Detection of c-kit exons 11- and 17-activating mutations in testicular seminomas by high-resolution melting amplicon analysis

Willmore-Payne, Carlynn; Holden, Joseph A.; Chadwick, Barbara; Layfield, Lester J.

doi:10.1038/modpathol.3800623

Cited by 52 publications

(28 citation statements)

References 28 publications

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“…Where constitutional DNA was able to be examined, the c.2394 c>t was present in constitutional DNA with one tumor and matching constitutional DNA showing a c.2394 c>t homozygous variant. The c.2394 c>t; p.Ile798Ile variant was not documented in dbSNP (build 36) but has been identified in other studies of GCTs (Przygodzki et al, 2002;Willmore-Payne et al, 2006).…”

Section: Resultsmentioning

confidence: 99%

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Somatic KIT mutations occur predominantly in seminoma germ cell tumors and are not predictive of bilateral disease: Report of 220 tumors and review of literature

Coffey

Linger

Pugh

et al. 2007

Genes Chromosomes & Cancer

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Mutations in the KIT gene occur in 8% of all testicular germ cell tumors (TGCT) and KIT is the most frequently mutated known cancer gene. One report has shown that 93% of patients with bilateral disease have a mutation at codon 816 of the KIT gene. Importantly, this suggests that the identification of a mutation in KIT is predictive of the development of a contralateral TGCT. We investigated the frequency and type of mutations in KIT in a series of 220 tumors from 211 patients with TGCTs and extragonadal germ cell tumors. In 170 patients with unilateral TGCT and no additional germ cell tumour, we identified one exon 11 mutation in a patient with unilateral TGCT and eight activating KIT mutations in exon 17 (9/175, 5.1%). In 32 patients with bilateral TGCT, one patient had an activating KIT mutation in exon 17 (3.1%). The incidence of activating KIT mutations in sporadic TGCT vs. familial TGCT was not significantly different. All mutations were identified in seminomas. Three extragonadal primary germ cell tumors were examined and in one tumor an activating KIT mutation was demonstrated in the pineal germinoma. Interestingly, this mutation was also seen in the patient's testicular seminoma. We find no evidence for an increased frequency of KIT mutations in bilateral TGCT. V V C 2007 Wiley-Liss, Inc.

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Section: Resultsmentioning

confidence: 99%

“…Only a few mutations in exon 11 have been reported for germ cell tumors (Sakuma et al, 2003;Rapley et al, 2004;Nakai et al, 2005;Willmore-Payne et al, 2006) (Table 2).…”

Section: Introductionmentioning

confidence: 99%

Somatic KIT mutations occur predominantly in seminoma germ cell tumors and are not predictive of bilateral disease: Report of 220 tumors and review of literature

Coffey

Linger

Pugh

et al. 2007

Genes Chromosomes & Cancer

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“…Although HRM curve analysis has been tested and shown to be successful in a number of research laboratories for clinical use [Chou et al, 2005;Dobrowolski et al, 2005Dobrowolski et al, , 2007aDobrowolski et al, , 2007bGrievink and Stowell, 2008;Kennerson et al, 2007;Krypuy et al, 2006;Lonie et al, 2006;Margraf et al, 2006;Poláková et al, 2008;Seipp et al, 2008;Smith et al, 2008;Willmore-Payne et al, 2006], we wanted to assess this method for detecting multiple sequence variants, as well as single and multiple variants (including both constitutional and somatic), within GC-rich fragments, as it would be applied in a diagnostic setting, with minimal expertise and time to manipulate assay design. This was achieved by screening five fragments for 13 variants in a total of 35 different combinations using the LightScanner s System and LC Green s PLUS DNA binding dye (Idaho Technology) as well as screening five GC-rich (Z65%) fragments for 12 variants in 22 combinations using the LightCycler s 480 and HRM Master dye (Roche).…”

