Your search keyword '"Huang, Chi-Jung"' showing total 6 results

1. Residual risk stratification of Taiwanese breast cancers following curative therapies with the extended concurrent genes signature

Author

Huang, Ching-Shui, Lu, Tzu-Pin, Liu, Chih-Yi, Huang, Chi-Jung, Chiu, Jen-Hwey, Chen, Yen-Jen, Tseng, Ling-Ming, and Huang, Chi-Cheng

Published

2021

2. Refinement of breast cancer risk prediction with concordant leading edge subsets from prognostic gene signatures

Author

Huang, Chi-Cheng, Tu, Shih-Hsin, Lien, Heng-Hui, Huang, Ching-Shui, Huang, Chi-Jung, Lai, Liang-Chuan, Tsai, Mon-Hsun, and Chuang, Eric Y.

Published

2014

3. The extended concurrent genes signature for disease-free survival in breast cancer.

Author

Huang, Ching-Shui, Tsai, Ming-Lin, Lu, Tzu-Pin, Tu, Chao-Chiang, Liu, Chih-Yi, Huang, Chi-Jung, Ho, Yuan-Soon, Tu, Shih-Hsin, Chuang, Eric Y., Tseng, Ling-Ming, and Huang, Chi-Cheng

Subjects

GENETICS, PROGNOSIS, TUMORS, OLIGONUCLEOTIDE arrays, CYTOGENETICS

Abstract

Background/purpose: Previously we had identified concurrent genes, which highlighted the interplay between copy number variation (CNV) and differential gene expression (GE) for Han Chinese breast cancers. The merit of the approach is to discovery biomarkers not identifiable by conventional GE only data, for which phenotype-correlation or gene variability is the criteria of gene selection.Materials and Methods: Thirty-one comparative genomic hybridization (CGH) and 83 GE microarrays were performed, with 29 breast cancers assayed from both platforms. Potential targets were revealed by Genomic Identification of Significant Targets in Cancer (GISTIC) from CGH arrays. Concurrent genes and genes with significant GISTIC scores were used to derive the extended concurrent genes signature, which was consensus from leading edge analysis across all studies and a supervised partial least square (PLS) regression predictive model of disease-free survival was constructed.Results: There were 1584 concurrent genes from 29 samples with both CGH and GE microarrays. Enriched concurrent genes sets for disease-free survival were identified independently from 83 GE arrays and another one with Han Chinese origin as well as three studies of Western origin. For five studies with disease-free survival follow up, prognostic discrepancy was observed between predicted high-risk and low-risk group patients.Conclusion: We concluded that through parallel analyses of CGH and GE microarrays, the proposed extended concurrent gene expression signature can identify biomarkers with prognostic values. [ABSTRACT FROM AUTHOR]

Published

2022

4. Targeted Sequencing of Taiwanese Breast Cancer with Risk Stratification by the Concurrent Genes Signature: A Feasibility Study.

Author

Huang, Ching-Shui, Liu, Chih-Yi, Lu, Tzu-Pin, Huang, Chi-Jung, Chiu, Jen-Hwey, Tseng, Ling-Ming, and Huang, Chi-Cheng

Subjects

DISEASE risk factors, GENETIC mutation, NOTCH genes, BREAST cancer, SOMATIC mutation

Abstract

Breast cancer is the most common female malignancy in Taiwan, while conventional clinical and pathological factors fail to provide full explanation for prognostic heterogeneity. The aim of the study was to evaluate the feasibility of targeted sequencing combined with concurrent genes signature to identify somatic mutations with clinical significance. The extended concurrent genes signature was based on the coherent patterns between genomic and transcriptional alterations. Targeted sequencing of 61 Taiwanese breast cancers revealed 1036 variants, including 76 pathogenic and 545 likely pathogenic variants based on the ACMG classification. The most frequently mutated genes were NOTCH, BRCA1, AR, ERBB2, FANCA, ATM, and BRCA2 and the most common pathogenic deletions were FGFR1, ATM, and WT1, while BRCA1 (rs1799965), FGFR2 (missense), and BRCA1 (rs1799949) were recurrent pathogenic SNPs. In addition, 38 breast cancers were predicted into 12 high-risk and 26 low-risk cases based on the extended concurrent genes signature, while the pathogenic PIK3CA variant (rs121913279) was significantly mutated between groups. Two deleterious SH3GLB2 mutations were further revealed by multivariate Cox's regression (hazard ratios: 29.4 and 16.1). In addition, we identified several significantly mutated or pathogenic variants associated with differentially expressed signature genes. The feasibility of targeted sequencing in combination with concurrent genes risk stratification was ascertained. Future study to validate clinical applicability and evaluate potential actionability for Taiwanese breast cancers should be initiated. [ABSTRACT FROM AUTHOR]

