Reference(s)
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Category: Carcinomas
Cancer type: Breast
Descriptor: Met expression


Reference Number: 6
Edakuni, G., Sasatomi, E., Satoh, T., Tokunaga, O. & Miyazaki, K. Expression of the hepatocyte growth factor/c-Met pathway is increased at the cancer front in breast carcinoma. Pathol Int 51, 172-8. (2001).
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Reference Number: 7
Jin, L. et al. Expression of scatter factor and c-met receptor in benign and malignant breast tissue. Cancer 79, 749-60. (1997).
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Reference Number: 8
Kang, J. Y. et al. Tissue microarray analysis of hepatocyte growth factor/Met pathway components reveals a role for Met, matriptase, and hepatocyte growth factor activator inhibitor 1 in the progression of node-negative breast cancer. Cancer Res 63, 1101-5 (2003).
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Reference Number: 9
Nagy, J. et al. Hepatocyte growth factor/scatter factor expression and c-met in primary breast cancer. Surg Oncol 5, 15-21. (1996).
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Reference Number: 10
Tuck, A. B., Park, M., Sterns, E. E., Boag, A. & Elliott, B. E. Coexpression of hepatocyte growth factor and receptor (Met) in human breast carcinoma. Am J Pathol 148, 225-32 (1996).
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Reference Number: 13
Beviglia, L., Matsumoto, K., Lin, C. S., Ziober, B. L. & Kramer, R. H. Expression of the c-Met/HGF receptor in human breast carcinoma: correlation with tumor progression. Int J Cancer 74, 301-9. (1997).
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Reference Number: 14
Camp, R. L., Rimm, E. B. & Rimm, D. L. Met expression is associated with poor outcome in patients with axillary lymph node negative breast carcinoma. Cancer 86, 2259-65. (1999).
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Reference Number: 16
Tsarfaty, I. et al. Alteration of Met protooncogene product expression and prognosis in breast carcinomas. Anal Quant Cytol Histol 21, 397-408. (1999).
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Reference Number: 232
Tolgay Ocal, I, Dolled-Filhart, M, D'Aquila, TG, Camp, RL, & Rimm, DL.  Tissue microarray-based studies of patients with lymph node negative breast carcinoma show that met expression is associated with worse outcome but is not correlated with epidermal growth factor family receptors. Cancer 97:1841-8 (2003).
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Reference Number: 233
Greenberg, R, Schwartz, I, Skornick Y, & Kaplan O. Detection of hepatocyte growth factor/scatter factor receptor (c-Met) in axillary drainage after operations for breast cancer using reverse transcriptase-polymerase chain reaction. Breast Cancer Res 5:71-76 (2003).
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Reference Number: 234
Greenberg R, Barnea Y, Schneebaum S, Kashtan H, Kaplan O, Skornik Y. Detection of hepatocyte growth factor/scatter factor receptor (c-Met) and MUC1 from the axillary fluid drainage in patients after breast cancer surgery. Isr Med Assoc J 5:649-52 (2003).
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Reference Number: 237
Parr C, Watkins G, Mansel RE, Jiang WG. The hepatocyte growth factor regulatory factors in human breast cancer. Clin Cancer Res 10:202-11 (2004).
