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Secreted human glycyl-tRNA synthetase implicated in defense against ERK-activated tumorigenesis

Cited 117 time in scopus
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dc.contributor.authorM C Park-
dc.contributor.authorT Kang-
dc.contributor.authorD Jin-
dc.contributor.authorJ M Han-
dc.contributor.authorS B Kim-
dc.contributor.authorY J Park-
dc.contributor.authorK Cho-
dc.contributor.authorYoung Woo Park-
dc.contributor.authorM Guo-
dc.contributor.authorW He-
dc.contributor.authorX L Yang-
dc.contributor.authorP Schimmel-
dc.contributor.authorS Kim-
dc.date.accessioned2017-04-19T09:29:03Z-
dc.date.available2017-04-19T09:29:03Z-
dc.date.issued2012-
dc.identifier.issn0027-8424-
dc.identifier.uri10.1073/pnas.1200194109ko
dc.identifier.urihttps://oak.kribb.re.kr/handle/201005/10636-
dc.description.abstractAlthough adaptive systems of immunity against tumor initiation and destruction are well investigated, less understood is the role, if any, of endogenous factors that have conventional functions. Here we show that glycyl-tRNA synthetase (GRS), an essential component of the translation apparatus, circulates in serum and can be secreted from macrophages in response to Fas ligand that is released from tumor cells. Through cadherin (CDH)6 (K-cadherin), GRS bound to different ERK-activated tumor cells, and released phosphatase 2A (PP2A) from CDH6. The activated PP2A then suppressed ERK signaling through dephosphorylation of ERK and induced apoptosis. These activities were inhibited by blocking GRS with a soluble fragment of CDH6. With in vivo administration of GRS, growth of tumors with a high level of CDH6 and ERK activation were strongly suppressed. Our results implicate a conventional cytoplasmic enzyme in translation as an intrinsic component of the defense against ERK-activated tumor formation.-
dc.publisherNatl Acad Sciences-
dc.titleSecreted human glycyl-tRNA synthetase implicated in defense against ERK-activated tumorigenesis-
dc.title.alternativeSecreted human glycyl-tRNA synthetase implicated in defense against ERK-activated tumorigenesis-
dc.typeArticle-
dc.citation.titleProceedings of National Academy of Sciences of United States of America-
dc.citation.number11-
dc.citation.endPageE647-
dc.citation.startPageE640-
dc.citation.volume109-
dc.contributor.affiliatedAuthorYoung Woo Park-
dc.contributor.alternativeName박민철-
dc.contributor.alternativeName강태희-
dc.contributor.alternativeName진다-
dc.contributor.alternativeName한정민-
dc.contributor.alternativeName김상범-
dc.contributor.alternativeName박윤정-
dc.contributor.alternativeName조기원-
dc.contributor.alternativeName박영우-
dc.contributor.alternativeNameGuo-
dc.contributor.alternativeNameHe-
dc.contributor.alternativeNameYang-
dc.contributor.alternativeNameSchimmel-
dc.contributor.alternativeName김성훈-
dc.identifier.bibliographicCitationProceedings of National Academy of Sciences of United States of America, vol. 109, no. 11, pp. E640-E647-
dc.identifier.doi10.1073/pnas.1200194109-
dc.subject.keywordCancer microenvironment-
dc.subject.keywordCytokine-
dc.subject.keywordImmune surveillance-
dc.subject.keywordProapoptotic effect-
dc.subject.localCancer microenvironment-
dc.subject.localcytokine-
dc.subject.localCytokines-
dc.subject.localCytokine-
dc.subject.localImmune surveillance-
dc.subject.localProapoptotic effect-
dc.description.journalClassY-
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