Yusei Fujita

Effectiveness of boron neutron capture therapy for recurrent head and neck malignancies.

It is necessary to explore new treatments for recurrent head and neck malignancies (HNM) to avoid severe impairment of oro-facial structures and functions. Boron neutron capture therapy (BNCT) is tumor-cell targeted radiotherapy that has significant superiority over conventional radiotherapies in principle. We have treated with BNCT 42 times for 26 patients (19 squamous cell carcinomas (SCC), 4 salivary gland carcinomas and 3 sarcomas) with a recurrent and far advanced HNM since 2001. Results of (1) (10)B concentration of tumor/normal tissue ratios (T/N ratio) of FBPA-PET studies were SCC: 1.8-5.7, sarcoma: 2.5-4.0, parotid tumor: 2.5-3.7. (2) Therapeutic effects were CR: 12 cases, PR: 10 cases, PD: 3 cases NE (not evaluated): 1 case. Response rate was 85%. (3) Improvement of QOL such as a relief of severe pain, bleeding, and exudates at the local lesion, improvement of PS, disappearance of ulceration, covered with normal skin and preserved oral and maxillofacial functions and tissues. (4) Survival periods after BNCT were 1-72 months (mean: 13.6 months). Six-year survival rate was 24% by Kaplan-Meier analysis. (5) Adverse-events were transient mucositis and alopecia in most of the cases; three osteomyelitis and one brain necrosis were recognized. These results indicate that BNCT represents a new and promising treatment approach for advanced HNM.

Induction of apoptosis of detached oral squamous cell carcinoma cells by safingol. Possible role of Bim, focal adhesion kinase and endonuclease G

The protein kinase C (PKC) inhibitor safingol increased rounding and detachment of human oral squamous cell carcinoma (SCC) cells in monolayer cultures. When dissociated cells were incubated in the presence of safingol, cell adhesion was prevented and cell viability was lost gradually, while most cells survived in the absence of safingol even if their attachment was blocked by coating the culture plates with polyhydroxyethyl methacrylate. Flow cytometric analysis and agarose gel electrophoresis of cellular DNA revealed an increase in the proportion of sub-G1 cells and DNA fragmentation, indicating that safingol induced apoptosis of dissociated cells. During the induction of apoptosis in cell suspensions by safingol, there was an increase of the pro-apoptotic BH-3 only protein Bim and decrease of pro-survival Bcl-2 family proteins Bcl-xL and mitochondrial pro-apoptogenic factor endonuclease G translocated to the nucleus. The level of phosphorylated focal adhesion kinase (FAK) required for cell survival also rapidly decreased, followed by a decrease in the protein level. The introduction of siRNA against PKCα into SAS cells resulted in an increase of Bim, a decrease of Bcl-xL, the translocation of endonuclease G, and a decrease in the phosphorylation of FAK. These results suggest that Bim, Bcl-xL, FAK and endonuclease G are involved in safingol-induced apoptosis of detached oral SCC cells. Safingol can be used to induce apoptosis with cell detachment, anoikis, of oral SCC cells.

Effect of neutron capture therapy on the cell cycle of human squamous cell carcinoma cells

Purpose: The effects of boronophenylalanine (BPA)-mediated boron neutron capture therapy (BNCT) on the growth potential and cell cycle of human oral squamous cell carcinoma (SCC) cells were examined. Materials and methods: SAS cells expressing a functional wild-type p53 were exposed to neutron beams in the presence of BPA and growth potential was measured by colony formation assay and 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The cell cycle and cell cycle-related proteins were examined by flow cytometry and immunoblot analysis. Results: BNCT affected the colony-forming ability and viability of SAS cells. In the flow-cytometric analysis of BNCT-treated cells, the cell cycle was arrested at the G1 and G2 checkpoints, and sub-G1 cells appeared. Apoptotic cells were detected by nuclear DNA staining. Immunoblot analysis revealed the phosphorylation of p53, up-regulation of p21, and down-regulation of retinoblastoma (Rb) gene protein at 6 h after BNCT. Twelve hours after BNCT, the up-regulation of Wee1, phosphorylation of cdc2, and up-regulation of cyclin B1 were observed. Cleavage of poly (ADP-ribose) polymerase (PARP) occurred from 6 h after BNCT. Conclusion: These results indicate that the early inhibitory effect of BNCT on the growth of human oral SCC cells can be ascribed to arrest at the G1 and G2 checkpoints and apoptosis associated with G1 arrest.

