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FKBP-RAP-FRB系统转运BCR-ABL入核对K562细胞的增殖抑制效应 被引量:1

Inhibitory Effect on Proliferation of K562 Cells by Transporting BCR-ABL into Nucleus with FKBP-RAP-FRB System
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摘要 BCR-ABL融合蛋白是慢性粒细胞白血病(chronic myeloid leukemia,CML)发病的基础。其中,BCR-ABL只能定位于细胞浆、不能易位至细胞核是其致病的关键因素。因此,转运BCRABL入核可能是治疗CML的潜在方法。该研究利用基因重组技术,构建HA-2FKBP-ABD(HF2A)和FLAG-3NLS-FRB*(FN3R)重组腺病毒,与雷帕霉素类似物(Rapamycin analog)一同组成FKBP-RAPFRB系统,转运K562细胞胞浆中的BCR-ABL癌蛋白至细胞核,并探究其对K562细胞增殖的影响。结果显示,成功构建了高滴度的重组腺病毒,Western blot证实目的蛋白在K562细胞内成功表达。FKBP-RAP-FRB系统可通过转运BCR-ABL入核,抑制K562细胞生长和克隆形成的能力。结果揭示,FKBP-RAP-FRB系统转运BCR-ABL入核有望为CML提供新的治疗手段。 BCR-ABL fusion protein is demonstrated as the pathogenesis of chronic myeloid leukemia (CML). Failure of cytoplasmic BCR-ABL translocating into nucleus plays a key role. Therefore, transporting BCR- ABL into nucleus may be a potential therapeutic approach of CML. In this study, HA-2FKBP-ABD (HF2A) and FLAG-3NLS-FRB* (FN3R) recombinant adenovirus were constructed by recombinant DNA technology. HF2A, FN3R, and rapamycin analog constituted FKBP-RAP-FRB system, which was used to transport cytoplasmic BCR- ABL oncoprotein into nucleus. By this mean, the effect on the proliferation of K562 cells was detected. Our results showed that high titer of recombinant adenovirus were successfully constructed, and the target protein was success- fully expressed in K562 cells confirmed by Western blot. FKBP-RAP-FRB system could inhibit growth and colony formation of K562 cells by transporting BCR-ABL into nucleus. These results revealed that FKBP-RAP-FRB sys- tem transporting BCR-ABL into nucleus could provide new insights for the treatment of CML.
作者 高淼 黄峥兰 曹唯希 李千音 李会 冯文莉
机构地区 重庆医科大学临床血液学教研室
出处 《中国细胞生物学学报》 CAS CSCD 北大核心 2014年第4期470-475,共6页 Chinese Journal of Cell Biology
基金 国家自然科学基金(批准号:81070421)资助的课题~~
关键词 慢性粒细胞白血病 BCR-ABL K562细胞 重组腺病毒 chronic myeloid leukemia BCR-ABL K562 cells recombinant adenovirus
分类号 R733.72 [医药卫生—肿瘤]
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参考文献12

