Nano Express

Nanoscale Research Letters

, Volume 4, Issue 3, pp 229-233

Open Access This content is freely available online to anyone, anywhere at any time.

Regulation of Transgene Expression in Tumor Cells by Exploiting Endogenous Intracellular Signals

  • Daisuke AsaiAffiliated withDepartment of Microbiology, St. Marianna University School of MedicineCREST, Japan Science and Technology Corporation
  • , Jeong-Hun KangAffiliated withCREST, Japan Science and Technology CorporationDepartment of Applied Chemistry, Faculty of Engineering, Kyushu University
  • , Riki ToitaAffiliated withGraduate School of Systems Life Sciences, Kyushu University
  • , Akira TsuchiyaAffiliated withGraduate School of Systems Life Sciences, Kyushu University
  • , Takuro NiidomeAffiliated withDepartment of Applied Chemistry, Faculty of Engineering, Kyushu UniversityGraduate School of Systems Life Sciences, Kyushu UniversityCenter for Future Chemistry, Kyushu University
  • , Hideki NakashimaAffiliated withDepartment of Microbiology, St. Marianna University School of MedicineCREST, Japan Science and Technology Corporation
  • , Yoshiki KatayamaAffiliated withCREST, Japan Science and Technology CorporationDepartment of Applied Chemistry, Faculty of Engineering, Kyushu UniversityGraduate School of Systems Life Sciences, Kyushu UniversityCenter for Future Chemistry, Kyushu University Email author 

Abstract

Recently, we have proposed a novel strategy for a cell-specific gene therapy system based on responses to intracellular signals. In this system, an intracellular signal that is specifically and abnormally activated in the diseased cells is used for the activation of transgene expression. In this study, we used protein kinase C (PKC)α as a trigger to activate transgene expression. We prepared a PKCα-responsive polymer conjugate [PPC(S)] and a negative control conjugate [PPC(A)], in which the phosphorylation site serine (Ser) was replaced with alanine (Ala). The phosphorylation for polymer/DNA complexes was determined with a radiolabel assay using [γ-32P]ATP. PPC(S)/DNA complexes were phosphorylated by the addition of PKCα, but no phosphorylation of the PPC(A)/DNA complex was observed. Moreover, after microinjection of polymer/GFP-encoding DNA complexes into HepG2 cells at cation/anion (C/A) ratios of 0.5 to 2.0, significant expression of GFP was observed in all cases using PPC(S)/DNA complexes, but no GFP expression was observed in the negative control PPC(A)/DNA complex-microinjected cells at C/A ratios of 1.0 and 2.0. On the other hand, GFP expression from PPC(S)/DNA complexes was completely suppressed in cells pretreated with PKCα inhibitor (Ro31-7549). These results suggest that our gene regulation system can be used for tumor cell-specific expression of a transgene in response to PKCα activity.

Keywords

Intracellular signal Protein kinase C Gene delivery Nanoparticle Tumor