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Induction of GD3/α1-adrenergic receptor/transglutaminase 2-mediated erythroid differentiation in chronic myelogenous leukemic K562 cells.
Ha, Sun-Hyung; Kang, Sung-Koo; Choi, Hyunju; Kwak, Choong-Hwan; Abekura, Fukushi; Park, Jun-Young; Kwon, Kyung-Min; Chang, Hyeun-Wook; Lee, Young-Choon; Ha, Ki-Tae; Hou, Bo Kyeng; Chung, Tae-Wook; Kim, Cheorl-Ho.
Afiliação
  • Ha SH; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Kang SK; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Choi H; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Kwak CH; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Abekura F; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Park JY; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Kwon KM; Molecular and Cellular Glycobiology Unit, Department of Biological Sciences, SungKyunKwan University, Seoburo, Jangan-Gu, Kyunggi-Do, Korea.
  • Chang HW; Research Institute, Davinch-K Co., Ltd., Geumcheon-gu, Seoul, Korea.
  • Lee YC; College of Pharmacy, Yeungnam University, Gyeongsan, Korea.
  • Ha KT; Faculty of Medicinal Biotechnology, Dong-A University, Busan, Korea.
  • Hou BK; Division of Applied Medicine, School of Korean Medicine, Pusan National University, Yangsan City, Gyeongsangnam-Do, Korea.
  • Chung TW; Korean Bioinformation Center, Korea Research Institute of Bioscience and Biotechnology, Daejeon, Korea.
  • Kim CH; Division of Applied Medicine, School of Korean Medicine, Pusan National University, Yangsan City, Gyeongsangnam-Do, Korea.
Oncotarget ; 8(42): 72205-72219, 2017 Sep 22.
Article em En | MEDLINE | ID: mdl-29069780
The disialic acid-containing glycosphingolipid GD3 recruited membrane transglutaminase 2 (TG2) as a signaling molecule for erythroid differentiation in human chronic myelogenous leukemia (CML) K562 cells. The α1-adrenergic receptor (α1-AR)/TG2-mediated signaling pathway regulated GD3 functions, including gene expression and production, to differentiate CML K562 cells into erythroid lineage cells. Epinephrine, an AR agonist, increased membrane recruitment as well as GTP-photoaffinity of TG2, inducing GD3 synthase gene expression. Epinephrine activated PI3K/Akt signaling and GTPase downstream of TG2 activated Akt. The coupling of TG2 and GD3 production was specifically suppressed by prazosin (α1-AR antagonist), but not by propranolol (ß-AR antagonist) or rauwolscine (α2-AR antagonist), indicating α1-AR specificity. Small interfering RNA (siRNA) experiment results indicated that the α1-AR/TG2-mediated signaling pathway activated PKCs α and δ to induce GD3 synthase gene expression. Transcription factors CREB, AP-1, and NF-κB regulated GD3 synthase gene expression during α1-AR-induced differentiation in CML K562 cells. In addition, GD3 synthase gene expression was upregulated in TG2-transfected cells via α1-AR with expression of erythroid lineage markers and benzidine-positive staining. α1-AR/TG2 signaling pathway-directed GD3 production is a crucial step in erythroid differentiation of K562 cells and GD3 interacts with α1-AR/TG2, inducing GD3/α1-AR/TG2-mediated erythroid differentiation. These results suggest that GD3, which acts as a membrane mediator of erythroid differentiation in CML cells, provides a therapeutic avenue for leukemia treatment.
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Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2017 Tipo de documento: Article

Texto completo: 1 Base de dados: MEDLINE Idioma: En Ano de publicação: 2017 Tipo de documento: Article