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Reference Number: 306
Lee WY, Su WC, Lin PW, Guo HR, Chang TW, Chen HH. Expression of S100A4 and Met: potential predictors for metastasis and survival in early-stage breast cancer. Oncology 66, 429-38 (2004)
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Reference Number: 307
Jones BA, Kasl SV, Howe CL, Lachman M, Dubrow R, Curnen MM, Soler-Vila H, Beeghly A, Duan F, Owens P. African-American/White differences in breast carcinoma: p53 alterations and other tumor characteristics. Cancer 101, 1293-301 (2004)
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Reference Number: 331
Lee WY, Chen HH, Chow NH, Su WC, Lin PW, Guo HR. Prognostic significance of co-expression of RON and MET receptors in node-negative breast cancer patients. Clin Cancer Res11, 2222-8 (2005)
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Reference Number: 332
Lengyel E, Prechtel D, Resau JH, Gauger K, Welk A, Lindemann K, Salanti G, Richter T, Knudsen B, Vande Woude GF, Harbeck N. C-Met overexpression in node-positive breast cancer identifies patients with poor clinical outcome independent of Her2/neu. Int J Cancer  113, 678-82 (2005)
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Reference Number: 346
Welm AL, Kim S, Welm BE, Bishop JM. MET and MYC cooperate in mammary tumorigenesis. Proc Natl Acad Sci U S A. 102, 4324-9 (2005)
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Reference Number: 358
Khoury H, Naujokas MA, Zuo D, Sangwan V, Frigault MM, Petkiewicz S, Dankort DL, Muller WJ, Park M. HGF converts ErbB2/Neu epithelial morphogenesis to cell invasion. Mol Biol Cell. 16 550-61(2005)
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Reference Number: 365
Bertotti A, Comoglio PM, Trusolino L. Beta4 integrin is a transforming molecule that unleashes Met tyrosine kinase tumorigenesis. Cancer Res. 65, 10674-9 (2005)
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Reference Number: 367
Singletary K, Ellington A. Genistein suppresses proliferation and MET oncogene expression and induces EGR-1 tumor suppressor expression in immortalized human breast epithelial cells. Anticancer Res. 26, 1039-48 (2006)
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Reference Number: 368
Smolen GA, Muir B, Mohapatra G, Barmettler A, Kim WJ, Rivera MN, Haserlat SM, Okimoto RA, Kwak E, Dahiya S, Garber JE, Bell DW, Sgroi DC, Chin L, Deng CX, Haber DA. Frequent met oncogene amplification in a Brca1/Trp53 mouse model of mammary tumorigenesis. Cancer Res. 66, 3452-5 (2006)
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Reference Number: 404
Bigelow RL, Cardelli JA. The green tea catechins, (-)-Epigallocatechin-3-gallate (EGCG) and (-)-Epicatechin-3-gallate (ECG), inhibit HGF/Met signaling in immortalized and tumorigenic breast epithelial cells. Oncogene. 25, 1922-30 (2006)
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Reference Number: 461
Chen CC, Hou MF, Wang JY, Chang TW, Lai DY, Chen YF, Hung SY, Lin SR. Simultaneous detection of multiple mRNA markers CK19, CEA, c-Met, Her2/neu and hMAM with membrane array, an innovative technique with a great potential for breast cancer diagnosis. Cancer Lett. 2005 Nov 11; [Epub ahead of print]
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Reference Number: 462
Charafe-Jauffret E, Ginestier C, Monville F, Finetti P, Adelaide J, Cervera N, Fekairi S, Xerri L, Jacquemier J, Birnbaum D, Bertucci F. Gene expression profiling of breast cell lines identifies potential new basal markers. Oncogene. 25, 2273-84 (2006)
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Reference Number: 526
Pozner-Moulis S, Cregger M, Camp RL, Rimm DL. Antibody validation by quantitative analysis of protein expression using expression of Met in breast cancer as a model. Lab Invest. 87, 251-60 (2007)
