Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice

S. K. Hwang; H. Jin; J. T. Kwon; S. H. Chang; T. H. Kim; C. S. Cho; K. H. Lee; M. R. Young; N. H. Colburn; G. R. Beck; H. S. Yang; M. H. Cho

doi:10.1038/sj.gt.3302983

Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice

S. K. Hwang, H. Jin, J. T. Kwon, S. H. Chang, T. H. Kim, C. S. Cho, K. H. Lee, M. R. Young, N. H. Colburn, G. R. Beck, H. S. Yang, M. H. Cho

Research output: Contribution to journal › Article › peer-review

45 Scopus citations

Abstract

The long-term survival of lung cancer patients treated with conventional therapies remains poor and therefore the need for novel approaches remains high. This has led to the re-emergence of aerosol delivery as a therapeutic intervention. In this study, glucosylated polyethylenimine (GPEI) was used as carrier to investigate programmed cell death 4 (PDCD4) and PDCD4 mutant (D418A), an eIF4A-binding mutant, on PDCD4-related signaling and activator protein-1 (AP-1) activity in the lungs of AP-1 luciferase reporter mice. After confirming the efficiency of GPEI as a carrier in lungs, the effects of aerosol-delivered PDCD4 were investigated in AP-1 luciferase reporter mice. Aerosol delivery of GPEI/PDCD4 through a nose-only inhalation facilitated the apoptosis of lungs whereas aerosol PDCD4 mutant did not. Also, such aerosol delivery regulated proteins relevant to cell-cycle control and suppressed AP-1 activity. Results obtained by western blot analysis, immunohistochemistry, luciferase assay and deoxynucleotidyl-transferase-mediated nick end labeling study suggest that combined actions such as facilitating apoptosis, controlling cell cycle and suppression of AP-1 activity by PDCD4 may provide useful tool for designing lung tumor prevention and treatment by which PDCD4 functions as a transformation suppressor in the future.

Original language	English
Pages (from-to)	1353-1361
Number of pages	9
Journal	Gene Therapy
Volume	14
Issue number	18
DOIs	https://doi.org/10.1038/sj.gt.3302983
State	Published - Sep 2007

Bibliographical note

Funding Information:
This work was partially supported by the grants from the KOSEF (R01-2005-000-10087-0) of the Ministry of Science and Technology in Korea. MHC was supported by the Nano Systems Institute-National Core Research Center (NSI-NCRC) program of KOSEF. SKH, JH, THK are also grateful for the award of the BK21 fellowship. KHL was supported by 21C Frontier Functional Human Genome Project (FG03-0601-003-1-0-0) and National Nuclear R&D Program from Ministry of Science and Technology. GRB Jr was supported by National Cancer Institute Grant CA84573.

ASJC Scopus subject areas

Molecular Medicine
Molecular Biology
Genetics

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Hwang, S. K., Jin, H., Kwon, J. T., Chang, S. H., Kim, T. H., Cho, C. S., Lee, K. H., Young, M. R., Colburn, N. H., Beck, G. R., Yang, H. S., & Cho, M. H. (2007). Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice. Gene Therapy, 14(18), 1353-1361. https://doi.org/10.1038/sj.gt.3302983

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title = "Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice",

abstract = "The long-term survival of lung cancer patients treated with conventional therapies remains poor and therefore the need for novel approaches remains high. This has led to the re-emergence of aerosol delivery as a therapeutic intervention. In this study, glucosylated polyethylenimine (GPEI) was used as carrier to investigate programmed cell death 4 (PDCD4) and PDCD4 mutant (D418A), an eIF4A-binding mutant, on PDCD4-related signaling and activator protein-1 (AP-1) activity in the lungs of AP-1 luciferase reporter mice. After confirming the efficiency of GPEI as a carrier in lungs, the effects of aerosol-delivered PDCD4 were investigated in AP-1 luciferase reporter mice. Aerosol delivery of GPEI/PDCD4 through a nose-only inhalation facilitated the apoptosis of lungs whereas aerosol PDCD4 mutant did not. Also, such aerosol delivery regulated proteins relevant to cell-cycle control and suppressed AP-1 activity. Results obtained by western blot analysis, immunohistochemistry, luciferase assay and deoxynucleotidyl-transferase-mediated nick end labeling study suggest that combined actions such as facilitating apoptosis, controlling cell cycle and suppression of AP-1 activity by PDCD4 may provide useful tool for designing lung tumor prevention and treatment by which PDCD4 functions as a transformation suppressor in the future.",

author = "Hwang, {S. K.} and H. Jin and Kwon, {J. T.} and Chang, {S. H.} and Kim, {T. H.} and Cho, {C. S.} and Lee, {K. H.} and Young, {M. R.} and Colburn, {N. H.} and Beck, {G. R.} and Yang, {H. S.} and Cho, {M. H.}",

