FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2414043516> ?p ?o ?g. }

• W2414043516 endingPage "43923" @default.
• W2414043516 startingPage "43907" @default.
• W2414043516 abstract "// Anne-Maria Pajari 1, 2 , Essi Päivärinta 1 , Lassi Paavolainen 3 , Elina Vaara 1 , Tuuli Koivumäki 4 , Ritu Garg 5 , Anu Heiman-Lindh 1 , Marja Mutanen 1 , Varpu Marjomäki 3 , Anne J. Ridley 2, 5 1 Department of Food and Environmental Sciences, Division of Nutrition, University of Helsinki, Helsinki, Finland 2 University College London, Ludwig Institute for Cancer Research, London, UK 3 Department of Biological and Environmental Science / Nanoscience Center, University of Jyväskylä, Jyväskylä, Finland 4 Department of Food and Environmental Sciences, Division of Food Chemistry, University of Helsinki, Helsinki, Finland 5 Randall Division of Cell & Molecular Biophysics, King’s College London, New Hunt’s House, Guy’s Campus, London, UK Correspondence to: Anne-Maria Pajari, email: anne-maria.pajari@helsinki.fi Anne J. Ridley, email: anne.ridley@kcl.ac.uk Keywords: colorectal cancer, cell migration, Met receptor, ellagitannins, Min mouse Received: November 06, 2015     Accepted: May 16, 2016     Published: May 30, 2016 ABSTRACT Berries have been found to inhibit colon carcinogenesis in animal models, and thus represent a potential source of compounds for prevention and treatment of colorectal cancer. The mechanistic basis for their effects is not well understood. We used human colon carcinoma cells and Min mice to investigate the effects of ellagitannin-rich cloudberry (Rubus chamaemorus) extract on cancer cell migration and underlying cell signaling. Intrinsic and hepatocyte growth factor (HGF) -induced cell motility in human HT29 and HCA7 colon carcinoma cells was assessed carrying out cell scattering and scratch wound healing assays using time-lapse microscopy. Activation of Met, AKT, and ERK in cell lines and tumors of cloudberry-fed Min mice were determined using immunoprecipitation, Western blot and immunohistochemical analyses. Cloudberry extract significantly inhibited particularly HGF-induced cancer cell migration in both cell lines. Cloudberry extract inhibited the Met receptor tyrosine phosphorylation by HGF and strongly suppressed HGF-induced AKT and ERK activation in both HT29 and HCA7 cells. Consistently, cloudberry feeding (10% w/w freeze-dried berries in diet for 10 weeks) reduced the level of active AKT and prevented phosphoMet localization at the edges in tumors of Min mice. These results indicate that cloudberry reduces tumor growth and cancer cell motility by inhibiting Met signaling and consequent activation of phosphatidylinositol 3-kinase/AKT in vitro and in tumors in vivo . As the Met receptor is recognized to be a major target in cancer treatment, our results suggest that dietary phytochemicals may have therapeutic value in reducing cancer progression and metastasis." @default.
• W2414043516 created "2016-06-24" @default.
• W2414043516 creator A5017962142 @default.
• W2414043516 creator A5040816608 @default.
• W2414043516 creator A5048617420 @default.
• W2414043516 creator A5052293314 @default.
• W2414043516 creator A5054534903 @default.
• W2414043516 creator A5054756285 @default.
• W2414043516 creator A5073906482 @default.
• W2414043516 creator A5073997824 @default.
• W2414043516 creator A5077944041 @default.
• W2414043516 creator A5084648319 @default.
• W2414043516 date "2016-05-30" @default.
• W2414043516 modified "2023-10-03" @default.
• W2414043516 title "Ellagitannin-rich cloudberry inhibits hepatocyte growth factor induced cell migration and phosphatidylinositol 3-kinase/AKT activation in colon carcinoma cells and tumors in Min mice" @default.
• W2414043516 cites W1512572814 @default.
• W2414043516 cites W1536740149 @default.
• W2414043516 cites W1985995844 @default.
• W2414043516 cites W1988496855 @default.
• W2414043516 cites W1992449776 @default.