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Reference Number: 527
Götte M, Kersting C, Radke I, Kiesel L, Wülfing P. An expression signature of syndecan-1 (CD138), E-cadherin and c-met is associated with factors of angiogenesis and lymphangiogenesis in ductal breast carcinoma in situ. Breast Cancer Res. 9, R8 (2007)
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Reference Number: 534
Garcia S, Dalès JP, Jacquemier J, Charafe-Jauffret E, Birnbaum D, Andrac-Meyer L, Lavaut MN, Allasia C, Carpentier-Meunier S, Bonnier P, Charpin-Taranger C. c-Met overexpression in inflammatory breast carcinomas: automated quantification on tissue microarrays. Br J Cancer. 96, 329-35 (2007)
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Reference Number: 535
Hiscox S, Jordan NJ, Jiang W, Harper M, McClelland R, Smith C, Nicholson RI. Chronic exposure to fulvestrant promotes overexpression of the c-Met receptor in breast cancer cells: implications for tumour-stroma interactions. Endocr Relat Cancer. 13, 1085-99 (2006)
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Reference Number: 544
Matteucci E, Ridolfi E, Desiderio MA. Hepatocyte growth factor differently influences Met-E-cadherin phosphorylation and downstream signaling pathway in two models of breast cells. Cell Mol Life Sci. 63, 2016-26 (2006)
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Reference Number: 548
Chen HH, Su WC, Lin PW, Guo HR, Lee WY. Hypoxia-inducible factor-1alpha correlates with MET and metastasis in node-negative breast cancer. Breast Cancer Res Treat. 103, 167-75 (2007)
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Reference Number: 555
Lindemann K, Resau J, Nährig J, Kort E, Leeser B, Annecke K, Welk A, Schäfer J, Vande Woude GF, Lengyel E, Harbeck N. Differential expression of c-Met, its ligand HGF/SF and HER2/neu in DCIS and adjacent normal breast tissue. Histopathology. 51, 54-62 (2007)
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Reference Number: 556
Garcia S, Dalès JP, Charafe-Jauffret E, Carpentier-Meunier S, Andrac-Meyer L, Jacquemier J, Andonian C, Lavaut MN, Allasia C, Bonnier P, Charpin C. Poor prognosis in breast carcinomas correlates with increased expression of targetable CD146 and c-Met and with proteomic basal-like phenotype. Hum Pathol. 38, 830-41 (2007)
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Reference Number: 562
Cheng N, Chytil A, Shyr Y, Joly A, Moses HL. Enhanced hepatocyte growth factor signaling by type II transforming growth factor-beta receptor knockout fibroblasts promotes mammary tumorigenesis. Cancer Res. 67, 4869-77 (2007)
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Reference Number: 574
Götte M, Kersting C, Radke I, Kiesel L, Wülfing P. An expression signature of syndecan-1 (CD138), E-cadherin and c-met is associated with factors of angiogenesis and lymphangiogenesis in ductal breast carcinoma in situ. Breast Cancer Res. 9, R8 (2007)
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Reference Number: 575
Pozner-Moulis S, Pappas DJ, Rimm DL. Met, the hepatocyte growth factor receptor, localizes to the nucleus in cells at low density. Cancer Res. 66, 7976-82 (2006)
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Reference Number: 576
Garcia S, Dales JP, Charafe-Jauffret E, Carpentier-Meunier S, Andrac-Meyer L, Jacquemier J, Andonian C, Lavaut MN, Allasia C, Bonnier P, Charpin C. Overexpression of c-Met and of the transducers PI3K, FAK and JAK in breast carcinomas correlates with shorter survival and neoangiogenesis. Int J Oncol. 31, 49-58 (2007)
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Reference Number: 594
Shattuck DL, Miller JK, Laederich M, Funes M, Petersen H, Carraway KL 3rd, Sweeney C. LRIG1 is a novel negative regulator of the Met receptor and opposes Met and Her2 synergy. Mol Cell Biol. 27, 1934-46 (2007)
