y, Fujii K, Sasahira T, Moriwaka Y, Tatsumoto N, et al. CD10 enhances metastasis of colorectal cancer by abrogating the anti-tumoral affect of methionine-enkephalin in the liver. Gut. 2010;59:348–56.CrossRefPubMed
14.
Luo Y, Fujii K, Ohmori H, Sasahira T, Moriwaka Y, Isobe M, et al. Antisense phosphorothioate oligodeoxynucleic acid for CD10 suppresses liver metastasis of colorectal cancer. Pathobiology. 2009;76:267–73.CrossRefPubMed
15.
de Oliveira LA, Neto RA, Netto GJ, Sznirer M, Fernandes LC, de Oliveira LF, et al. Tissue expression of CD10 protein in colorectal carcinoma: correlation with the anatomopathological features of the tumor and with lymph node and liver metastases. J Coloproctol. 2012;32:34–9.CrossRef
16.
Sato Y, Itoh F, Hinoda Y, Ohe Y, Nakagawa N, Ueda R, et al. Expression of CD10/neutral endopeptidase in normal and malignant tissues of the human stomach and colon. J Gastroenterol. 1996;31:12–7.CrossRefPubMed
17.
Ogawa H, Iwaya K, Izumi M, Kuroda M, Serizawa H, Koyanagi Y, et al. Expression of CD10 by stromal cells during colorectal tumor development. Hum Pathol. 2002;33:806–11.CrossRefPubMed
18.
Fujimoto Y, Nakanishi Y, Sekine S, Yoshimura K, Akasu T, Moriya Y, et al. CD10 expression in colorectal carcinoma correlates with liver metastasis. Dis Colon Rectum. 2005;48:1883–9.CrossRefPubMed
19.
Oshima T, Kawasaki T, Ohashi R, Hasegawa G, Shuying J, Hajime U, et al. Downregulated P1 promoter-driven hepatocyte nuclear-4 alfa expression in human colorectal carcinoma is a new prognostic factor against liver metastasis. Pathol Int. 2007;57:82–90.CrossRefPubMed
20.
Fujita S, Yamamoto S, Akasu T, Moriya Y, Taniguchi H, Shimoda T. Quantification of CD10 mRNA in colorectal cancer and relationship between mRNA expression and liver metastasis. Anticancer Res. 2007;27:3307–11.PubMed
21.
Yao T, Takata M, Tustsumi S, Nishiyama K, Taguchi K, Nagai E, et al. Phenotypic expression of gastrointestinal differentiation markers in colorectal adenocarcinomas with liver metastasis. Pathology. 2002;34:556–60.CrossRefPubMed
22.
Heffler M, Golubovskaya VM, Dunn KM, Cance W. Focal adhesion kinase autophosphorylation inhibition decreases colon cancer cell growth and enhances the efficacy of chemotherapy. Cancer Biol Ther. 2013;14:761–72.CrossRefPubMedPubMedCentral
23.
Langlois MJ, Bergeron S, Bernatchez G, Boudreau F, Saucier C, Perreault N, et al. The PTEN phosphatase controls intestinal epithelial cell polarity and barrier function: role in colorectal cancer progression. PLoS One. 2010;23:e15742.CrossRef
24.
Khaleghpour K, Li Y, Banville D, Yu Z, Shen SH. Involvement of the PI 3-kinase signaling pathway in progression of colon adenocarcinoma. Carcinogenesis. 2004;25:241–8.CrossRefPubMed
25.
Roy HK, Olusola BF, Clemens DL, Karolski WJ, Ratashak A, Lynch HT, et al. AKT proto-oncogene overexpression is an early event during sporadic colon carcinogenesis. Carcinogenesis. 2002;23:201–5.CrossRefPubMed
26.
Ma J, Sawai H, Matsuo Y, Yasuda A, Ochi N, Takahashi H, et al. IGF-1 and PTEN regulate the proliferation and invasiveness of colon cancer cells through opposite effects on PI3K/Akt signaling. Arch Ned Sci. 2009;2:195–206.
27.
Subramaniam V, Vincent IR, Gardner H, Chan E, Dhamko H, Jothy S. CD44 regulates cell migration in human colon cancer cells via Lyn kinase and AKT phosphorylation. Exp Mol Pathol. 2007;83:207–15.CrossRefPubMed
28.
Turecková J, Vojtechová M, Krausová M, Sloncová E, Korínek V. Focal adhesion kinase functions as an akt downstream target in migration of colorectal cancer cells. Transl Oncol. 2009;2:281–90.CrossRefPubMedPubMedCentral
29.
Jang TJ, Park JB, Lee JI. The expression of CD10 and CD15 is progressively increased during colorectal cancer development. Korean J Pathol. 2013;47:340–7.CrossRefPubMedPubMedCentral
30.
Vazquez F, Ramaswamy S, Nakamura N, Sellers WR. Phosphorylation of the PTEN tail regulates protein stability and function. Mol Cell Biol. 2000;20:5010–8.CrossRefPubMedPubMedCentral
31.
Golubovskaya VM, Gross S, Kaur AS, Wilson RI, Xu LH, Yang XH, et al. Simultaneous inhibition of focal adhesion kinase and SRC enhances detachment and apoptosis in colon cancer cell lines. Mol Cancer Res. 2003;1:755–64.PubMed
32.
Cai X, Lietha D, Ceccarelli DF, Karginov AV, Rajfur Z, Jacobson K, et al. Spatial and temporal regulation of focal adhesion kinase activity in living cells. Mol Cell Biol. 2008;28:201–14.CrossRefPubMed
33.
Schlaepfer DD, Hanks SK, Hunter T, van der Geer P. Integrin-mediated signal transduction linked to Ras pathway by GRB2 binding to focal adhesion kinase. Nature. 1994;372:786–91.CrossRefPubMed
34.
Junttila MR, Li SP, Westermarck J. Phosphatase-mediated crosstalk between MAPK signaling pathways in the regulation of cell survival. FASEB J. 2008;22:954–65.CrossRefPubMed
35.
Thornton TM, Rincon M. Non-classical p38 map kinase functions: cell cycle checkpoints and survival. Int J Biol Sci. 2009;5:44–51.CrossRefPubMed
Metadata
Title
Neutral endopeptidase (NEP) is differentially involved in biological activities and cell signaling of colon cancer cell lines derived from various stages of tumor development
Authors
Magdalena Mizerska-Kowalska
Agnieszka Bojarska-Junak
Joanna Jakubowicz-Gil
Martyna Kandefer-Szerszeń
Publication date
01-10-2016
Publisher
Springer Netherlands
Published in
Tumor Biology / Issue 10/2016
Print ISSN: 1010-4283
Electronic ISSN: 1423-0380
DOI
https://doi.org/10.1007/s13277-016-5248-y

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