Molecular Characterization of Metanephric Adenoma, Epithelial Wilms Tumor, and Overlap Lesions: An Integrated Whole-exome and Transcriptome Sequencing Analysis
Chin‐Chen PanChih-En TsengNaoto KurodaMitsutake YanoMasanori YasudaYoji NagashimaYi‐Chen YehYu‐Chao WangYen-Hwa ChangJonathan I. Epstein
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Abstract:
Metanephric adenoma (MA) and Wilms tumor (WT) represent 2 prototypes of primary renal neoplasms closely resembling embryonal renal tubules. Tumors with overlapping features may occur, requiring differential diagnoses between the 2. Evidence of divergent oncogenic pathways has been reported, suggesting that MA is driven by BRAF mutation while most WT is of the BRAF wild-type. We collected 4 MA cases, 3 cases of monophasic epithelial WT, and 1 overlap metanephric tumor that contains both conventional MA and high-grade components similar to epithelial WT. Whole-exome sequencing and whole transcriptome sequencing were performed to discover mutations, somatic copy number variation, and differential expression. The findings were compared with those of WT of the TARGET database (WT-TARGET). BRAF V600E mutation was detected in all MAs as well as the overlap tumor but was undetectable in all epithelial WTs and WT-TARGET. The overlap tumor showed an additional pathogenic mutation of SETD2. Three frequent gene mutations observed in WT-TARGET were not common in epithelial WT, in which the mutations appeared sporadic. The profiles of recurrent copy number variations were all different among MA, epithelial WT, and WT-TARGET. Differential expression and unsupervised hierarchical cluster analyses revealed distinct clusters of the 3 categories. Remarkably, the overlap tumor coclustered with MA, separated from epithelial WT and WT-TARGET. The distinctiveness of MA and WT were demonstrated corresponding to BRAF-mutated and non-BRAF-mutated pathways from the molecular perspective. BRAF assay has diagnostic implication for overlap tumors.Keywords:
V600E
Background: The BRAF-V600 mutation is the most common mutation in cutaneous melanomas and is currently considered a target mutation when planning treatment for metastatic melanoma patients. Various techniques are used to determine the mutation status. The aim of this study was to determine the BRAF-V600 mutation status in primary and metastatic foci of melanoma cases and the consistency between the results of immunohistochemical and molecular methods. Methods: A total of 48 primary or metastatic cases were included in the study. Pyrosequencing was used as the molecular method and the VE1 antibody for immunohistochemical evaluation when determining the BRAF-V600 mutation. Results: The BRAF-V600 mutation was found in 75 of the 96 tumors (78.1%) from the 48 cases. V600E and V600K were present in 60 and 10 tumors, respectively, whereas V600R and V600M were present in 2 tumors and V600G in 1 tumor. There was no mutation in 5 metastases (12.8%) of the 39 cases with a V600 mutation in the primary tumor and no mutation in the primary tumor of 2 of the 36 cases (5.6%) with the V600 mutation in the metastasis. Fifty-six tumors were immunohistochemically positive where a V600E mutation was detected with pyrosequencing. Wild-type tumors (n = 20) and tumors with non-V600E mutations (n = 15) on pyrosequencing were immunonegative with VE1. The sensitivity and specificity of immunohistochemistry were 93.3% and 97.2%, respectively. Conclusions: In conclusion, BRAF-V600 mutation inconsistencies of up to 14.5% can be seen between the primary and metastatic foci in melanoma cases. These findings should be taken into account when planning targeted therapy and deciding on treatment responsiveness/unresponsiveness. An immunohistochemical method can be used as the first step to detect a BRAF-V600 mutation but additional molecular methods should be used when immunohistochemistry results are negative.
