[en] Hot ductility of medium carbon steel containing 0.52 wt% of carbon and 0.11 wt% of vanadium was investigated using a hot tensile test performed up to fracture. The hot ductility was evaluated by measuring the reduction of area of the fractured specimens, which were strained at a variety of test temperatures in a range of 600–1100 °C at a strain rate of 2×10"−"3/s. The hot ductility was excellent in a temperature range of 950–1100 °C, followed by a decrease of the hot ductility below 950 °C. The hot ductility continued to drop as the temperature was lowered to 600 °C. The loss of hot ductility in a temperature range of 800–950 °C, which is above the Ae_3 temperature, was due to V(C,N) precipitation at austenite grain boundaries. The further decline of hot ductility between 700 °C and 750 °C resulted from the transformation of ferrite films decorating austenite grain boundaries. The hot ductility continued to decrease at 650 °C or less, owing to ferrite films and the pearlite matrix, which is harder than ferrite. The pearlite was transformed from austenite due to relatively high carbon content.

[en] Highlights: • We generated a novel antibody specific to an immunodominant decoy epitope of PCV2. • Using this novel antibody, we measured levels of decoy epitope in PCV2 vaccine. • Decoy epitope in PCV2 vaccine affected the neutralizing antibody titer induction. Viral pathogens have evolved a wide range of tactics to evade host immune responses and thus propagate effectively. One efficient tactic is to divert host immune responses toward an immunodominant decoy epitope and to induce non-neutralizing antibodies toward this epitope. Therefore, it is expected that the amount of decoy epitope in a subunit vaccine can affect the level of neutralizing antibody in an immunized animal. In this study, we tested this hypothesis by generating an antibody specific to the decoy epitope on the capsid protein of porcine circovirus type 2 (PCV2). Using this antibody, we found that two commercial vaccines contained statistically different amounts of the decoy epitope. The vaccine with lower levels of decoy epitope induced a significantly higher level of neutralizing antibody after immunization. This antibody can be used as an analytical tool to monitor the quality of a vaccine from batch to batch.

[en] The epidermal growth factor receptor (EGFR) is a tyrosine kinase receptor and plays an important role in carcinogenesis. In this study, the epidermal growth factor receptor binding peptide (EGBP) was identified using a phage display method and evaluated in U87MG cells in order to investigate the possibility to target the EGFR using an optical imaging system. Cyanine dye 5.5 (Cy5.5) was conjugated with EGBP-GGG-SC, EGBP-AOC-SC, and EGBP-AM2BA-SC. Cellular binding study of EGBP-Linker-Cy5.5 conjugates or ¹²⁵I-EGBP-Linker compounds was performed in U87MG cells. Optical imaging studies were performed in U87MG bearing mice. Three of seven clones from the 12-mer peptide library showed a specific binding affinity to rhEGFR, and they encoded the same 12 amino acid peptide sequence, FPMFNHWEQWPP. Confocal images show that the fluorescent signal of EGBP-Linker-Cy5.5 conjugates was decreased in the order: EGBP-AOC-Cy5.5≫EGBP-AM2BA-Cy5.5>EGBP-GGG-Cy5.5. EGBP-AOC-Cy5.5 appeared in cell cytoplasm and surface, and it was inhibited by free EGBP apparently. The cellular binding of EGBP-AOC-Cy5.5 exhibited a higher average radiance value than EGBP-GGG-Cy5.5 and EGBP-AM2BA-Cy5.5. Among various ¹²⁵I-EGBP-Linker compounds, EGBP-GGG showed a higher binding than other compounds. However, uptake of ¹²⁵I-EGBP-AOC was clearly inhibited by free EGBP in inhibition study. In an in vivo study, the fluorescent signal of EGBP-AOC-Cy5.5 treated mouse was mainly detected in the tumor and kidney. Among the three derivatives, EGBP-AOC-Cy5.5 was the optimized optical imaging agent for U87MG EGFR positive tumors in the animal model. This study demonstrated the EGBP-Linker-Cy5.5 conjugates may be useful as a potential EGFR target optical probe.