Section: Discussionmentioning

confidence: 99%

Assessing high-resolution melt curve analysis for accurate detection of gene variants in complex DNA fragments

et al. 2009

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Mutation detection has, until recently, relied heavily on the use of gel-based methods that can be both time consuming and difficult to design. Nongel-based systems are therefore important to increase simplicity and improve turn around time without compromising assay sensitivity and accuracy, especially in the diagnostic/ clinical setting. In this study, we assessed the latest of the nongel-based methods, namely high-resolution melt (HRM) curve analysis. HRM is a closed-tube method that incorporates a saturating dye during DNA amplification followed by a monitoring of the change in fluorescence as the DNA duplex is denatured by an increasing temperature. We assessed 10 amplicons derived from eight genes, namely SERPINA1, CXCR7, MBL, VDR, NKX3A, NPY, TP53, and HRAS using two platforms, the LightScanner s System using LC Green s PLUS DNA binding dye (Idaho Technology, Salt Lake City, UT, USA) and the LightCycler s 480 using the HRM Master dye (Roche Diagnostics, Indianapolis, IN, USA). DNA variants (mutations or polymorphims) were previously identified using denaturing gradient gel electrophoresis (DGGE) a method, similarly to HRM, based upon the different melting properties of doublestranded DNA. Fragments were selected based on variant and fragment complexity. This included the presence of multiple sequence variants, variants in alternate orientations, and single or multiple variants (constitutional or somatic) in GC-rich fragments. We demonstrate current limitations of the HRM method for the analysis of complex DNA regions and call for caution when using HRM as the sole method to make a clinical diagnosis based on genetic analysis.

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“…10, No. 5 already been successfully applied to the analysis of TP53, 22 phenylalanine hydroxylase gene, 23 factor VIII, 24 factor II, factor V, HFE, 11,25,26 C-kit, 27 EGFR HER2, 28 RET, 29 and CFTR. 30 In this last study, the authors report the CFTR scanning by HRM after PCR amplification of 37 exon/intron fragments in 2 panels of 96 random white UK blood donors and 30 blinded DNA samples enriched for CF-causing variants.…”

Section: Discussionmentioning

confidence: 99%

Validation of High-Resolution DNA Melting Analysis for Mutation Scanning of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Gene

Audrézet

Dabricot

Maréchal

et al. 2008

The Journal of Molecular Diagnostics

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High-resolution melting analysis of polymerase chain reaction products for mutation scanning , which began in the early 2000s , is based on monitoring of the fluorescence released during the melting of doublestranded DNA labeled with specifically developed saturation dye , such as LC-Green. We report here the validation of this method to scan 98% of the coding sequence of the cystic fibrosis transmembrane conductance regulator (CFTR) gene. We designed 32 pairs of primers to amplify and analyze the 27 exons of the gene. Thanks to the addition of a small GC-clamp at the 5 ends of the primers , one single melting domain and one identical annealing temperature were obtained to co-amplify all of the fragments. A total of 307 DNA samples , extracted by the salt precipitation method , carrying 221 mutations and 21 polymorphisms , plus 20 control samples free from variations (confirmed by denaturing high-performance liquid chromatography analysis) , was used. With the conditions described in this study , 100% of samples that carry heterozygous mutations and 60% of those with homozygous mutations were identified. The study of a cohort of 136 idiopathic chronic pancreatitis patients enabled us to prospectively evaluate this technique. Thus, high-resolution melting analysis is a robust and sensitive single-tube technique for screening mutations in a gene and promises to become the gold standard over denaturing high-performance liquid chromatography, particularly for highly mutated genes such as CFTR, and appears suitable for use in reference diagnostic laboratories. (J Mol

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Detection of c-kit exons 11- and 17-activating mutations in testicular seminomas by high-resolution melting amplicon analysis

Cited by 52 publications

References 28 publications

Somatic KIT mutations occur predominantly in seminoma germ cell tumors and are not predictive of bilateral disease: Report of 220 tumors and review of literature

Somatic KIT mutations occur predominantly in seminoma germ cell tumors and are not predictive of bilateral disease: Report of 220 tumors and review of literature

Assessing high-resolution melt curve analysis for accurate detection of gene variants in complex DNA fragments

Validation of High-Resolution DNA Melting Analysis for Mutation Scanning of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Gene

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