note = "Funding Information: This work was partially supported by the grants from the KOSEF (R01-2005-000-10087-0) of the Ministry of Science and Technology in Korea. MHC was supported by the Nano Systems Institute-National Core Research Center (NSI-NCRC) program of KOSEF. SKH, JH, THK are also grateful for the award of the BK21 fellowship. KHL was supported by 21C Frontier Functional Human Genome Project (FG03-0601-003-1-0-0) and National Nuclear R&D Program from Ministry of Science and Technology. GRB Jr was supported by National Cancer Institute Grant CA84573.",

year = "2007",

month = sep,

doi = "10.1038/sj.gt.3302983",

language = "English",

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Hwang, SK, Jin, H, Kwon, JT, Chang, SH, Kim, TH, Cho, CS, Lee, KH, Young, MR, Colburn, NH, Beck, GR, Yang, HS & Cho, MH 2007, 'Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice', Gene Therapy, vol. 14, no. 18, pp. 1353-1361. https://doi.org/10.1038/sj.gt.3302983

TY - JOUR

T1 - Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice

AU - Hwang, S. K.

AU - Jin, H.

AU - Kwon, J. T.

AU - Chang, S. H.

AU - Kim, T. H.

AU - Cho, C. S.

AU - Lee, K. H.

AU - Young, M. R.

AU - Colburn, N. H.

AU - Beck, G. R.

AU - Yang, H. S.

AU - Cho, M. H.

N1 - Funding Information: This work was partially supported by the grants from the KOSEF (R01-2005-000-10087-0) of the Ministry of Science and Technology in Korea. MHC was supported by the Nano Systems Institute-National Core Research Center (NSI-NCRC) program of KOSEF. SKH, JH, THK are also grateful for the award of the BK21 fellowship. KHL was supported by 21C Frontier Functional Human Genome Project (FG03-0601-003-1-0-0) and National Nuclear R&D Program from Ministry of Science and Technology. GRB Jr was supported by National Cancer Institute Grant CA84573.

PY - 2007/9

Y1 - 2007/9

N2 - The long-term survival of lung cancer patients treated with conventional therapies remains poor and therefore the need for novel approaches remains high. This has led to the re-emergence of aerosol delivery as a therapeutic intervention. In this study, glucosylated polyethylenimine (GPEI) was used as carrier to investigate programmed cell death 4 (PDCD4) and PDCD4 mutant (D418A), an eIF4A-binding mutant, on PDCD4-related signaling and activator protein-1 (AP-1) activity in the lungs of AP-1 luciferase reporter mice. After confirming the efficiency of GPEI as a carrier in lungs, the effects of aerosol-delivered PDCD4 were investigated in AP-1 luciferase reporter mice. Aerosol delivery of GPEI/PDCD4 through a nose-only inhalation facilitated the apoptosis of lungs whereas aerosol PDCD4 mutant did not. Also, such aerosol delivery regulated proteins relevant to cell-cycle control and suppressed AP-1 activity. Results obtained by western blot analysis, immunohistochemistry, luciferase assay and deoxynucleotidyl-transferase-mediated nick end labeling study suggest that combined actions such as facilitating apoptosis, controlling cell cycle and suppression of AP-1 activity by PDCD4 may provide useful tool for designing lung tumor prevention and treatment by which PDCD4 functions as a transformation suppressor in the future.

AB - The long-term survival of lung cancer patients treated with conventional therapies remains poor and therefore the need for novel approaches remains high. This has led to the re-emergence of aerosol delivery as a therapeutic intervention. In this study, glucosylated polyethylenimine (GPEI) was used as carrier to investigate programmed cell death 4 (PDCD4) and PDCD4 mutant (D418A), an eIF4A-binding mutant, on PDCD4-related signaling and activator protein-1 (AP-1) activity in the lungs of AP-1 luciferase reporter mice. After confirming the efficiency of GPEI as a carrier in lungs, the effects of aerosol-delivered PDCD4 were investigated in AP-1 luciferase reporter mice. Aerosol delivery of GPEI/PDCD4 through a nose-only inhalation facilitated the apoptosis of lungs whereas aerosol PDCD4 mutant did not. Also, such aerosol delivery regulated proteins relevant to cell-cycle control and suppressed AP-1 activity. Results obtained by western blot analysis, immunohistochemistry, luciferase assay and deoxynucleotidyl-transferase-mediated nick end labeling study suggest that combined actions such as facilitating apoptosis, controlling cell cycle and suppression of AP-1 activity by PDCD4 may provide useful tool for designing lung tumor prevention and treatment by which PDCD4 functions as a transformation suppressor in the future.

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Aerosol-delivered programmed cell death 4 enhanced apoptosis, controlled cell cycle and suppressed AP-1 activity in the lungs of AP-1 luciferase reporter mice

Abstract

Bibliographical note

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UN SDGs

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