Mutational Analysis in Pediatric Thyroid Cancer and Correlations with Age, Ethnicity, and Clinical Presentation.

BackgroundWell-differentiated thyroid cancer (WDTC) incidence in pediatrics is rising, most being papillary thyroid carcinoma (PTC). The objective of the study was to assess the prevalence of different mutations in pediatric WDTC and correlate the genotype with the clinical phenotype.MethodsThis is a single-center retrospective study. Thyroid tissue blocks from 42 consecutive pediatric WDTC patients who underwent thyroidectomy between 2001 and 2013 were analyzed at Quest Diagnostics for BRAF(V600E), RAS mutations (N,K,H), and RET/PTC and PAX8/PPARγ rearrangements, using validated molecular methods. Thyroid carcinomas included PTC, follicular thyroid carcinoma (FTC), and follicular variant of PTC (FVPTC).ResultsThirty-nine samples (29 females) were genotyped. The mean age at diagnosis was 14.7 years (range 7.9-18.4 years), and most were Hispanic (56.4%) or Caucasian (35.9%). The mean follow-up period was 2.9 years. Mutations were noted in 21/39 (53.8%), with both BRAF(V600E) (n = 9), and RET/PTC (n = 6) detected only in PTC. Mutations were detected in 2/5 FTC (PAX8/PPARγ and NRAS) and 3/6 FVPTC cases (PAX8/PPARγ). Of 28 PTC patients, 57.1% had mutations: 32.1% with BRAF(V600E), 21.4% with RET/PTC, and 3.6% with NRAS. Of patients with BRAF(V600E), 77.8% were Hispanic and 88.9% were >15 years, while all RET/PTC-positive patients were ≤15 years (p = 0.003). Tumor size, lymph node involvement, and distant metastasis at diagnosis (or soon after (131)I ablation) did not vary significantly based on the mutation.ConclusionsBRAF(V600E) was the most common mutation, especially in older and Hispanic adolescents. A larger, ethnically diverse pediatric cohort followed long term will enable the genotypic variability, clinical presentation, and response to therapy to be better assessed

Characterization of a Recurrent Novel Large Duplication in the Cystic Fibrosis Transmembrane Conductance Regulator Gene

Recently, DNA rearrangements in the cystic fibrosis transmembrane conductance regulator (CFTR) gene have been described with increasing frequency. These large DNA rearrangements are not detected using conventional methods of DNA sequencing, single-strand conformational polymorphism, or denaturing high-performance liquid chromatography. We and others have described methods to detect such rearrangements in the CFTR gene. With one exception, all rearrangements reported thus far are single or multiple exon deletions, whereas only one report has described a large duplication. We describe here the detection and characterization of a novel large duplication in the CFTR gene. This duplication, referred to as gIVS6a + 415_IVS10 + 2987Dup26817bp, was detected in a classic CF female patient whose other mutation was ΔF508. The duplication was inherited paternally. The duplication encompassed exons 6b to 10 and occurred on the IVS8-11TG/IVS8-7T/G1540 haplotype. This large duplication is predicted to result in the production of a truncated CFTR protein lacking the terminal part of NBD1 domain and beyond and thus can be considered a null allele. The combination of the ΔF508 and gIVS6a + 415_IVS10 + 2987Dup26817bp mutation probably causes the severe CF phenotype in this patient. We designed a simple polymerase chain reaction test to detect the duplication, and we further detected the same duplication from another independent laboratory. The duplication breakpoint is identical in all three patients, suggesting a likely founder mutation

Apparent Homozygosity of a Novel Frame Shift Mutation in the CFTR Gene Because of a Large Deletion

Patients develop cystic fibrosis because of a variety of homozygous recessive mutations, including single nucleotide polymorphisms, insertions, and deletions, in the cystic fibrosis transmembrane regulator (CFTR) gene, or because of compound heterozygosity for two mutations in the CFTR gene. A false determination of homozygosity for a particular CFTR mutation could negatively affect both carrier screens for a patient's family as well as researchers' ability to study the physiological implications of a particular mutation. We argued previously that homozygosity for rare or novel mutations in the CFTR gene could result from a mutation on one allele and the presence of a large deletion encompassing the same sequence region on the second allele. We present here a patient with classic cystic fibrosis who has a novel microdeletion in exon 7 on one allele and a large deletion encompassing exon 7 on the second allele. These data highlight the need to prevent misdiagnosis of homozygous mutations, which can lead to misinterpretation of mutation penetrance and its effects on protein function

Mutational Analysis in Pediatric Thyroid Cancer and Correlations with Age, Ethnicity, and Clinical Presentation.