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Reference Number: 610
Lee WJ, Chen WK, Wang CJ, Lin WL, Tseng TH. Apigenin inhibits HGF-promoted invasive growth and metastasis involving blocking PI3K/Akt pathway and beta 4 integrin function in MDA-MB-231 breast cancer cells. Toxicol Appl Pharmacol. 226, 178-91 (2007)
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Reference Number: 614
Morozov VM, Massoll NA, Vladimirova OV, Maul GG, Ishov AM. Regulation of c-met expression by transcription repressor Daxx. Oncogene. 27, 2177-86 (2008)
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Reference Number: 619
Klosek SK, Nakashiro K, Hara S, Goda H, Hasegawa H, Hamakawa H. CD151 regulates HGF-stimulated morphogenesis of human breast cancer cells. Biochem Biophys Res Commun. 379, 1097-100 (2009)
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Reference Number: 626
Furlan A, Vercamer C, Desbiens X, Pourtier A. Ets-1 triggers and orchestrates the malignant phenotype of mammary cancer cells within their matrix environment. J Cell Physiol. 215, 782-93 (2008)
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Reference Number: 636
Leibowitz-Amit R, Tsarfaty G, Abargil Y, Yerushalmi GM, Horev J, Tsarfaty I. Mimp, a mitochondrial carrier homologue, inhibits Met-HGF/SF-induced scattering and tumorigenicity by altering Met-HGF/SF signaling pathways. Cancer Res. 66, 8687-97 (2006)
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Reference Number: 643
Xu H, Washington S, Verderame MF, Manni A. Role of non-receptor and receptor tyrosine kinases (TKs) in the antitumor action of alpha-difluoromethylornithine (DFMO) in breast cancer cells. Breast Cancer Res Treat. 112, 255-61 (2008)
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Reference Number: 649
Shattuck DL, Miller JK, Carraway KL 3rd, Sweeney C. Met receptor contributes to trastuzumab resistance of Her2-overexpressing breast cancer cells. Cancer Res. 68, 1471-7 (2008)
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Reference Number: 652
Mueller KL, Hunter LA, Ethier SP, Boerner JL. Met and c-Src cooperate to compensate for loss of epidermal growth factor receptor kinase activity in breast cancer cells. Cancer Res. 68, 3314-22 (2008)
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Reference Number: 676
Syed DN, Afaq F, Sarfaraz S, Khan N, Kedlaya R, Setaluri V, Mukhtar H. Delphinidin inhibits cell proliferation and invasion via modulation of Met receptor phosphorylation. Toxicol Appl Pharmacol. 231, 52-60 (2008)
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Reference Number: 685
Graveel CR, DeGroot JD, Su Y, Koeman J, Dykema K, Leung S, Snider J, Davies SR, Swiatek PJ, Cottingham S, Watson MA, Ellis MJ, Sigler RE, Furge KA, Vande Woude GF. Met induces diverse mammary carcinomas in mice and is associated with human basal breast cancer. Proc Natl Acad Sci U S A. 106, 12909-14 (2009)
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Reference Number: 712
Lindemann K, Harbeck N, Lengyel E, Resau JH. A special key for unlocking the door to targeted therapies of breast cancer. ScientificWorldJournal. 8, 905-8 (2008)
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Reference Number: 716
Ponzo MG, Lesurf R, Petkiewicz S, O'Malley FP, Pinnaduwage D, Andrulis IL, Bull SB, Chughtai N, Zuo D, Souleimanova M, Germain D, Omeroglu A, Cardiff RD, Hallett M, Park M. Met induces mammary tumors with diverse histologies and is associated with poor outcome and human basal breast cancer. Proc Natl Acad Sci U S A. 106, 12903-8 (2009)
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Reference Number: 804
Finkbeiner MR, Astanehe A, To K, Fotovati A, Davies AH, Zhao Y, Jiang H, Stratford AL, Shadeo A, Boccaccio C, Comoglio P, Mertens PR, Eirew P, Raouf A, Eaves CJ, Dunn SE. Profiling YB-1 target genes uncovers a new mechanism for MET receptor regulation in normal and malignant human mammary cells. Oncogene. 28, 1421-31 (2009)
