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2 "Hyun-Sun Jin"
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Original Articles
Immunization with Adenoviral Vectors Carrying Recombinant IL-12 and E7 Enhanced the Antitumor Immunity against Human Papillomavirus 16-associated Tumor
Eun-Kyung Park, Young-Wook Kim, Joon-Mo Lee, Sung-Eun NamKoong, Do-Gang Kim, Heung-Jae Chun, Byoung-Don Han, Su-Mi Bae, Hyun-Sun Jin, Jeong-Im Sin, Woong-Shick Ahn
Cancer Res Treat. 2005;37(1):63-70.   Published online February 28, 2005
DOI: https://doi.org/10.4143/crt.2005.37.1.63
AbstractAbstract PDFPubReaderePub
Purpose

Human papillomavirus (HPV) infection has a significant role in cervical carcinogenesis, and HPV oncoprotein E7 plays an important part in the formation and maintenance of cervical cancer. Interleukin-12 (IL-12) has been reported to induce a cellular immune response, and to suppress the tumor growth and the E7 production. Here we describe the use of adenoviral delivery of the HPV 16 E7 subunit (AdE7) along with adenoviral delivery of IL-12 (AdIL-12) in mice with HPV-associated tumors.

Materials and Methods

Mice were injected with TC-1 cells to establish TC-1 tumor, and then they were immunized with AdIL-12 and/or AdE7 intratumorally. The anti tumor effects induced by AdIL-12 and/or E7 were evaluated by measuring the size of the tumor. E7-specific antibody and INF-γ production in sera, and the T-helper cell proliferative responses were then measured. Cytotoxic T-lymphocyte (CTL) and T cell subset depletion studies were also performed.

Results

Combined AdIL-12 and AdE7 infection at the tumor sites significantly enhanced the antitumor effects more than that of AdIL-12 or AdE7 single infection. This combined infection resulted in regression of the 9 mm sized tumors in 80% of animals as compare to the PBS group. E7-specific antibody and INF-γ production in the sera, and the T-helper cell proliferative responses were significantly higher with coinfection of AdIL-12 and AdE7 than with AdIL-12 or AdE7 alone. CTL response induced by AdIL-12 and AdE7 in the coinjected group suggested that tumor suppression was mediated by mostly CD8+ and only a little by the CD4+ T cells.

Conclusion

IL-12 and E7 application using adenovirus vector showed antitumor immunity effects against TC-1 tumor, and this system could be use in clinical applications for HPV-associated cancer. (ED note: nice abstract.)

Citations

Citations to this article as recorded by  
  • Development of a replication‐deficient adenoviral vector‐based vaccine candidate for the interception of HPV16‐ and HPV18‐induced infections and disease
    Selina Khan, Koen Oosterhuis, Kerstin Wunderlich, Evelien M. Bunnik, Melissa Bhaggoe, Satish Boedhoe, Santusha Karia, Renske D.M. Steenbergen, Leontien Bosch, Jan Serroyen, Sarah Janssen, Hanneke Schuitemaker, Jort Vellinga, Gert Scheper, Roland Zahn, Jer
    International Journal of Cancer.2017; 141(2): 393.     CrossRef
  • Immune responses and protective efficacy of a recombinant swinepox virus expressing HA1 against swine H1N1 influenza virus in mice and pigs
    Jiarong Xu, Dongyan Huang, shichao Liu, Huixing Lin, Haodan Zhu, Bao Liu, Chengping Lu
    Vaccine.2012; 30(20): 3119.     CrossRef
  • Immune responses and protection efficacy of a recombinant swinepox virus expressing HA1 against swine H3N2 influenza virus in mice and pigs
    Jiarong Xu, Dongyan Huang, Shichao Liu, Huixing Lin, Haodan Zhu, Bao Liu, Chengping Lu
    Virus Research.2012; 167(2): 188.     CrossRef
  • 8,887 View
  • 37 Download
  • 3 Crossref
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Photodynamic Effects of Radachlorin® on Cervical Cancer Cells
Su-Mi Bae, Yong-Wook Kim, Joon-Mo Lee, Sung-Eun Namkoong, Sei-Jun Han, Jong-Ki Kim, Chang-Hee Lee, Heung-Jae Chun, Hyun-Sun Jin, Woong-Shick Ahn
Cancer Res Treat. 2004;36(6):389-394.   Published online December 31, 2004
DOI: https://doi.org/10.4143/crt.2004.36.6.389
AbstractAbstract PDFPubReaderePub
Purpose

Photodynamic therapy (PDT) is a novel treatment modality, which produces local tissue necrosis with laser light following the prior administration of a photosensitizing agent. Radachlorin® has recently been shown to be a promising PDT sensitizer. In order to elucidate the antitumor effects of PDT using Radachlorin® on cervical cancer, growth inhibition studies on a HPV-associated tumor cell line, TC-1 cells in vitro and animals with an established TC-1 tumor in vivo were determined.

