The Occurrence and the Type of Germline Mutations in theRETGene in Patients with Medullary Thyroid Carcinoma and Their Unaffected Kindred's from Central Poland
Z PaszkoMaria SromekMałgorzata CzetwertyńskaE. SkaskoDorota CzapczakA WiśniewskaAndrzej ProkuratMałgorzata ChrupekAgata JagielskaI Kozłowicz-Gudzińska
35
Citation
29
Reference
10
Related Paper
Citation Trend
Abstract:
We aimed to investigate the occurrence and types of pathogenic mutations in the RET gene in patients with MTC of the Central Poland population and in their relatives. DNA was extracted from the peripheral blood lymphocytes of a total of 330 persons, including 235 MTC patients and 95 of their unaffected kindred's. Exons 10, 11, 13, 14, 15 and 16 of the RET gene were amplified by PCR and sequenced. Sixty-seven people were found to carry pathogenic, germline mutations in the RET gene. In exon 10, C609F, C609R and C609Y (3 families), C618G, C618F (2 families), and C620G (4 families) mutations were identified. In exon 11, C634R (8 families) and C649L mutations (1 patient) were found. Five families carried Y791F mutation in exon 13. One patient with PTC revealed the presence of a Y791F mutation. In 3 families, exon 14 of the RET gene harbored the following mutations: V804L (1 patient), E819K (1 patient) and R844Q (1 patient). In 1 family, the S891A mutation was identified in exon 15, 3 families were found to carry mutations in exon16, R912P in 1 family and M918T in 2 families. In summary, of the 235 patients affected by MTC, 46 (19.6%) carried pathogenic RET gene mutations, 1 patient with RET mutation had kidney carcinoma, and 1 had PTC. The results show the occurrence of a variety of mutations prevalent in patients with MTC in the population of Central Poland. These results may contribute to a better diagnosis of medullary thyroid carcinoma.A New Germline Point Mutation in Ret Exon 8 (Cys515Ser) in a Family with Medullary Thyroid Carcinoma
Background: A novel Cys-Ser Ret germline point mutation in a 58-year-old woman with bilateral medullary thyroid carcinoma (MTC) prompted us to perform genetic analysis of the family and evaluate the biological consequences of such a mutation. Methods: Ret analysis by direct sequencing was performed in five family members. The biological activity and biochemical properties of the Ret- Cys515Ser mutant were analyzed in NIH-3T3 cells. Results: The proband's son, age 35, had the Ret- Cys515Ser mutation and the L769 CTT/CTG exon 13 polymorphic variant, which was also found in his father. Clinical evaluation of the son also revealed bilateral multifocal microscopic MTC and papillary thyroid carcinoma (PTC). In vitro and in vivo analysis indicated ligand-independent activation of the Ret-Cys515Ser mutant due to aberrant disulfide homodimerization, increased mitogenic activity, and ability to induce anchorage-independent growth in NIH-3T3 cells in comparison to wild-type Ret, suggesting a possible role of Cys515Ser in tumor development. Conclusions: The Cys515Ser mutation adds to cysteine substitution groups that have been described in association with MTC. Our data also highlight the importance of performing a complete genetic analysis in patients who present with MTC.
Proband
Proto-Oncogene Proteins c-ret
Medullary carcinoma
Cite
Citations (30)
Pedigree chart
Exon trapping
Cite
Citations (9)
Germline mosaicism
Cite
Citations (575)
OBJECTIVE: Wilson's disease (WD) is an inborn error of metabolism caused by abnormalities of the copper-transporting protein encoding gene ATP7B. In this study, we examined ATP7B for mutations in a group of patients living in southern Brazil. METHODS: 36 WD subjects were studied and classified according to their clinical and epidemiological data. In 23 subjects the ATP7B gene was analyzed. RESULTS: Fourteen distinct mutations were detected in at least one of the alleles. The c.3207C>A substitution at exon 14 was the most common mutation (allelic frequency=37.1%) followed by the c.3402delC at exon 15 (allelic frequency=11.4%). The mutations c.2018-2030del13 at exon 7 and c.4093InsT at exon 20 are being reported for the first time. CONCLUSION: The c.3207C>A substitution at exon 14, was the most common mutation, with an allelic frequency of 37.1%. This mutation is the most common mutation described in Europe.
Genotype-phenotype distinction
Cite
Citations (24)
To explore pathogenic mutation in a family affected with 2-hydroxyglutaric aciduria.Exons of 3 candidate genes, including L2HGDH, D2HGDH and SLC25A1, were amplified with polymerase chain reaction and subjected to direct sequencing.DNA sequencing has found that the proband and his affected younger brother have both carried a heterozygous mutation c.845G>A (p.R282Q) in the exon 7 of the L2HGDH gene. The same mutation was not detected in the his sister who was healthy. Pedigree analysis has confirmed that the above mutation was inherited from the mother. No mutation was detected in exons and flanking sequences of the D2HGDH and SLC25A1 genes.Mutation of the L2HGDH gene probably underlies the 2-hydroxyglutaric aciduria in this family.