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Reference Number: 805
Carracedo A, Egervari K, Salido M, Rojo F, Corominas JM, Arumi M, Corzo C, Tusquets I, Espinet B, Rovira A, Albanell J, Szollosi Z, Serrano S, Solé F. FISH and immunohistochemical status of the hepatocyte growth factor receptor (c-Met) in 184 invasive breast tumors. Breast Cancer Res. 11, 402 (2009)
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Reference Number: 839
Previdi S, Maroni P, Matteucci E, Broggini M, Bendinelli P, Desiderio MA. Interaction between human-breast cancer metastasis and bone microenvironment through activated hepatocyte growth factor/Met and beta-catenin/Wnt pathways. Eur J Cancer. 46, 1679-91 (2010)
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Reference Number: 847
Taraseviciute A, Vincent BT, Schedin P, Jones PL. Quantitative analysis of three-dimensional human mammary epithelial tissue architecture reveals a role for tenascin-C in regulating c-met function. Am J Pathol. 176, 827-38 (2010)
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Reference Number: 922
Castro NE, Lange CA. Breast tumor kinase and extracellular signal-regulated kinase 5 mediate Met receptor signaling to cell migration in breast cancer cells. Breast Cancer Res. 12, R60 (2010)
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Reference Number: 965
Zhang YW, Staal B, Essenburg C, Su Y, Kang L, West R, Kaufman D, Dekoning T, Eagleson B, Buchanan SG, Vande Woude GF. MET kinase inhibitor SGX523 synergizes with epidermal growth factor receptor inhibitor erlotinib in a hepatocyte growth factor-dependent fashion to suppress carcinoma growth. Cancer Res. 70, 6880-90 (2010)
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Reference Number: 983
Tsarfaty I, Alvord WG, Resau JH, Altstock RT, Lidereau R, Bieche I, Bertrand F, Horev J, Klabansky RL, Keydar I, Vande Woude GF. Alteration of Met protooncogene product expression and prognosis in breast carcinomas. Anal Quant Cytol Histol. 21, 397-408 (1999)
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Reference Number: 1018
Ronen D, Altstock RT, Firon M, Mittelman L, Sobe T, Resau JH, Vande Woude GF, Tsarfaty I. Met-HGF/SF mediates growth arrest and differentiation in T47D breast cancer cells. Cell Growth Differ. 10, 131-40 (1999)
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Reference Number: 1160
Xu K, Usary J, Kousis PC, Prat A, Wang DY, Adams JR, Wang W, Loch AJ, Deng T, Zhao W, Cardiff RD, Yoon K, Gaiano N, Ling V, Beyene J, Zacksenhaus E, Gridley T, Leong WL, Guidos CJ, Perou CM, Egan SE. Lunatic fringe deficiency cooperates with the Met/Caveolin gene amplicon to induce basal-like breast cancer. Cancer Cell. 21, 626-41 (2012)
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Reference Number: 1177
Cooke VG, LeBleu VS, Keskin D, Khan Z, O'Connell JT, Teng Y, Duncan MB, Xie L, Maeda G, Vong S, Sugimoto H, Rocha RM, Damascena A, Brentani RR, Kalluri R. Pericyte depletion results in hypoxia-associated epithelial-to-mesenchymal transition and metastasis mediated by met signaling pathway. Cancer Cell. 21, 66-81 (2012)
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Reference Number: 1238
Cazet A, Bobowski M, Rombouts Y, Lefebvre J, Steenackers A, Popa I, Guérardel Y, Le Bourhis X, Tulasne D, Delannoy P. The ganglioside G(D2) induces the constitutive activation of c-Met in MDA-MB-231 breast cancer cells expressing the G(D3) synthase. Glycobiology. 22, 806-16 (2012)
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Reference Number: 1243
Accornero P, Miretti S, Bersani F, Quaglino E, Martignani E, Baratta M. Met receptor acts uniquely for survival and morphogenesis of EGFR-dependent normal mammary epithelial and cancer cells. PLoS One. 7, e44982 (2012)
