UMLS:C0007097 - FACTA Search

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Query: UMLS:C0007097 (carcinoma)
152,788 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A combined cytogenetic and molecular analysis was performed on 11 cases of papillary thyroid carcinoma. A simple karyotypic abnormality was detected in five tumors, whereas six had no apparent chromosome change. In four of five rearranged cases the presence of a specific chromosomal abnormality involving chromosome 10 (cases 1 and 2) and chromosome 1 (cases 3 and 4) was associated with the rearrangement of two protooncogenes: RET and NTRKI (formerly trk), respectively, with different donor genes. Moreover, the chromosomal localization of the involved genes and the type of chromosomal change observed suggested that RET and NTRKI activation occurred by intrachromosomal rearrangements. The six cases with normal karyotype did not show RET or NTRKI activation. These findings suggest that a combined cytogenetic and molecular approach would be useful in understanding the pathogenesis of thyroid neoplasia.
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PMID:Cytogenetic and molecular genetic characterization of papillary thyroid carcinomas. 138 73

The RET proto-oncogene, a transmembrane tyrosine kinase receptor, is involved in the development of at least five different disease phenotypes. RET is activated through somatic rearrangements in a number of cases of papillary thyroid carcinoma while germ-line point mutations are associated with three inherited cancer syndromes MEN 2A, MEN 2B and FMTC. Moreover, point mutations or heterozygous deletions of RET are found in the dominant form of Hirschsprung disease or congenital colonic aganglionosis. We cloned the entire RET genomic sequence in a contig of cosmids encompassing 150 kb, from the CA repeat sTCL-2 to the region upstream the RET promoter, and established the position of the 20 exons of the RET gene with respect to a detailed restriction map based on eight endonucleases. A new highly polymorphic CA repeat sequence was identified within intron 5 of RET (RET-INT5). Finally the orientation of RET on chromosome 10q11.2 made it possible to orientate three other genes rearranged with RET in papillary thyroid carcinomas, namely H4/D10S170 on 10q21, R1 alpha on 17q23 and RFG2/Ele1 on 10q11.2.
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PMID:The physical map of the human RET proto-oncogene. 747 1

Activation of the RET protooncogene tyrosine kinase (tk) by fusion with other genes is a frequent finding in papillary thyroid carcinoma. The tk domain of proto-RET can be fused either with the D10S170 gene generating the RET/PTC1 transforming sequence or with sequences belonging to the gene encoding the regulatory subunit RIA of c-AMP-dependent protein kinase A, thus forming the RET/PTC2 oncogene. We have previously shown that an inversion of chromosome 10, inv(10)(q11.2q21), is responsible for the generation of the RET/PTC1. Here we report that a chromosomal translocation, t(10;17)(q11.2;q23), juxta-poses the tk domain of the RET protooncogene, which resides on chromosome 10, to a 5' portion of the RIA gene on chromosome 17, leading to the formation of the chimeric transforming gene RET/PTC2. The finding of the transforming protein in primary tumor cell extracts supports the conclusion that RET/PTC2 activation plays a role in papillary thyroid tumorigenesis.
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PMID:A t(10;17) translocation creates the RET/PTC2 chimeric transforming sequence in papillary thyroid carcinoma. 751 46

Defects in the c-ret proto-oncogene, a member of the protein tyrosine kinase receptor family, have recently been linked to two types of genetic syndromes, Hirschsprung's disease and the multiple endocrine neoplasia family of inherited cancers. RET/ptc2 is the product of a papillary thyroid carcinoma translocation event between the genes coding for c-ret and the type I alpha regulatory subunit of protein kinase A (RI alpha) (Lanzi, C., Borrello, M., Bongarzone, I., Migliazza, A., Fusco, A., Grieco, M., Santoro, M., Gambetta, R., Zunino, F., Della Porta, G., and Pierotti, M. (1992) Oncogene 7, 2189-2194). The resulting 596-residue protein contains the first two-thirds of RI alpha and the entire tyrosine kinase domain of c-ret (RETtk). An in vivo assay of growth stimulatory effects was developed, which consisted of microinjecting a RET/ptc2 expression plasmid into the nuclei of 10T1/2 mouse fibroblasts and observing the incorporation of 5-bromodeoxyuridine. This assay was used to determine that only the dimerization domain of RI alpha fused to RETtk is required for RET/ptc2's mitogenic activity. In addition, all of the reported Hirschsprung's disease point mutations in the RETtk (S289P, R421Q, and R496G) inactivate RET/ptc2 in our assay, confirming that these are loss of function mutations. Two tyrosines outside the conserved kinase core were also identified that are essential for full mitogenic activity of RET/ptc2. These two tyrosines, Tyr-350 and Tyr-586, are potential sites for Src homology 2 and phosphotyrosine binding domain interactions.
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PMID:Tyrosines outside the kinase core and dimerization are required for the mitogenic activity of RET/ptc2. 755 72