[en] 

Purpose

The 14th Japan–Korea joint symposium on cancer and aging research was held at an auditorium of Saga University, Japan, May 31–Jun 2, 2018. Participants presented 31 oral and 21 poster presentations, two lectures at a luncheon seminar, plus special lectures from two Korean Emeritus Professors and founders of our joint symposia. The essential parts of the lectures are reviewed here.

Results

This Symposium was called Japan–Korea, because the host country comes first. Our symposia are organized every 18 months and the program includes keynote and plenary lectures, and oral and poster presentations. (1) Subjects related to cancer development at this symposium were: prostate cancer progression, molecules activating GSK3β, suppressing the activation of cancer stem cells, profiling human B cell receptor repertoires, and hereditary gastrointestinal cancer syndrome. (2) Subjects related to treatment were: G-quadruplex ligands for glioma stem cells, tankyrase inhibitor for colorectal cancer, and eradication of ATL. (3) Cancer prevention subjects were: physical adsorption of EGCG to cell membrane, inhibition of immune evasion of cancer cells with EGCG, and prevention with antidiabetic agents. (4) Aging subjects were life span extension with Toll-like receptor 5 vaccine and reversal of senescence with inhibitors of ATM and ROCK. (5) The results of epidemiology focused on aldehyde dehyrogenase-2 and alcohol consumption.

Conclusion

The 14th symposium demonstrated the cutting-edge of presentations with discussion of numerous ideas by the participants.

[en] c-Met is a receptor tyrosine kinase involved in tumor cell growth, invasion, metastases and angiogenesis. Overexpression of c-Met is frequently observed in several tumor types. Here, we report the in vitro cell-binding properties and biodistribution and SPECT/CT imaging in glioma (U87MG) xenograft-bearing mice of ¹²⁵I-labeled c-Met-binding peptides (cMBPs) including analogs conjugated to amino acid and aliphatic carbon linkers. In vitro assays showed that the peptide without any linker and those with GGG and 8-aminooctanoic acid linkers had low cellular internalization and that IC₅₀ values of peptides were 1.5 μM, 65 nM and 85.3 nM, respectively. Biodistribution studies showed the GGG-containing peptide had higher tumor uptake and a higher tumor-to-blood activity concentration ratio than other receptor-binding ligands. SPECT/CT studies with a dedicated small-animal imaging system were performed in U87MG-bearing athymic mice. Although U87MG tumor xenografts could be visualized by SPECT/micro-CT using the various ¹²⁵I labeled cMBPs, image contrast and overall quality were unremarkable.

[en] The proto-oncogene tyrosine kinase ROS1 plays a key role in carcinogenesis through gene rearrangement to form a fusion protein with other genes, in which the C-terminal intracellular region of ROS1 participates. The possibility of wild type ROS1 overexpression through epigenetic regulation has been proposed. Here, we generated an antibody, 3B20, reactive to the N-terminal region of ROS1 to use it for the detection of wild type ROS1 in cancerous tissues. Using immunoblot and immunoprecipitation analyses, we found that 3B20 also reacted with heat shock proteins (Hsp)70s. Using homology searching, ROS1 and Hsp70s were found to share an identical amino acid sequence: DLGT. Using alanine mutagenesis of ROS1, the epitope was found to harbor this sequence. To modify the idiotope with the aim of selecting more specific antibodies, we introduced random mutations into the heavy chain complementarity-determining region 3 and successfully generated an antibody clone, 3B20-G1K, with a point mutation that only reacted with ROS1 in enzyme-linked immunosorbent assays, and in immunoblot and immunoprecipitation analysis. In immunohistochemical analysis using 3B20-G1K, ROS1 was found to be absent in normal lung tissues and was overexpressed in a case of lung adenocarcinoma. - Highlights: • An antibody to N-terminal region of ROS1 was generated. • Modification of HCDR3 dramatically enhanced the specificity of an anti-ROS1 antibody. • Full-length wild type ROS1 is not detected in normal lung tissue. • Full-length wild type ROS1 is overexpressed in 10% of lung adenocarcinoma.