• W2414043516 cites W2008245823 @default.
• W2414043516 cites W201364903 @default.
• W2414043516 cites W2018348035 @default.
• W2414043516 cites W2019032515 @default.
• W2414043516 cites W2027243245 @default.
• W2414043516 cites W2038345563 @default.
• W2414043516 cites W2039800013 @default.
• W2414043516 cites W2041099281 @default.
• W2414043516 cites W2044623277 @default.
• W2414043516 cites W2049759529 @default.
• W2414043516 cites W2052310143 @default.
• W2414043516 cites W2053086049 @default.
• W2414043516 cites W2054374072 @default.
• W2414043516 cites W2056331663 @default.
• W2414043516 cites W2074242691 @default.
• W2414043516 cites W2077577032 @default.
• W2414043516 cites W2080622529 @default.
• W2414043516 cites W2085761963 @default.
• W2414043516 cites W2087447167 @default.
• W2414043516 cites W2093208114 @default.
• W2414043516 cites W2093531978 @default.
• W2414043516 cites W2094337993 @default.
• W2414043516 cites W2101571252 @default.
• W2414043516 cites W2101778925 @default.
• W2414043516 cites W2102681375 @default.
• W2414043516 cites W2104856326 @default.
• W2414043516 cites W2117692326 @default.
• W2414043516 cites W2124972064 @default.
• W2414043516 cites W2128435800 @default.
• W2414043516 cites W2129363643 @default.
• W2414043516 cites W2131281361 @default.
• W2414043516 cites W2131579659 @default.
• W2414043516 cites W2132318907 @default.
• W2414043516 cites W2136390065 @default.
• W2414043516 cites W2147650118 @default.
• W2414043516 cites W2151005088 @default.
• W2414043516 cites W2152515299 @default.
• W2414043516 cites W2165710835 @default.
• W2414043516 cites W2166952908 @default.
• W2414043516 cites W2167854858 @default.
• W2414043516 cites W2168979417 @default.
• W2414043516 cites W2169763871 @default.
• W2414043516 cites W2170134268 @default.
• W2414043516 cites W2183064752 @default.
• W2414043516 cites W3211330693 @default.
• W2414043516 cites W90465349 @default.
• W2414043516 doi "https://doi.org/10.18632/oncotarget.9724" @default.
• W2414043516 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5190067" @default.
• W2414043516 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27270323" @default.
• W2414043516 hasPublicationYear "2016" @default.
• W2414043516 type Work @default.
• W2414043516 sameAs 2414043516 @default.
• W2414043516 citedByCount "9" @default.
• W2414043516 countsByYear W24140435162019 @default.
• W2414043516 countsByYear W24140435162021 @default.
• W2414043516 countsByYear W24140435162022 @default.
• W2414043516 countsByYear W24140435162023 @default.
• W2414043516 crossrefType "journal-article" @default.
• W2414043516 hasAuthorship W2414043516A5017962142 @default.
• W2414043516 hasAuthorship W2414043516A5040816608 @default.
• W2414043516 hasAuthorship W2414043516A5048617420 @default.
• W2414043516 hasAuthorship W2414043516A5052293314 @default.
• W2414043516 hasAuthorship W2414043516A5054534903 @default.
• W2414043516 hasAuthorship W2414043516A5054756285 @default.
• W2414043516 hasAuthorship W2414043516A5073906482 @default.
• W2414043516 hasAuthorship W2414043516A5073997824 @default.
• W2414043516 hasAuthorship W2414043516A5077944041 @default.
• W2414043516 hasAuthorship W2414043516A5084648319 @default.
• W2414043516 hasBestOaLocation W24140435161 @default.
• W2414043516 hasConcept C121608353 @default.
• W2414043516 hasConcept C126322002 @default.
• W2414043516 hasConcept C170493617 @default.
• W2414043516 hasConcept C185592680 @default.
• W2414043516 hasConcept C2778938600 @default.
• W2414043516 hasConcept C502942594 @default.
• W2414043516 hasConcept C526805850 @default.
• W2414043516 hasConcept C55493867 @default.
• W2414043516 hasConcept C62478195 @default.

• next