Since the Chernobyl nuclear reactor accident, a striking increase of thyroid carcinoma has been reported in children exposed to radiation in Belarus. Because of its unprecedented scale and its emotional implications, this finding has raised concern and called the attention of the scientific community to this major health problem. Although epidemiologically documented, a direct correlation between thyroid cancer and radiation exposure has not been definitely proven at the molecular level. On the assumption that ionizing radiation could cause specific and common cancer-associated genetic lesions, an analysis of oncogene activation and/or tumor suppressor gene inactivation would help to define radiation-induced thyroid carcinomas. Therefore, we have analyzed by different molecular approaches, including Southern blotting, DNA transfection assay on NIH-3T3 cells, and reverse transcription-PCR analysis, six papillary carcinomas from children living in the region of Belarus at the time of the Chernobyl nuclear accident to identify tumor-specific gene rearrangements of the proto-oncogenes RET and TRK, previously found activated in a tumor type-specific manner in papillary thyroid carcinoma. Using Southern blot analysis in four cases, we could detect specific rearranged bands indicating an oncogenic activation of RET that in three cases resulted in rearranged sequences provided by the same activating gene. Moreover, the DNA of the last three cases showed a biological activity in transforming NIH-3T3 cells after the DNA-mediated transfection assay, and the respective NIH-3T3 transfectants were found to express the oncogenic fusion transcripts. These results support the possibility that RET oncogenic activation could represent a major genetic lesion associated with thyroid carcinoma in children exposed to the Chernobyl nuclear accident.
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PMID:Oncogenic rearrangements of the RET proto-oncogene in papillary thyroid carcinomas from children exposed to the Chernobyl nuclear accident. 758 43

Recently identified mutations affecting different domains of the RET proto-oncogene are associated with Multiple Endocrine Neoplasia type 2A (MEN 2A) and type 2B (MEN 2B), familial and sporadic Medullary Thyroid Carcinomas (MTC) and Hirschsprung disease (HSCR). In order to facilitate the screening for RET mutations, and to study possible genotype-phenotype correlations, we established exon-intron junctions and extended the intronic sequences flanking the 20 exons of this gene. This made it possible to design primers and to develop PCR conditions useful for SSCP analysis of the whole RET coding sequence. Nine conformational variants were observed which after sequencing turned out to be 8 silent mutations and a conservative amino acid substitution. Restriction analysis performed on DNA samples from unrelated controls confirmed the polymorphic nature of six of these nucleotide changes and made it possible to estimate the frequency of the corresponding alleles.
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PMID:DNA polymorphisms and conditions for SSCP analysis of the 20 exons of the ret proto-oncogene. 770 Jun 53

Multiple endocrine neoplasia type 2A (MEN 2A) and familial medullary thyroid carcinoma (FMTC) are dominantly inherited conditions which predispose to the development of endocrine neoplasia. Evidence is presented that sequence changes within the coding region of the RET proto-oncogene, a putative transmembrane tyrosine kinase, may be responsible for the development of neoplasia in these inherited disorders. Single strand conformational variants (SSCVs) in exons 7 and 8 of the RET proto-oncogene were identified in eight MEN 2A and four FMTC families. The variants were observed only in the DNA of individuals who were either affected or who had inherited the MEN2A or FMTC allele as determined by haplotyping experiments. The seven variants identified were sequenced directly. All involved point mutations within codons specifying cysteine residues, resulting in nonconservative amino acid changes. Six of the seven mutations are located in exon 7. A single mutation was found in exon 8. Variants were not detected in four MEN 2B families studied for all exon assays available, nor were they detectable in 16 cases of well documented sporadic medullary thyroid carcinoma or pheochromocytoma that were tested for exon 7 variants. Coinheritance of the mutations with disease and the physical and genetic proximity of the RET proto-oncogene provide evidence that RET is responsible for at least two of the three inherited forms of MEN 2. Neither the normal function, nor the ligand of RET are yet known. However, its apparent involvement in the development of these inherited forms of neoplasia as well as in papillary thyroid carcinoma suggest an important developmental or cell regulatory role for the protein.
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PMID:Mutations in the RET proto-oncogene are associated with MEN 2A and FMTC. 810 3

