H. Kondoh scite author profile

Although p-boronophenylalanine (p-BPA), a boronate analogue of tyrosine, has proven to be one of the most successful compounds for boron neutron capture therapy (BNCT) of malignant melanoma, the selective uptake mechanism of this compound into melanoma cells is not well understood. Therefore, the relationship between the structure of BPA and its specific affinity to melanoma cells appears worthy of investigation. In the present study, m-and o-boronophenylalanine (m-and o-BPA) were administered to melanoma-bearing hamsters and their uptake was measured

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Improvement of the Tumor-Suppressive Effect of Boron Neutron Capture Therapy for Amelanotic Melanoma by Intratumoral Injection of the Tyrosinase Gene

Morita

Hoshino

Kondoh

et al. 2006

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Boron neutron capture therapy (BNCT) is successful when there is a sufficient 10 B concentration in tumor cells. In melanoma, 10 B-para-boronophenylalanine (BPA) accumulation is proportional to melanin-producing activity. This study was done to confirm enhancement of the tumor-suppressive effect of BNCT on amelanotic melanoma by intratumoral injection of the tyrosinase gene. D178 or FF amelanotic melanomas were implanted s.c. in Syrian hamsters. One group of D178-or FF-bearing hamsters (TD178 or TFF group) received intratumoral injections of pcDNA-Tyrs constructed as a tyrosinase expression plasmid. The other hamsters (pD178 and pFF groups) were injected with pUC119, and control hamsters (D178 and FF groups) only with transfection reagents. All the groups underwent immunofluorescence analysis of tyrosinase expression and BPA biodistribution studies. BNCT experiments were done at the Kyoto University Research Reactor. Tyrosinase expression increased in the tumors of the TD178 and TFF groups but remained the same in the pD178 and pFF groups. Tumor boron concentrations in the TD178 and TFF groups increased significantly (TD178: 49.7 F 12.6 versus D178: 27.2 F 4.9 Mg/g, P < 0.0001; TFF: 30.7 F 6.6 versus FF: 13.0 F 4.7 Mg/g, P<0.0001). The BNCT tumor-suppressive effect was marked in the TD178 and TFF groups. In vivo transfection with the tyrosinase gene increased BPA accumulation in the tumors, the BNCT tumor-suppressive effect on amelanotic melanoma being significantly enhanced. These findings suggest a potential new clinical strategy for the treatment of amelanotic melanoma with BNCT. (Cancer Res 2006; 66(7): 3747-53)

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155 The role of dopachrome tautomerase in eumelanogenesis: Clone analyses of mouse B16 melanoma subclones and of TRP-2 cDNA transfected-human melanoma cells

Kondoh¹,

Wilczek²,

Mishima³

1995

Journal of Dermatological Science

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Tyrosinase cDNA transfection induces chain reactions necessary for melanin-polymer formation in fibroblasts

Kondoh¹,

Narimizu²,

Ando³

et al. 1993

Journal of Dermatological Science

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H. Kondoh

Selective uptake of para-boronophenylalanine increases in amelanotic melanoma cells transfected by the tyrosinase gene

Biodistribution of Boron Concentration on Melanoma‐bearing Hamsters after Administration of p‐, m‐, o‐Boronophenylalanine

Improvement of the Tumor-Suppressive Effect of Boron Neutron Capture Therapy for Amelanotic Melanoma by Intratumoral Injection of the Tyrosinase Gene

155 The role of dopachrome tautomerase in eumelanogenesis: Clone analyses of mouse B16 melanoma subclones and of TRP-2 cDNA transfected-human melanoma cells

Tyrosinase cDNA transfection induces chain reactions necessary for melanin-polymer formation in fibroblasts

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