Yoichiro Kusunoki scite author profile

We have previously shown that natural cytotoxic activity of peripheral blood lymphocytes was inversely related to cancer development based on a prospective cohort study. The genetic fraction of cytotoxic activity needs to be clarified, identifying individuals immunogenetically susceptible to cancer. A casecontrol study within the cohort members was designed: 102 cancer cases with peripheral lymphocyte DNA available and three control groups, each of which consisted of 204 subjects with each tertile level of cytotoxic activity. We first compared two control groups with high and low cytotoxic activity in terms of the single nucleotide polymorphisms in the natural killer complex gene region on chromosome 12p, identifying the haplotype alleles that were associated with the activity. Next, cancer risks were assessed for these haplotypes. We found two haplotype blocks, each of which generated two major haplotype alleles: low-activity-related LNK1 ( frequency 0.478 and 0.615 in groups with high and low activity, respectively; P < 0.00008) and high-activity-related HNK1 (0.480 and 0.348; P < 0.0001), LNK2 (0.711 and 0.821; P < 0.0002), and HNK2 (0.272 and 0.174; P < 0.0008). These NKG2D haplotype alleles showed a significant difference between cases (0.632 for LNK1 and 0.333 for HNK1) and controls (0.554 for LNK1 and 0.406 for HNK1). The haplotype HNK1/HNK1 revealed a decreased risk of cancer (odds ratio, 0.471; 95% confidence interval, 0.233-0.952) compared with LNK1/LNK1. Individuals who are genetically predisposed to have low or high natural cytotoxic activity can in part be determined by NKG2D haplotyping, which in turn reveals an increased or decreased risk of cancer development.

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Determination of HLA‐A, ‐C, ‐B, ‐DRB1 allele and haplotype frequency in Japanese population based on family study

Ikeda¹,

Kojima²,

Nishikawa³

et al. 2015

Tissue Antigens

144

136

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The present study investigates the human leucocyte antigen (HLA) allele and haplotype frequencies in Japanese population. We carried out the frequency analysis in 5824 families living across Japanese archipelago. The studied population has mainly been typed for the purpose of transplant, especially the hematopoietic stem cell transplantation (HSCT). We determined HLA class I (A, B, and C) and HLA class II (DRB1) using Luminex technology. The haplotypes were directly counted by segregation. A total of 44 HLA‐A, 29 HLA‐C, 75 HLA‐B, and 42 HLA‐DRB1 alleles were identified. In the HLA haplotypes of A‐C‐B‐DRB1 and C‐B, the pattern of linkage disequilibrium peculiar to Japanese population has been confirmed. Moreover, the haplotype frequencies based on family study was compared with the frequencies estimated by maximum likelihood estimation (MLE), and the equivalent results were obtained. The allele and haplotype frequencies obtained in this study could be useful for anthropology, transplantation therapy, and disease association studies.

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Radiosensitivity of CD4 or CD8 Positive Human T-Lymphocytes by an in Vitro Colony Formation Assay

Nakamura¹,

Kusunoki²,

Akiyama³

1990

Radiation Research

223

129

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The recent development of an in vitro lymphocyte colony assay makes it possible to examine variations in the radiosensitivity of humans using peripheral blood lymphocytes (PBL) instead of the skin fibroblast assay. Our recent study (M. Hakoda et al., Mutat. Res. 197, 161-169, 1988) showed that most of the colonies consisted of lymphocytes bearing CD4 or CD8 antigens. Since the fraction of CD4+ and CD8+ cells in PBL differs among individuals, we suspected that individual radiosensitivity might be biased by the different subset frequencies if the dose-survival curves of the CD4+ and CD8+ cells were different from each other. In the present study, CD4+ (helper/inducer T) and CD8+ (suppressor/cytotoxic T) lymphocytes were isolated from PBL and their dose-survival curves were determined. The results showed that the D10 (dose required to reduce the surviving fraction to 10%) was similar for these two types of cells [3.13 +/- 0.10 Gy (mean +/- SD) for CD4+, 3.34 +/- 0.50 Gy for CD8+ and 3.14 +/- 0.17 Gy for the unsorted cells], supporting the use of the whole PBL population for the screening of individuals with altered radiosensitivity.