Published

2021

5. Multi-gene signature of microcalcification and risk prediction among Taiwanese breast cancer.

Author

Tsai, Hsin-Tien, Huang, Ching-Shui, Tu, Chao-Chiang, Liu, Chih-Yi, Huang, Chi-Jung, Ho, Yuan-Soon, Tu, Shih-Hsin, Tseng, Ling-Ming, and Huang, Chi-Cheng

Subjects

CALCIFICATIONS of the breast, BREAST cancer, MESSENGER RNA, RADIOLOGY, MINERALIZATION

Abstract

Microcalcification is one of the most common radiological and pathological features of breast ductal carcinoma in situ (DCIS), and to a lesser extent, invasive ductal carcinoma. We evaluated messenger RNA (mRNA) transcriptional profiles associated with ectopic mammary mineralization. A total of 109 breast cancers were assayed with oligonucleotide microarrays. The associations of mRNA abundance with microcalcifications and relevant clinical features were evaluated. Microcalcifications were present in 86 (79%) patients by pathological examination, and 81 (94%) were with coexistent DCIS, while only 13 (57%) of 23 patients without microcalcification, the invasive diseases were accompanied with DCIS (χ2-test, P < 0.001). There were 69 genes with differential mRNA abundance between breast cancers with and without microcalcifications, and 11 were associated with high-grade (comedo) type DCIS. Enriched Gene Ontology categories included glycosaminoglycan and aminoglycan metabolic processes and protein ubiquitination, indicating an active secretory process. The intersection (18 genes) of microcalcificaion-associated and DCIS-associated genes provided the best predictive accuracy of 82% with Bayesian compound covariate predictor. Ten genes were further selected for prognostic index score construction, and five-year relapse free survival was 91% for low-risk and 83% for high-risk group (log-rank test, P = 0.10). Our study suggested that microcalcification is not only the earliest detectable radiological sign for mammography screening but the phenomenon itself may reflect the underling events during mammary carcinogenesis. Future studies to evaluate the prognostic significance of microcalcifications are warranted. [ABSTRACT FROM AUTHOR]

Published

2020

6. Concurrent Gene Signatures for Han Chinese Breast Cancers.

Author

Huang, Chi-Cheng, Tu, Shih-Hsin, Lien, Heng-Hui, Jeng, Jaan-Yeh, Huang, Ching-Shui, Huang, Chi-Jung, Lai, Liang-Chuan, and Chuang, Eric Y.

Subjects

CHINESE people, BREAST cancer, DNA copy number variations, GENE expression, CANCER genes, COMPARATIVE genomic hybridization, CHROMOSOMES, DISEASES

Abstract

The interplay between copy number variation (CNV) and differential gene expression may be able to shed light on molecular process underlying breast cancer and lead to the discovery of cancer-related genes. In the current study, genes concurrently identified in array comparative genomic hybridization (CGH) and gene expression microarrays were used to derive gene signatures for Han Chinese breast cancers. We performed 23 array CGHs and 81 gene expression microarrays in breast cancer samples from Taiwanese women. Genes with coherent patterns of both CNV and differential gene expression were identified from the 21 samples assayed using both platforms. We used these genes to derive signatures associated with clinical ER and HER2 status and disease-free survival. Distributions of signature genes were strongly associated with chromosomal location: chromosome 16 for ER and 17 for HER2. A breast cancer risk predictive model was built based on the first supervised principal component from 16 genes (RCAN3, MCOLN2, DENND2D, RWDD3, ZMYM6, CAPZA1, GPR18, WARS2, TRIM45, SCRN1, CSNK1E, HBXIP, CSDE1, MRPL20, IKZF1, and COL20A1), and distinct survival patterns were observed between the high- and low-risk groups from the combined dataset of 408 microarrays. The risk score was significantly higher in breast cancer patients with recurrence, metastasis, or mortality than in relapse-free individuals (0.241 versus 0, P<0.001). The concurrent gene risk predictive model remained discriminative across distinct clinical ER and HER2 statuses in subgroup analysis. Prognostic comparisons with published gene expression signatures showed a better discerning ability of concurrent genes, many of which were rarely identifiable if expression data were pre-selected by phenotype correlations or variability of individual genes. We conclude that parallel analysis of CGH and microarray data, in conjunction with known gene expression patterns, can be used to identify biomarkers with prognostic values in breast cancer. [ABSTRACT FROM AUTHOR]

Published

2013