BackgroundWell-differentiated thyroid cancer (WDTC) incidence in pediatrics is rising, most being papillary thyroid carcinoma (PTC). The objective of the study was to assess the prevalence of different mutations in pediatric WDTC and correlate the genotype with the clinical phenotype.MethodsThis is a single-center retrospective study. Thyroid tissue blocks from 42 consecutive pediatric WDTC patients who underwent thyroidectomy between 2001 and 2013 were analyzed at Quest Diagnostics for BRAF(V600E), RAS mutations (N,K,H), and RET/PTC and PAX8/PPARγ rearrangements, using validated molecular methods. Thyroid carcinomas included PTC, follicular thyroid carcinoma (FTC), and follicular variant of PTC (FVPTC).ResultsThirty-nine samples (29 females) were genotyped. The mean age at diagnosis was 14.7 years (range 7.9-18.4 years), and most were Hispanic (56.4%) or Caucasian (35.9%). The mean follow-up period was 2.9 years. Mutations were noted in 21/39 (53.8%), with both BRAF(V600E) (n = 9), and RET/PTC (n = 6) detected only in PTC. Mutations were detected in 2/5 FTC (PAX8/PPARγ and NRAS) and 3/6 FVPTC cases (PAX8/PPARγ). Of 28 PTC patients, 57.1% had mutations: 32.1% with BRAF(V600E), 21.4% with RET/PTC, and 3.6% with NRAS. Of patients with BRAF(V600E), 77.8% were Hispanic and 88.9% were >15 years, while all RET/PTC-positive patients were ≤15 years (p = 0.003). Tumor size, lymph node involvement, and distant metastasis at diagnosis (or soon after (131)I ablation) did not vary significantly based on the mutation.ConclusionsBRAF(V600E) was the most common mutation, especially in older and Hispanic adolescents. A larger, ethnically diverse pediatric cohort followed long term will enable the genotypic variability, clinical presentation, and response to therapy to be better assessed

Rapid One-Step Carrier Detection Assay of Mucolipidosis IV Mutations in the Ashkenazi Jewish Population

Two mutations in the MCOLN1 mucolipidosis IV (ML IV) gene represent ∼95% of the mutations in Ashkenazi-Jewish patients with ML IV. The mutations, a splice site mutation (IVS3-2A>G) and an ∼6.4-kb deletion (511del6434), account for 72% and 23% of ML IV alleles in this population, respectively. An automated high-throughput assay was developed using the 5′-nuclease (TaqMan) method for the simultaneous detection of both mutations in a single reaction. Three fluorescent probes specifically detected wild-type, IVS3-2A>G, and 511del6434 alleles in each reaction real-time. Data collected were automatically analyzed, and genotype results were uploaded into a laboratory information management system. The assay was validated using genomic controls, demonstrating high robustness and accuracy. Carrier screening of 10,527 samples revealed 77 heterozygote carriers of IVS3-2A>G, 25 heterozygote carriers of 511del6434, and two compound heterozygote of both mutant alleles. The frequency of mutated alleles was 0.73% for IVS3-2A>G and 0.24% for 511del6434. The combined carrier frequency was 1:103 with predicted disease incidence of 1:42,436 individuals in this population, slightly lower than previously described frequencies. This automated high-throughput assay is labor saving, because two mutations can be detected in a single reaction. The method has potential for use in other assays requiring simultaneous detection of two mutations

Mutational Analysis in Pediatric Thyroid Cancer and Correlations with Age, Ethnicity, and Clinical Presentation

Background: Well-differentiated thyroid cancer (WDTC) incidence in pediatrics is rising, most being papillary thyroid carcinoma (PTC). The objective of the study was to assess the prevalence of different mutations in pediatric WDTC and correlate the genotype with the clinical phenotype. Methods: This is a single-center retrospective study. Thyroid tissue blocks from 42 consecutive pediatric WDTC patients who underwent thyroidectomy between 2001 and 2013 were analyzed at Quest Diagnostics for BRAF(V600E), RAS mutations (N,K,H), and RET/PTC and PAX8/PPARγ rearrangements, using validated molecular methods. Thyroid carcinomas included PTC, follicular thyroid carcinoma (FTC), and follicular variant of PTC (FVPTC). Results: Thirty-nine samples (29 females) were genotyped. The mean age at diagnosis was 14.7 years (range 7.9–18.4 years), and most were Hispanic (56.4%) or Caucasian (35.9%). The mean follow-up period was 2.9 years. Mutations were noted in 21/39 (53.8%), with both BRAF(V600E) (n = 9), and RET/PTC (n = 6) detected only in PTC. Mutations were detected in 2/5 FTC (PAX8/PPARγ and NRAS) and 3/6 FVPTC cases (PAX8/PPARγ). Of 28 PTC patients, 57.1% had mutations: 32.1% with BRAF(V600E), 21.4% with RET/PTC, and 3.6% with NRAS. Of patients with BRAF(V600E), 77.8% were Hispanic and 88.9% were >15 years, while all RET/PTC-positive patients were ≤15 years (p = 0.003). Tumor size, lymph node involvement, and distant metastasis at diagnosis (or soon after (131)I ablation) did not vary significantly based on the mutation. Conclusions: BRAF(V600E) was the most common mutation, especially in older and Hispanic adolescents. A larger, ethnically diverse pediatric cohort followed long term will enable the genotypic variability, clinical presentation, and response to therapy to be better assessed