Materials and Methods

TC-1 tumor cells were exposed to various concentrations of Radachlorin® and PDT, with irradiation of 12.5 or 25 J/cm2 at an irradiance of 20 mW/cm2 using a Won-PDT D662 laser at 662 nm in vitro. C57BL/6 mice with TC-1 tumor were injected with Radachlorin® via different routes and treated with PDT in vivo. A growth suppression study was then used to evaluate the effects at various time points after PDT.

Results

The results showed that irradiation of TC-1 tumor cells in the presence of Radachlorin® induced significant cell growth inhibition. Animals with established TC-1 tumors exhibited significantly smaller tumor sizes over time when treated with Radachlorin® and irradiation.

Conclusion

PDT after the application of Radachlorin® appears to be effective against TC-1 tumors both in vitro and in vivo.

Citations

Citations to this article as recorded by  
  • Photodynamic Therapy for Thyroid Cancer
    Julia Inglot, Joanna Katarzyna Strzelczyk, Dorota Bartusik-Aebisher, David Aebisher
    BioMed.2025; 5(1): 8.     CrossRef
  • Photodynamic therapy: Innovative approaches for antibacterial and anticancer treatments
    Marketa Kolarikova, Barbora Hosikova, Hanna Dilenko, Katerina Barton‐Tomankova, Lucie Valkova, Robert Bajgar, Lukas Malina, Hana Kolarova
    Medicinal Research Reviews.2023; 43(4): 717.     CrossRef
  • Applications of Photodynamic Therapy in Endometrial Diseases
    Gabriela Correia-Barros, Beatriz Serambeque, Maria João Carvalho, Carlos Miguel Marto, Marta Pineiro, Teresa M. V. D. Pinho e Melo, Maria Filomena Botelho, Mafalda Laranjo
    Bioengineering.2022; 9(5): 226.     CrossRef
  • Photodynamic treatment with purpurin 18 effectively inhibits triple negative breast cancer by inducing cell apoptosis
    Pengyun Huang, Baoting Zhang, Qiuju Yuan, Xie Zhang, Wingnang Leung, Chuanshan Xu
    Lasers in Medical Science.2021; 36(2): 339.     CrossRef
  • Assessing of integration of ionizing radiation with Radachlorin-PDT on MCF-7 breast cancer cell treatment
    R. Ghoodarzi, V. Changizi, A. R. Montazerabadi, N. Eyvazzadaeh
    Lasers in Medical Science.2016; 31(2): 213.     CrossRef
  • Chlorophyll a Covalently Bonded to Organo-Modified Translucent Silica Xerogels: Optimizing Fluorescence and Maximum Loading
    M. García-Sánchez, I. Serratos, R. Sosa, T. Tapia-Esquivel, F. González-García, F. Rojas-González, S. Tello-Solís, A. Palacios-Enriquez, J. Esparza Schulz, A. Arrieta
    Molecules.2016; 21(7): 961.     CrossRef
  • Evaluation of Silicon Phthalocyanine 4 Photodynamic Therapy against Human Cervical Cancer Cells <i>in Vitro</i> and in Mice
    Jill A. Gadzinski, Jianxia Guo, Brian J. Philips, Per Basse, Ethan K. Craig, Lisa Bailey, Joseph Latoche, John T. Comerci, Julie L. Eiseman
    Advances in Biological Chemistry.2016; 06(06): 193.     CrossRef
  • Combination of Photodynamic Therapy and Specific Immunotherapy Efficiently Eradicates Established Tumors
    Jan Willem Kleinovink, Pieter B. van Driel, Thomas J. Snoeks, Natasa Prokopi, Marieke F. Fransen, Luis J. Cruz, Laura Mezzanotte, Alan Chan, Clemens W. Löwik, Ferry Ossendorp
    Clinical Cancer Research.2016; 22(6): 1459.     CrossRef
  • Development of radiolabeled radachlorin complex as a possible tumor targeting agent
    Yousef Fazaeli, Amir R. Jalilian, Fatemeh Rezaee, Tahereh Firouzyar, Sedigheh Moradkhani, Azar Bagheri, Abbas Majdabadi
    Journal of Radioanalytical and Nuclear Chemistry.2015; 303(3): 1695.     CrossRef
  • Photodynamic therapy: An adjunct to conventional root canal disinfection strategies