Role of p53 mutation in the effect of boron neutron capture therapy on oral squamous cell carcinoma

BackgroundBoron neutron capture therapy (BNCT) is a selective radiotherapy, being effective for the treatment of even advanced malignancies in head and neck regions as well as brain tumors and skin melanomas. To clarify the role of p53 gene, the effect of BNCT on oral squamous cell carcinoma (SCC) cells showing either wild- (SAS/neo) or mutant-type (SAS/mp53) p53 was examined.MethodsCells were exposed to neutron beams in the presence of boronophenylalanine (BPA) at Kyoto University Research Reactor. Treated cells were monitored for modulations in colony formation, proliferation, cell cycle, and expression of cell cycle-associated proteins.ResultsWhen SAS/neo and SAS/mp53 cells were subjected to BNCT, more suppressive effects on colony formation and cell viability were observed in SAS/neo compared with SAS/mp53 cells. Cell cycle arrest at the G1 checkpoint was observed in SAS/neo, but not in SAS/mp53. Apoptotic cells increased from 6 h after BNCT in SAS/neo and 48 h in SAS/mp53 cells. The expression of p21 was induced in SAS/neo only, but G2 arrest-associated proteins including Wee1, cdc2, and cyclin B1 were altered in both cell lines.ConclusionThese results indicate that oral SCC cells with mutant-type are more resistant to BNCT than those with wild-type p53, and that the lack of G1 arrest and related apoptosis may contribute to the resistance. At a physical dose affecting the cell cycle, BNCT inhibits oral SCC cells in p53-dependent and -independent manners.

Boron neutron capture therapy as a novel modality of radiotherapy for oral cancer: Principle and antitumor effect

Abstract Radiotherapy is essential for the treatment of oral cancer, especially in advanced cases. There has been marked progress in this field due to the prevalence of intensity-modified radiation therapy and introduction of particle radiotherapy using protons and carbon-ions. However, these treatments are still non-selective. Boron neutron capture therapy (BNCT) is a unique modality in which neutron beams destroy only boron compound-bearing tumor cells while leaving the surrounding normal tissues intact. Thus, BNCT is a selective form of radiotherapy, if high tumor/normal tissue ratio in boron concentration could be achieved. The principle of BNCT, and the basic study of the mechanism by which BNCT exerts antitumor effects using oral squamous cell carcinoma (SCC) cells and oral SCC xenografts in mice are described.

Induction of multinucleation in oral squamous cell carcinoma tissue with mutated p53 surviving boron neutron capture therapy.

Purpose: To clarify the role of p53 in boron neutron capture therapy (BNCT) for oral squamous cell carcinoma (SCC), the effect of BNCT on oral SCC xenografts with either wild-type or mutant-type p53 was examined. Materials and methods: Oral SCC cells expressing either wild-type (SAS/neo) or mutant-type p53 (SAS/mp53) were used to produce nude mouse tumours. Tumour-bearing mice received boronophenylalanine (BPA) at a dose of 250 mg/kg and tumours were exposed to neutron irradiation. Results: After BNCT, the growth of SAS/neo and SAS/mp53 tumours was suppressed remarkably and all tumours became undetectable within two weeks. However, three of six SAS/mp53 tumours showed regrowth in two months. Histological examination of BNCT-treated tumours revealed chromosomal condensation, micronucleation, nuclear segmentation and intra- and intercelluar vacuolation. Notably, multinucleated giant cells appeared in SAS/mp53 tumours early after BNCT, suggesting mitotic catastrophe. In SAS/mp53 tumours treated with BNCT, a rapid decrease in phosphorylated cell division cycle 2 (cdc2) and a high level of cyclin B1, required for premature mitosis, were observed. Conclusion: These results indicate that BNCT suppressed oral SCC xenografts in nude mice efficiently, but cells survived in mutant-type p53 tumours. BNCT induces multinucleation which represents prestage of apoptosis or necrosis in oral SCC with mutant-type p53, but it may be also associated with the recurrence of BNCT-treated tumours.