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Reference Number: 1267
Gastaldi S, Sassi F, Accornero P, Torti D, Galimi F, Migliardi G, Molyneux G, Perera T, Comoglio PM, Boccaccio C, Smalley MJ, Bertotti A, Trusolino L. Met signaling regulates growth, repopulating potential and basal cell-fate commitment of mammary luminal progenitors: implications for basal-like breast cancer. Oncogene. 32, 1428-40 (2013)
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Reference Number: 1432
Paulson AK1, Linklater ES, Berghuis BD, App CA, Oostendorp LD, Paulson JE, Pettinga JE, Melnik MK, Vande Woude GF, Graveel CR. MET and ERBB2 are coexpressed in ERBB2 breast cancer and contribute to innate resistance. Mol Cancer Res. 11, 1112-21 (2013)
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Reference Number: 1449
Inanc M1, Ozkan M, Karaca H, Berk V, Bozkurt O, Duran AO, Ozaslan E, Akgun H, Tekelioglu F, Elmali F. Cytokeratin 5/6, c-Met expressions, and PTEN loss prognostic indicators in triple-negative breast cancer. Med Oncol. 31, 801 (2014)
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Reference Number: 1467
Ho-Yen CM, Green AR, Rakha EA, Brentnall AR, Ellis IO, Kermorgant S, Jones JL. C-Met in invasive breast cancer: is there a relationship with the basal-like subtype? Cancer. 120, 163-71 (2014)
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Reference Number: 1522
Kim YJ, Choi JS, Seo J, Song JY, Lee SE, Kwon MJ, Kwon MJ, Kundu J, Jung K, Oh E, Shin YK, Choi YL. MET is a potential target for use in combination therapy with EGFR inhibition in triple-negative/basal-like breast cancer. Int J Cancer. 134, 2424-36 (2014)
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Reference Number: 1524
Zagouri F, Brandstetter A, Moussiolis D, Chrysikos D, Dimitrakakis C, Tsigginou A, Marinopoulos S, Zografos GC, Sergentanis TN, Dimopoulos MA, Filipits M. Low protein expression of MET in ER-positive and HER2-positive breast cancer. Anticancer Res. 34, 1227-31 (2014)
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Reference Number: 1525
Laser-Azogui A, Diamant-Levi T, Israeli S, Roytman Y, Tsarfaty I. Met-induced membrane blebbing leads to amoeboid cell motility and invasion. Oncogene. 33, 1788-98 (2014)
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Reference Number: 1542
Casbas-Hernandez P, D'Arcy M, Roman-Perez E, Brauer HA, McNaughton K, Miller SM, Chhetri RK, Oldenburg AL, Fleming JM, Amos KD, Makowski L, Troester MA. Role of HGF in epithelial-stromal cell interactions during progression from benign breast disease to ductal carcinoma in situ. Breast Cancer Res. 15, R82 (2013)
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Reference Number: 1557
Basilico C, Hultberg A, Blanchetot C, de Jonge N, Festjens E, Hanssens V, Osepa SI, De Boeck G, Mira A, Cazzanti M, Morello V, Dreier T, Saunders M, de Haard H, Michieli P. Four individually druggable MET hotspots mediate HGF-driven tumor progression. J Clin Invest. 124, 3172-86 (2014)
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Reference Number: 1601
Feng Y, Pan TC, Pant DK, Chakrabarti KR, Alvarez JV, Ruth JR, Chodosh LA. SPSB1 promotes breast cancer recurrence by potentiating c-MET signaling. Cancer Discov. 4, 790-803 (2014)
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Reference Number: 1630
Eterno V, Zambelli A, Pavesi L, Villani L, Zanini V, Petrolo G, Manera S, Tuscano A, Amato A. Adipose-derived Mesenchymal Stem Cells (ASCs) may favour breast cancer recurrence via HGF/c-Met signaling. Oncotarget. 5, 613-33 (2014)
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Reference Number: 1659
Zhang S, Chung WC, Miele L, Xu K. Targeting Met and Notch in the Lfng-deficient, Met-amplified triple-negative breast cancer. Cancer Biol Ther. 15, 633-42 (2014)