    Shipra Singh, Rajni Nagpal, Naveen Manuja, Sashi Prabha Tyagi
    Australian Endodontic Journal.2015; 41(2): 54.     CrossRef
  • The efficacy of Radachlorin-mediated photodynamic therapy in human hepatocellular carcinoma cells
    Hamidreza Mirzaei, Gholamreza Esmaeeli Djavid, Mahnaz Hadizadeh, Maryam Jahanshiri-Moghadam, Parastoo Hajian
    Journal of Photochemistry and Photobiology B: Biology.2015; 142: 86.     CrossRef
  • Chlorin e6 Derivative Radachlorin Mainly Accumulates in Mitochondria, Lysosome and Endoplasmic Reticulum and Shows High Affinity toward Tumors in Nude Mice in Photodynamic Therapy
    Raktim Biswas, Jeong Hwan Moon, Jin‐Chul Ahn
    Photochemistry and Photobiology.2014; 90(5): 1108.     CrossRef
  • Microscopic analysis of the localization of two chlorin‐based photosensitizers in OSC19 tumors in the mouse oral cavity
    Floor van Leeuwen–van Zaane, Pieter B.A.A. van Driel, Ute A. Gamm, Thomas J.A. Snoeks, Henriëtte S. de Bruijn, Angelique van der Ploeg–van den Heuvel, Clemens W.G.M. Löwik, Henricus J.C.M. Sterenborg, Arjen Amelink, Dominic J. Robinson
    Lasers in Surgery and Medicine.2014; 46(3): 224.     CrossRef
  • Photodynamic effect of Radachlorin on nerve and glial cells
    M.A. Neginskaya, E.V. Berezhnaya, M.V. Rudkovskii, S.V. Demyanenko, A.B. Uzdensky
    Photodiagnosis and Photodynamic Therapy.2014; 11(3): 357.     CrossRef
  • Fluorescence optimization of chlorophyll covalently bonded to mesoporous silica synthesized by the sol–gel method
    I.N. Serratos, F. Rojas-González, R. Sosa-Fonseca, J.M. Esparza-Schulz, V. Campos-Peña, S.R. Tello-Solís, M.A. García-Sánchez
    Journal of Photochemistry and Photobiology A: Chemistry.2013; 272: 28.     CrossRef
  • Efficacy and Safety of Photodynamic Therapy for Recurrent, High Grade Nonmuscle Invasive Bladder Cancer Refractory or Intolerant to Bacille Calmette-Guérin Immunotherapy
    Joo Yong Lee, Richilda Red Diaz, Kang Su Cho, Meng Shi Lim, Jae Seung Chung, Won Tae Kim, Won Sik Ham, Young Deuk Choi
    Journal of Urology.2013; 190(4): 1192.     CrossRef
  • Crossed and Linked Histories of Tetrapyrrolic Macrocycles and Their Use for Engineering Pores within Sol-Gel Matrices
    Miguel García-Sánchez, Fernando Rojas-González, E. Menchaca-Campos, Salvador Tello-Solís, R. Quiroz-Segoviano, Luis Diaz-Alejo, Eduardo Salas-Bañales, Antonio Campero
    Molecules.2013; 18(1): 588.     CrossRef
  • Photodynamic Therapy for Recurrent Head and Neck Malignancy
    Yong-Sik Lee, Young-Chang Lim, Yeo-Jin Lee, Mun-Su Park, Jae-Myeong Kim
    Korean Journal of Otorhinolaryngology-Head and Neck Surgery.2011; 54(4): 271.     CrossRef
  • Evaluation of the effect of photoactivated disinfection with Radachlorin® against Streptococcus mutans (an in vitro study)
    Reza Fekrazad, Majid Bargrizan, Sepideh Sajadi, Soodabeh Sajadi
    Photodiagnosis and Photodynamic Therapy.2011; 8(3): 249.     CrossRef
  • In vitro evaluation of Radachlorin® sensitizer for photodynamic therapy
    Samuel Douillard, Isabelle Lhommeau, David Olivier, Thierry Patrice
    Journal of Photochemistry and Photobiology B: Biology.2010; 98(2): 128.     CrossRef
  • In vitro and in vivo evaluation of Radachlorin® sensitizer for photodynamic therapy
    Samuel Douillard, David Olivier, Thierry Patrice
    Photochemical & Photobiological Sciences.2009; 8(3): 405.     CrossRef
  • Role of Microarray in Cancer Diagnosis
    Hoguen Kim
    Cancer Research and Treatment.2004; 36(1): 1.     CrossRef
  • 11,918 View
  • 69 Download
  • 22 Crossref
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