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Abstract In multiple myeloma, there has been little progress in the specific therapeutic targeting of oncogenic mutations. Whole-genome sequencing data have recently revealed that a subset of patients carry an activating mutation (V600E) in the BRAF kinase. To uncover the clinical relevance of this mutation in multiple myeloma, we correlated the mutation status in primary tumor samples from 379 patients with myeloma with disease outcome. We found a significantly higher incidence of extramedullary disease and a shorter overall survival in mutation carriers when compared with controls. Most importantly, we report on a patient with confirmed BRAF V600E mutation and relapsed myeloma with extensive extramedullary disease, refractory to all approved therapeutic options, who has rapidly and durably responded to low doses of the mutation-specific BRAF inhibitor vermurafenib. Collectively, we provide evidence for the development of the BRAF V600E mutation in the context of clonal evolution and describe the prognostic and therapeutic relevance of this targetable mutation. Significance: This is the first evidence of the clinical and therapeutic relevance of BRAF V600E mutations in multiple myeloma, proving the principle of specific inhibition of driver mutations in this disease. Cancer Discov; 3(8); 862–9. ©2013 AACR. See related commentary by O'Donnell and Raje, p. 840 This article is highlighted in the In This Issue feature, p. 826
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Abstract Age is well-known to be a significant factor in both disease pathology and response to treatment, yet the molecular changes that occur with age in humans remain ill-defined. Here, using transcriptome profiling of healthy human male skin, we demonstrate that there is a period of significantly elevated, transcriptome-wide expression changes occurring predominantly in middle age. Both pre and post this period, the transcriptome appears to undergo much smaller, linear changes with increasing age. Functional analysis of the transient changes in middle age suggest a period of heightened metabolic activity and cellular damage associated with NF-kappa-B and TNF signaling pathways. Through meta-analysis we also show the presence of global, tissue independent linear transcriptome changes with age which appear to be regulated by NF-kappa-B. These results suggest that aging in human skin is associated with a critical mid-life period with widespread transcriptome changes, both preceded and proceeded by a relatively steady rate of linear change in the transcriptome. The data provides insight into molecular changes associated with normal aging and will help to better understand the increasingly important pathological changes associated with aging.
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Transcriptome analysis is a powerful tool to characterize changes in leukocyte gene expression patterns and reveal very early molecular abnormalities in tissue. Herein, we report on characterization of the very earliest abnormalities in the transcriptome of leukocytes from young "prepathologic" NOD and NON female mice.
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Abstract The human genome is thought to contain 100 000 genes of which a subset of approximately 15 000 to 20 000 genes is expressed in an individual cell. The set of genes expressed and the stoichiometry of the resulting messenger RNAs, together called a transcriptome, determine the phenotype of a cell, tissue, and whole organism. It is generally accepted that a transcriptome is largely determined by an interplay of hereditary and environmental factors. For example, in the CNS, a challenge from the environment, e.g. a learning or a traumatic experience may lead to an alteration of the transcriptome of target neurons. Thus, transcriptome analysis and subsequent transcriptome comparisons may reveal novel insights in the molecular mechanisms underlying complex processes such learning and memory formation.
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Background: We investigated the additional diagnostic yield of the mutation test and evaluated the frequency of the BRAF mutation in conventional PTC (cPTC) according to ultrasound (US) features and the Bethesda System for Reporting Thyroid Cytopathology (BSRTC) based on the BRAF V600E mutation status. Materials and Methods: During the study period, 279 patients who underwent FNA with an additional BRAF V600E mutation test were diagnosed as cPTC after surgery. We analyzed the association between the mutation and several clinical factors. Results: Of the 279 cPTCs, 250 (89.6%) had the BRAF V600E mutation. The BRAF mutation test was helpful in diagnosing an additional 19% (53/279) of cPTCs. The frequency of the BRAF mutation in cPTCs with suspicious US features was higher than that of cPTCs with negative US features regardless of the BSRTC. Conclusions: Suspicious US features may be helpful in deciding whether an additional BRAF V600E mutation test should be done in thyroid nodules with indeterminate cytology.
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BRAF V600E is the most common mutation in cutaneous melanomas, and has been described in 30-72% of such cases. This mutation results in the substitution of valine for glutamic acid at position 600 of the BRAF protein, which consequently becomes constitutively activated. The present study investigated the BRAF V600E mutation frequency and its clinical implications in a group of 77 primary cutaneous melanoma patients treated in a cancer reference center in Brazil. Mutation analysis was accomplished by polymerase chain reaction, restriction fragment length polymorphism, and automated DNA sequencing. The chi-squared and Fischer exact tests were used for comparative analyses. The BRAF V600E mutation was detected in 54/77 (70.1%) melanoma subjects. However, no statistically significant association was found between the presence of the mutation and clinical or prognostic parameters. Our results demonstrated that the BRAF V600E mutation is a common event in melanomas, representing an important molecular target for novel therapeutic approaches in such tumors.
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