  • 1Klein A, Maldonado C, Vargas LM, Gonzalez M, Robledo F, Perez de Arce K, et al. Oxidative stress activates the c-Abl/p73 proapoptotic pathway in Niemann-Pick type C neurons. Neuro- biol Dis 2011; 41(1): 209-18.
  • 2Preyer M, Vigneri P, Wang JY. Interplay between kinase domain autophosphorylation and F-actin binding domain in regulating imatinib sensitivity and nuclear import of BCR-ABL. PLoS One 2011; 6(2): e17020,.
  • 3Rodriguez Camargo DC, Link NM, Dames SA. The FKBP- rapamycin binding domain of human TOR undergoes strong con- formational changes in the presence of membrane mimetics with and without the regulator phosphatidic acid. Biochemistry 2012; 51(24): 4909-21.
  • 4Stankunas K, Bayle JH, Havranek JJ, Wandless T J, Baker D, Crabtree GR, et al. Rescue of degradation-prone mutants of the FK506-rapamycin binding (FRB) protein with chemical ligands. Chembiochem 2007; 8(10): 1162-9.
  • 5Hu H, Bliss JM, Wang Y, Colicelli J. RIN1 is an ABL tyrosine kinase activator and a regulator of epithelial-cell adhesion and migration. Curr Biol 2005; 15(9): 815-23.
  • 6李千音,黄峥兰,高淼,钟梁,冯文莉.重组腺病毒Ad5/F35-HF2S的构建及其鉴定[J].中国生物制品学杂志,2012,25(11):1434-1438. 被引量:3
  • 7高淼,黄峥兰,李千音,钟梁,冯文莉.嵌合腺病毒Ad5F35-FLAG-3NLS-FRB的构建与鉴定[J].中国生物制品学杂志,2012,25(10):1276-1280. 被引量:3
  • 8Rumpold H, Webersinke G. Molecular pathogenesis of Philadel- phia-positive chronic myeloid leukemia-is it all BCR-ABL? Curr Cancer Drug Targets 2011; 11(1): 3-19.
  • 9Aloisi A, Di Gregorio S, Stagno F, Guglielmo P, Mannino F, Sor- mani MP, et al. BCR-ABL nuclear entrapment kills human CML cells: ex vivo study on 35 patients with the combination of imatinib mesylate and leptomycin B. Blood 2006; 107(4): 1591-8.
  • 10Dixon AS, Kakar M, Schneider KM, Constance JE, Paullin BC, Lim CS. Controlling subcellular localization to alter function: Sending oncogenic Bcr-Abl to the nucleus causes apoptosis. J Control Release 2009; 140(3): 245-9.

二级参考文献33

  • 1Hardt M, Chantaravisoot N, Tamanoi F. Activating mutations of TOR (target of rapamyein) [J]. Genes ceils, 2011, 16 (2): 141- 151.
  • 2Na M, Fan X. Design of Ad5F35 veeturs for eoordinaled dual gene expression in candidate human hematopoietic stem cells [J]. Exp Hematol, 2010, 38 (6): 446-452.
  • 3Matsui H, Sakurai F, Katayama K, et td. Enhanced transduction efficieney of fiber-subsfituted adenovirus vectors by the incor- poration of RGD peptides in two distinct regions of the adennvirus serotype 35 fiber knob [J]. Virus Res, 2011, 155 ( 1 ): 48-54.
  • 4Pichiorri F, Trapasso F, Palumbo T, et td. Preclinieal assessment of FHIT gene replacement therapy in truman leukemia using a chimeric adenovirus, Ad5 / F35 [J ]. Clin Cancer Res, 2006, 12 (11 Pt 1): 3494-3501.
  • 5Sakurai F, Nakashima K, Yamaguchi T, et td. Adenovirus serotype 35 vector-induced innate immune responses in dendritic cells derived from wild-type and human CD46-transgenic mice: Comparison with a fiber-substituted Ad vector containing fiber proteins of Ad serotype 35[J]. J Control Release, 2010, 148 (2): 212-218.
  • 6Ganesh S, Gonzalez-Edick M, Gibbons D, et (d. Evaluation of biodistribution of a fiber-chimeric, conditionally replication- competent (oncoly|ic) adenovims in CD46 receptor transgenic mice EJ]. Hum Gene Ther, 2009, 20 ( 10): 1201-1213.
  • 7Bayle JH, Grimley JS, Stankunas K, et ol. Rapamycin analogs with differential binding specificity permit orthogonal control of protein activity [J]. Chem Biol, 2006,13 ( 1 ): 99-107.
  • 8Luo J, Deng ZL, Luo X, et al. A protocol for rapid generation of recombinant adenoviruses using the AdEasy system [J]. Nat Protoc, 2007, 2 (5): 1236-1947.
  • 9He TC, Zhou S, Da Costa LT, et al. A simplified system for generating recombinant adenoviruses IJ ]. Proe Natl Aead S('i USA, 1998, 95 (5): 2509-2514.
  • 10Rebel VI, Hartnett S, Denham J, et cd. Maturation and lineage- specific: expression of the coxsackie and adenovirus receptor in hematopoietie cells [ J ]. Stem Cells, 2000, 18 ( 3 ) : 176-182.

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中国细胞生物学学报
2014年 第4期

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