The RET proto-oncogene encodes a transmembrane receptor of the tyrosine kinase family and has frequently been found activated in human thyroid carcinomas of the papillary subtype. In most cases the activation consisted of the fusion of its tyrosine-kinase domain with the 5'-terminal region of a gene designated H4 or D10S170. We have named the resulting H4/RET chimeric oncogene RET/PTC. Another activated form of the RET oncogene has subsequently been found in a thyroid carcinoma and is now referred to as RET/PTC2. Here we report the identification and cloning of a novel rearranged version of the RET oncogene in a human thyroid papillary carcinoma. In this case the tyrosine-kinase domain of RET was fused to a sequence 790 bp long belonging to a new gene that we have named RFG (RET Fused Gene). This novel chimeric oncogene has been designated RET/PTC3. In order to have more insights into the function of RFG we have completely cloned and sequenced its cDNA. RFG predicted amino-acid sequence does not have any significant homology to any already known genes and is ubiquitously expressed in human and mouse tissues. Finally we provide evidence indicating that the rearrangement leading to the generation of RET/PTC3 occurred in vivo in the original tumor DNA.
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PMID:Molecular characterization of RET/PTC3; a novel rearranged version of the RETproto-oncogene in a human thyroid papillary carcinoma. 829 Feb 61

Elevated risk of thyroid cancers among the atomic bomb survivors as compared to the nonexposed population suggests that some genetic events related to thyroid cancer must be caused by ionizing radiation. Accordingly, inducibility of RET oncogene rearrangements, i.e., the generation of the RET-PTC oncogene, specific for thyroid cancer, was investigated among human undifferentiated thyroid carcinoma cells (8505C), which do not have RET oncogene rearrangement, after 0, 10, 50, and 100 Gy of in vitro X-irradiation by means of reverse transcription polymerase chain reaction. After testing 10(8) cells at each dose point, 3 independent samples obtained with 50 Gy of X-irradiation and 6 independent samples obtained with 100 Gy of X-irradiation showed a rearranged RET oncogene amplified band. No rearranged transcripts were obtained from cells irradiated with 0 or 10 Gy. All of the transcripts were sequenced and found to contain the D10S170 and RET sequence. Interestingly, two types of rearrangements were included in these transcripts: one is specific for thyroid cancer and the other, which contains a 150-base pair insert, is atypical, not usually seen in vivo. This insert was found to be the exon of D10S170. Furthermore, in fibrosarcoma cells (HT1080), X-irradiation also induced RET oncogene rearrangements, which included the same two types of rearrangements observed in the X-irradiated thyroid cells (8505C). These results are in favor of the hypothesis that some radiation-induced thyroid cancers, including those among atomic bomb survivors, might have developed when a growth advantage was obtained through a specific form of RET oncogene rearrangement induced by radiation exposure.
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PMID:In vitro irradiation is able to cause RET oncogene rearrangement. 831 99

RET rearrangement was studied in papillary thyroid carcinomas (PTC) of children exposed to radioactive fallout in Belarus after the Chernobyl accident. To detect RET rearrangement in small tissue samples from thyroidectomy specimen (12 PTC of children; 2 PTC and 1 follicular carcinoma of adults; non-tumorous thyroid tissue of 4 children and 4 adults as controls), a RT-multiplex PCR was developed using primers suited to amplify fragments in different quantities depending on the presence or absence of RET rearrangements in the tissues. The type of rearrangement was determined by RT-PCR and direct sequencing using primers for ret/PTC1, 2 and 3. Two-thirds of the papillary thyroid carcinomas of the children revealed a RET rearrangement, with ret/PTC3 being more frequent by a factor of 3 than ret/PTC1. ret/PTC2 was not detected. All RET rearrangement-positive tumors had lymph node metastasis while half of the tumors with wild-type cRET had not. More than half of the cases with ret/PTC3 expressed not only the ELE/RET transcript as expected, but also the RET/ELE transcript. Intrachromosomal rearrangement involving RET and the adjacent H4 or ELE gene on chromosome no. 10 is a very frequent event in thyroid cancer of children of the Chernobyl-contaminated zone of Belarus.
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PMID:High prevalence of RET rearrangement in thyroid tumors of children from Belarus after the Chernobyl reactor accident. 854 2

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