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Reference Number: 1661
Koh YW, Lee HJ, Ahn JH, Lee JW, Gong G. MET expression is associated with disease-specific survival in breast cancer patients in the neoadjuvant setting. Pathol Res Pract. 210, 494-500 (2014)
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Reference Number: 1668
Gao Y, Zeng F, Wu JY, Li HY, Fan JJ, Mai L, Zhang J, Ma DM, Li Y, Song FZ. MiR-335 inhibits migration of breast cancer cells through targeting oncoprotein c-Met. Tumour Biol. 36, 2875-83 (2015)
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Reference Number: 1682
Baccelli I, Stenzinger A, Vogel V, Pfitzner BM, Klein C, Wallwiener M, Scharpff M, Saini M, Holland-Letz T, Sinn HP, Schneeweiss A, Denkert C, Weichert W, Trumpp A. Co-expression of MET and CD47 is a novel prognosticator for survival of luminal breast cancer patients. Oncotarget. 5, 8147-60 (2014)
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Reference Number: 1683
Mueller KL, Madden JM, Zoratti GL, Kuperwasser C, List K, Boerner JL. Fibroblast-secreted hepatocyte growth factor mediates epidermal growth factor receptor tyrosine kinase inhibitor resistance in triple-negative breast cancers through paracrine activation of Met. Breast Cancer Res. 14, R104 (2012)
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Reference Number: 1694
Sasi W, Ye L, Jiang WG, Sharma AK, Mokbel K. In vitro and in vivo effects of suppressor of cytokine signalling 7 knockdown in breast cancer: the influence on cellular response to hepatocyte growth factor. Biomed Res Int. 648040 (2014)
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Reference Number: 1732
Akl MR, Ayoub NM, Ebrahim HY, Mohyeldin MM, Orabi KY, Foudah AI, El Sayed KA Araguspongine C induces autophagic death in breast cancer cells through suppression of c-Met and HER2 receptor tyrosine kinase signaling. Mar Drugs. 13, 288-311 (2015)
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Reference Number: 1752
Sarkar TR, Battula VL, Werden SJ, Vijay GV, Ramirez-Peña EQ, Taube JH, Chang JT, Miura N, Porter W, Sphyris N, Andreeff M, Mani SA. GD3 synthase regulates epithelial-mesenchymal transition and metastasis in breast cancer. Oncogene. 34, 2958-67 (2015)
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Reference Number: 1847
Sueta A, Yamamoto Y, Yamamoto-Ibusuki M, Hayashi M, Takeshita T, Yamamoto S, Omoto Y, Iwase H. Differential role of MACC1 expression and its regulation of the HGF/c Met pathway between breast and colorectal cancer. Int J Oncol. 46, 2143-53 (2015)
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Reference Number: 1848
Liu S, Meric-Bernstam F, Parinyanitikul N, Wang B, Eterovic AK, Zheng X, Gagea M, Chavez-MacGregor M, Ueno NT, Lei X, Zhou W, Nair L, Tripathy D, Brown PH, Hortobagyi GN, Chen K, Mendelsohn J, Mills GB, Gonzalez-Angulo AM. Functional consequence of the MET-T1010I polymorphism in breast cancer. Oncotarget. 6, 2604-14 (2015)
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Reference Number: 1873
Yi YW, You K, Bae EJ, Kwak SJ, Seong YS, Bae I. Dual inhibition of EGFR and MET induces synthetic lethality in triple-negative breast cancer cells through downregulation of ribosomal protein S6. Int J Oncol. 47, 122-32 (2015)
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Reference Number: 1874
Yan S, Jiao X, Zou H, Li K. Prognostic significance of c-Met in breast cancer: a meta-analysis of 6010 cases. Diagn Pathol. 10, 62 (2015)
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Reference Number: 1893
Hung TH, Li YH, Tseng CP, Lan YW, Hsu SC, Chen YH, Huang TT, Lai HC, Chen CM, Choo KB, Chong KY. Knockdown of c-MET induced apoptosis in ABCB1-overexpressed multidrug-resistance cancer cell lines. Cancer Gene Ther. 22, 262-70 (2015)
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