Koichi Nagayama scite author profile

Koichi Nagayama

5Publications

29Citation Statements Received

20Citation Statements Given

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Affiliations

University of Teacher Education Fukuoka, Kindai University, Tokuyama (Japan)

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Genetic alterations on chromosome 17 in human breast cancer: relationships to clinical features and DNA ploidy

Watatani

Nagayama

Imanishi

et al. 1993

Breast Cancer Res Tr

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We analyzed DNA from 105 primary breast cancers to assess amplification of the ERBB2 gene and loss of heterozygosity (LOH) on chromosome 17 using 4 polymorphic markers, and investigated the relationships of these genetic alterations to clinicopathological characteristics including DNA ploidy. Amplification of the ERBB2 gene was observed in 28% of the tumors. ERBB2 was amplified in tumors of all clinical stages and amplification was significantly linked to lymph node metastasis. LOH at D17S5 was observed in 28 of 57 informative tumors, while 17 of 62 informative tumors showed allelic loss at TP53. Among the 37 tumors informative for both loci, 32% showed LOH at these loci and 49% retained both alleles, indicating that there was a significant relationship between LOH at D17S5 and at TP53. We also examined LOH at the D17S74 and NME1 loci on chromosome 17q. LOH at D17S74 and NME1 was observed in 20% and 22% of the informative tumors, respectively, but there was no significant association between LOH at these loci. Of the 4 loci tested, LOH at TP53, D17S74, and NME1 was associated with clinical stage. Lymph node metastasis was correlated with LOH at NME1. Moreover, allelic loss was more frequent in aneuploid tumors than in diploid tumors. These results suggest that certain combinations of genetic alterations on chromosome 17 may cooperate in the development and/or progression of breast cancer. Furthermore, it seems likely that analysis of these alterations in breast cancer patients may provide useful prognostic information.

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Analysis of Genetic Alterations Related to the Development and Progression of Breast Carcinoma

Nagayama

Watatani

1993

Japanese Journal of Cancer Research

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To study genetic alterations related to the development and/or progression of breast carcinoma, we examined amplification of the ERBB2, INT2, and MYC genes, as well as loss of heterozygosity (LOH) at loci on 11p, 16q, 17p (D17S5 and TP53), 17q (D17S74 and NME1), and 18q by restriction fragment length polymorphism analysis. The subjects were 26 patients with small breast carcinomas (≦2 cm) and 88 patients with larger breast carcinomas (2 to < 5 cm). All patients were free of distant metastasis. As tumor diameter increased, the frequency of oncogene amplification and LOH at all loci except D17S5 increased. However, there was no relationship between tumor diameter and amplification of specific oncogenes or allelic loss at specific loci. LOH at D17S5 was detected in 40% of small breast carcinomas (≦2 cm) and 43% of larger breast carcinomas (2 to < 5 cm). There was a significant correlation of LOH at D17S5 with INT2 amplification or with LOH on 11p, 16q, and 18q. These findings suggest that LOH at D17S5 may be involved in the early stage of breast carcinoma development, while INT2 amplification and LOH at 11p, 16q, and 18q appear to be genetic alterations that occur with tumor progression. In addition, as lymph node metastases were significantly related to amplification of the ERBB2 and MYC genes, and LOH of the NME1 gene, these genetic alterations may play a role in the mechanism of lymph node metastases.

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Risk Prediction Models of Frost Damage During Flower Bud Development for Four Deciduous Fruit Species

Sakuma¹,

Saito²,

Nagayama³

2013

Engeigaku kenkyuu

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For efficient frost protection of fruit species, we constructed risk prediction models of frost damage for apples, Japanese pears, peaches, and cherries, using data obtained from the freezing treatment of twigs bearing flower buds. These are logistic regression models designed to estimate the occurrence of frost damage during flower bud development from the bud break stage to the post bloom stage. These models were obtained from logistic regression analysis using the freeze treatment temperatures as explanatory variables. On the basis of a likelihood ratio test, the fitness of all models was good, and judging by the identification rate, the prediction accuracy was high, except for the bud break stage model of the 'Fuji' apple and the calyx red stage model of the 'Akatsuki' peach. Nevertheless, with the exception of some of the development stage models for cherries, it became clear that the logistic curve of each model shifted to the high temperature side from the bud break stage to the post bloom stage. This phenomenon suggests that the importance of frost protection increases as the flower bud develops. Risk prediction based on the estimation of economic losses caused by frost damage is needed for effective frost protection. However, in our experiment, we did not examine damage after the post bloom stage. Therefore, in the future, we will evaluate the utility of models by examining past and future cases of frost damage caused under field conditions.

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Low grade amplification of MDM2 gene in a subset of human breast cancers without p53 alterations

et al. 1994

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MDM2 protein is thought to bind to p53 tumor suppressor protein leading to inhibition of p53-mediated transactivation. Amplification of the MDM2 gene has been frequently observed in human sarcoma, and relevant overexpression of the MDM2 protein is assumed to contribute to tumorigenesis through inactivation of the p53 function. In order to determine whether MDM2 amplification plays a role in the development of human breast cancer without genetic alteration of p53, we analyzed, MDM2 gene amplification by quantitative hybridization and genetic alteration of p53, in 32 primary tumors and 26 metastatic lymph nodes. Low grade amplification of the MDM2 gene (2-6 fold) was observed in four cases, none of which showed even subtle genetic alterations of p53 or loss of alleles on 17p. Moreover, in three of the four cases with MDM2 gene amplification, the level of gene amplification in the metastatic lymph nodes was slightly higher than that in the primary tumors. These results, taken together with previous findings, suggest that a subset of breast cancers without genetic alteration of p53 may also arise by inactivation of the p53 function through interaction with the overexpressed MDM2 protein induced by gene amplification.

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Identification of high-risk breast cancer patients from genetic changes of their tumors

et al. 2000

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To identify the genetic prognostic markers for breast cancer, we analyzed loss of heterozygosity (LOH) at 11p, 16q, 17p, 17q, and 18q, as well as amplification of the ERBB2, INT2, and MYC genes, in 131 patients with breast carcinoma, 49 of whom had lymph node involvement, but none of whom had distant metastases. Among the several chromosome arms tested, LOH at 17q was correlated with lymph node metastasis. Amplification of the ERBB2, MYC, and INT2 genes was found more frequently in tumors from patients with lymph node metastases than in tumors from those without lymph node metastases. Univariate analysis demonstrated that LOH at 17q and INT2 amplification were factors influencing disease-free survival (DFS). A multivariate analysis was performed on 89 tumors that were able to be evaluated for both LOH at 17q and INT2 amplification, and the results showed that patients who had tumors with these genetic changes were more likely to have a poor prognosis. The findings of this study suggest that investigating genetic changes, in addition to conventional clinicopathologic factors, may contribute to defining groups of breast cancer patients with differences in prognosis.

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Koichi Nagayama

Genetic alterations on chromosome 17 in human breast cancer: relationships to clinical features and DNA ploidy

Analysis of Genetic Alterations Related to the Development and Progression of Breast Carcinoma

Risk Prediction Models of Frost Damage During Flower Bud Development for Four Deciduous Fruit Species

Low grade amplification of MDM2 gene in a subset of human breast cancers without p53 alterations

Identification of high-risk breast cancer patients from genetic changes of their tumors

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