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Characterization of a mammalian mutant with a camptothecin-resistant DNA topoisomerase I.

Andoh¹,

Ishii²,

Suzuki³

et al. 1987

Proc. Natl. Acad. Sci. U.S.A.

246

110

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DNA topoisomerase I was purified to near homogeneity from a clonal line of human lymphoblastic leukemia cells, RPMI 8402, that is resistant to camptothecin, a cytotoxic alkaloid from Camptotheca acuminata, and compared with that of the parent wild-type cells. As assayed by relaxation of the supercoiled plasmid DNA and by formation of enzymelinked DNA breaks, the purified enzyme from the resistant cells was shown to be >125-fold as resistant to camptothecin as the wild-type enzyme, comparable to a cellular resistance index of about 300. Therefore, the cellular resistance appears to be due to the resistance of the enzyme. The amount of the immunoreactive enzyme protein in whole extract appeared to be reduced to less than half that of the wild-type enzyme. These results establish that DNA topoisomerase I is the cellular target of camptothecin and that DNA topoisomerase I is essential for the survival of mammalian cells.The DNA topoisomerases are enzymes that catalyze the concerted breakage and rejoining of the DNA backbone and thereby are presumed to participate in various genetic processes (1-5). The type I topoisomerases transiently cut and reseal one DNA strand so that the linking number changes by steps of one. Genetic and functional studies of the enzymes have been largely limited to prokaryotes and the lower eukaryote yeast. Viable mutants ofEscherichia coli defective in the topA gene encoding topoisomerase I were isolated (6, 7), but these proved to have mutations in DNA gyrase genes that compensated for the mutation in topA (8-10). This finding suggested an essential role for the enzyme in regulating the degree of supercoiling of DNA by counteracting the activity of the type II enzyme. In contrast, however, topoisomerase I-deficient mutants of yeast were isolated and shown to be viable, although they possessed the wild-type allele of topoisomerase II (11,12). The effect of the topoisomerase I mutation, however, was manifested by an additional mutation in topoisomerase II, implicating the complementary role of the latter (12).Topoisomerase I was previously found associated with transcriptionally active chromatin in mammalian cells (13,14). It also appears to be catalytically active on transcriptionally active genes in Drosophila polytene chromosomes (15) as well as on nucleolus-associated ribosomal genes (16-19). These experiments suggest a functional role for the enzyme in transcriptional events involving either RNA polymerase I or II.The availability of mutants and specific inhibitors of this enzyme as was the case in prokaryotes might help dissect and establish the role of this enzyme in DNA metabolism. We previously reported that heparin is a potent inhibitor of a mammalian DNA topoisomerase I (20, 21), but its broad specificity limits its usefulness for this purpose. Camptothecin (CPT) is a cytotoxic alkaloid isolated from Camptotheca acuminata (22, 23), which has a strong antitumor activity against a wide range of experimental tumors. CPT inhibits RNA and DNA synthesis and causes rapid and rev...

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Long-lasting alterations of the immune system by ionizing radiation exposure: Implications for disease development among atomic bomb survivors

Kusunoki

Hayashi

2008

International Journal of Radiation Biology

135

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Significant immunological alterations noted include: (i) attrition of T-cell functions, as reductions in mitogen-dependent proliferation and interleukin-2 (IL-2) production; (ii) decrease in helper T-cell populations; and (iii) increase in blood inflammatory cytokine levels. These findings suggest that A-bomb radiation exposure perturbed one or more of the primary processes responsible for T-cell homeostasis and the balance between cell renewal and survival and cell death among naive and memory T cells. Such perturbed T-cell homeostasis may result in acceleration of immunological aging. Persistent inflammation, linked in some way to the perturbation of T-cell homeostasis, is key in addressing whether such noted immunological changes observed in A-bomb survivors are in fact associated with disease development.

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