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Human Gene Therapy
Use of von Willebrand Factor Promoter to Transduce Suicidal Gene to Human Endothelial Cells, HUVEC
To cite this article:
Katsutoshi Ozaki, Teruhiko Yoshida, Hisamitsu Ide, Izumu Saito, Yasuo Ikeda, Takashi Sugimura, Masaaki Terada.
Human Gene Therapy.
August 1996,
7(13): 1483-1490.
doi:10.1089/hum.1996.7.13-1483.
Katsutoshi Ozaki1,2 Teruhiko Yoshida1 Hisamitsu Ide1 Izumu Saito3 Yasuo Ikeda2 Takashi Sugimura1 Address reprint requests to: Dr. Masaaki Terada, Genetics Division, National Cancer Center Research Institute, 5-1-1 Tsukiji, Chuo-ku, Tokyo 104, Japan, FAX: 81-3-3541-2685 27 11 1995 Received for publication November 27, 1995. 03 05 1996 Accepted after revision May 3, 1996. ABSTRACT Angiogenesis is an essential component of multifactorial carcinogenesis and thus a potential target of therapeutic intervention. To develop a novel cancer gene therapy strategy based on suppression of tumor angiogenesis, we examined the feasibility of targeting and preferential killing of proliferating endothelial cells by use of the von Willebrand factor (vWf) promoter and herpes simplex virus thymidine kinase gene (HSV-TK). Based on previous reports on the vWf promoter, we tested two putative vWf promoter regions. The luciferase assay showed that the shorter region, which encompasses most of the first noncoding exon, had stronger activity in endothelial cells. Although the promoter activity was low when employed as an internal promoter for retroviral and adenoviral vectors, endothelial cell specificity was suggested; the promoter, when used to drive the HSV-TK gene, could preferentially suppress endothelial cell growth in the presence of prodrug ganciclovir, suggesting the feasibility of designing an anti-angiogenesis gene therapy using the vWf promoter and the suicide gene/prodrug strategy. Overview summary Tumor growth and metastasis depend on angiogenesis. The present study showed that endothelial cell-specific growth suppression is possible by transduction of the suicidal gene driven by a promoter sequence of the von Willebrand factor gene, which is widely expressed in many endothelial cells. This strategy is expected to kill the proliferating endothelial cells preferentially and may lead to inhibition of tumor angiogenesis, growth, and metastasis in vivo.  This paper was cited by:Gene therapy targeting to tumor endothelium M Bazan-Peregrino, L W Seymour, A L Harris Cancer Gene Therapy. Mar 2007, Vol. 14, No. 2: 117-127 CrossRef Antisense RNA to Inducible Nitric Oxide Synthase Reduces Cytokine-Mediated Brain Endothelial Cell Death DING-I YANG, SHAWEI CHEN, UTHAYASHANKER R. EZEKIEL, JAN XU, YINGJI WU, CHUNG Y. HSU Annals of the New York Academy of Sciences. 2005, Vol. 1042, No. 1: 439 CrossRef Development of gene therapy to target pancreatic cancer Teruhiko Yoshida, Shumpei Ohnami, Kazunori Aoki Cancer Science. May 2004, Vol. 95, No. 4: 283-289 CrossRef Prospects for gene transfer into renal cells Valentina Kon, Iekuni Ichikawa Kidney International. Jun 2000, Vol. 57, No. 5: 2169-2170 CrossRef Strategy of liver-directed gene therapy: present status and future prospects Yasushi Shiratori, Fumihiko Kanai, Makoto Ohashi, Masao Omata Liver International. Sep 1999, Vol. 19, No. 4: 265-274 CrossRef Endothelial Cell-Specific Expression of Tumor Necrosis Factor-α from the KDR or E-Selectin Promoters Following Retroviral Delivery Rhys T. Jaggar, Hock Yee Chan, Adrian L. Harris, Roy Bicknell Human Gene Therapy. Dec 1997, Vol. 8, No. 18: 2239-2247 Abstract | Full Text PDF | Reprints & Permissions |
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