Proband
Mutation Testing
Cite
Citations (2)
The variation generated by germline mutation is essential for evolution, but individuals pay a steep price in the form of Mendelian disease and genetic predisposition to complex disease. Indeed, the health of a species is determined ultimately by the rate of germline mutation. Analysis of the factor IX gene in patients with hemophilia B has provided insights into the human germline mutational process. Herein, seven topics will be reviewed with emphasis on recent advances: (i) proposed mechanisms of deletions, inversions, and insertions; (ii) discordant sex ratios of mutation and associated age effects; (iii) somatic mosaicism; (iv) founder effects; (v) mutation rates; (vi) the factor IX gene as a germline mutagen test; and (vii) cancer as a possible mechanism for maintaining a constant rate of germline mutation.
Germline mosaicism
Mendelian inheritance
Cite
Citations (55)
Androgen insensitivity syndrome
Cite
Citations (13)
Abstract The germline mutation rate has been extensively studied and has been found to vary greatly between species, but much less is known about the somatic mutation rate in multicellular organisms, which remains very difficult to determine. Here, we present data on somatic mutation rates in mice and humans, obtained by sequencing single cells and clones derived from primary fibroblasts, which allows us to make the first direct comparison with germline mutation rates in these two species. The results indicate that the somatic mutation rate is almost two orders of magnitude higher than the germline mutation rate and that both mutation rates are significantly higher in mice than in humans. Our findings demonstrate both the privileged status of germline genome integrity and species-specific differences in genome maintenance.
Multicellular organism
Mutation Accumulation
Germline mosaicism
Cite
Citations (375)
Germline mutations cause or predispose to most disease. Hemophilia B is a useful model for studying the underlying pattern of recent germline mutations in humans because the observed pattern of mutation in factor IX more closely reflects the underlying pattern of mutation than the observed pattern for many other genes. In addition, it is possible to identify and correct for biases inherent in ascertaining only those mutations that cause hemophilia. Aspects of the pattern of germline mutation in the factor IX gene are becoming clear: 1) in the United States, two-thirds of mutations causing mild disease arose from three founders whereas almost all the mutations resulting in either moderate or severe disease arose independently, generally within the past 150 years; 2) direct estimates of the rates of mutation in humans indicate that transitions are more frequent than transversions, which in turn are more frequent than deletions and insertions; 3) transitions at CpG are elevated approximately 24-fold relative to transitions at non-CpG dinucleotides; 4) transversions at CpG are elevated approximately eightfold relative to transversions at non-CpG dinucleotides; 5) the sum total of the dinucleotide mutation rates produces a bias against G and C bases that would be sufficient to maintain the G+C content of the factor IX gene at its evolutionarily conserved level of 40%; and 6) the pattern of mutation is similar for Caucasians residing in the United States and for Asians residing in Asia. Two ideas emerge from this and from an analysis of the pattern of recent deleterious mutations compared with ancient neutral mutations that have been fixed during evolution into the factor IX gene. First, the bulk of germline mutations are likely to arise from endogenous processes rather than environmental mutagens. Second, the factor IX protein is composed mostly of two classes of amino acids: critical residues in which all single-base missense changes will disrupt protein function, and "spacer" residues in which the precise nature of the residue is unimportant but the peptide bond is necessary to keep the critical residues in register. More work is necessary to assess the veracity and generality of these ideas.
CpG site
Germline mosaicism
Cite
Citations (41)
Summary Germline mutations in patients with hemophilia B generally have arisen within the past 150 years. Evidence suggests that these germline mutations generally result from endogenous processes. However, a unique pattern would be expected if a population were exposed to a physiologically important germline mutagen since mutagens generally produce characteristic patterns, or “fingerprints”, of mutation. To determine the pattern of mutation in Mexican Hispanics, the regions of likely functional significance in the factor IX gene were screened by di-deoxy fingerprinting (ddF) in 31 families with hemophilia B. Mutations were found in 30 of these families. Haplotype analysis was performed on individuals with identical mutations to help distinguish independent, recurrent mutations from founder effects. Analysis of these 30 mutations, along with 7 mutations reported previously in Mexican Hispanic families, reveals a pattern of independent mutation that is similar to the pattern of mutation observed in 127 U. S. Caucasian families (p = 0.89). These results may reflect either an underlying pattern of germline mutation due to endogenous processes or the presence of an ubiquitous mutagen. Further analyses of the recurrent mutations revealed that two mutations, T296M and R248Q, accounted for 19% of the mutations found in the Mexicans. Haplotype data suggest that the multiple occurrences of T296M and R248Q are associated with founder effects and that screening for these mutations may allow rapid mutation detection and carrier diagnosis in a significant minority of Mexican families with hemophilia B. These two mutations also are associated with founder effects in the U. S. Caucasian population. However, the haplotypes are different in these two populations, indicating independent origins. The occurrence of identical founder mutations in distinct populations provides evidence for the previous hypothesis that the number of different mutations giving rise to mild or borderline mild/moderate hemophilia B is small compared to deleterious mutations causing more severe disease.
Founder effect
Cite
Citations (23)