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Query: UMLS:C0007097 (
carcinoma
)
152,788
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ionizing radiation is a well known risk factor of thyroid cancer development, but the mechanism of radiation induced carcinogenesis is not clear. The
RET
/PTC oncogene, an activated form of the RET proto-oncogene, is frequently observed in papillary thyroid
carcinoma
(PTC);
RET
/PTC1, -2 and -3 are known to be the three major forms. High frequencies of
RET
/PTC rearrangements have been observed in radiation-associated PTC, such as those appearing post-Chernobyl or post-radiotherapy, but the rearrangement types differ between these two populations. We investigated whether a specific type of
RET
/PTC rearrangement was induced by X-rays in vivo and in vitro. In human normal thyroid tissues transplanted in scid mice, the
RET
/PTC1 rearrangement was predominantly detected throughout the observation period (up to 60 days) after X-ray exposure of 50 Gy. On the other hand,
RET
/PTC3 was detected only 7 days after X-irradiation, and no transcript of RET/PTC2 was detected. These results are supported by the results of an in vitro study. The
RET
/PTC1 rearrangement was preferentially induced in a dose-dependent manner by X-rays within a high dose range (10, 50 and 100 Gy) in four cell lines. On the other hand,
RET
/PTC3 was induced at a much lower frequency, and no induction of RET/PTC2 was observed. These results suggest that the preferential induction of the
RET
/PTC1 rearrangement may play an important role in the early steps of thyroid carcinogenesis induced by acute X-irradiation.
...
PMID:Preferential induction of RET/PTC1 rearrangement by X-ray irradiation. 1065 92
RET
/PTC chimeric oncogenes are generated by the fusion of heterologous genes to the
RET
tyrosine kinase encoding domain. These rearrangements are typical of papillary thyroid carcinomas.
RET
/PTC1 is one of the most frequently found
RET
/PTC version and, in all the cases so far reported, it is invariably generated by the fusion of the first encoding exon of the H4 gene to the
RET
kinase encoding domain. This results in the generation of an oncogenic protein containing the first 101 residues of the H4 protein at the N-terminus. We report the isolation of a novel subtype of H4-
RET
fusion, designated
RET
/PTC1L, from a human papillary
carcinoma
of the thyroid and lymph node metastasis. At variance with the classic one, this novel rearrangement generates a protein containing the N-terminal 150 residues of H4.
RET
/PTC1L is able to transform NIH 3T3 cells; its transforming ability, however, is 5-fold lower than that of the classic
RET
/PTC1 isoform. We propose that
RET
/PTC1L is a novel chimeric oncogene involved in thyroid tumorigenesis; its low transforming ability may be one of the reasons explaining the low frequency by which it is found in human thyroid carcinomas.
...
PMID:Identification of a novel subtype of H4-RET rearrangement in a thyroid papillary carcinoma and lymph node metastasis. 1067 79
We recently isolated a novel cDNA, designated ELKS, that was fused to
RET
cDNA in a papillary thyroid
carcinoma
. Its encoded polypeptide sequence was rich in glutamic acid (E), leucine (L), lysine (K), and serine (S), and was characterized by the presence of nine alpha-helical coiled-coil domains consisting of periodic heptad repeats. We have now cloned the entire structure of the human ELKS gene from within a 700-kb genomic region represented by overlapping bacteriophage P1-derived artificial chromosome (PAC) and bacterial artificial chromosome (BAC) clones, and localized it to chromosomal band 12p13.3 by fluorescence in situ hybridization. The gene is approximately 500 kb long, with 19 exons and 18 introns; the transcription initiation site within exon 1 is separate from the initiation codon (in exon 2). Analysis of the exon/intron structure revealed that introns interrupt the coding sequence in such a way that many functional segments of the protein are encoded by distinct exons. Exon 1 encodes the 5' non-coding region; exons 2, 3, 6, 7, 8, 9, 11, 14, and 15 encode the nine coiled-coil domains. Exons 17-19 constitute the 3' non-coding region. Analysis of the region immediately upstream of exon 1 showed that it was extremely rich in G/C nucleotides and contained multiple Sp-1 and AP2 binding sequences. The ELKS-
RET
gene fusion rearrangement we had observed in a papillary thyroid
carcinoma
occurred between intron 10 of the ELKS gene and intron 11 of
RET
.
...
PMID:Genomic organization and chromosomal mapping of ELKS, a gene rearranged in a papillary thyroid carcinoma. 1069 56
Activation of the
RET
protooncogene through somatic rearrangements represents the most common genetic alteration in papillary thyroid
carcinoma
(PTC). Three main rearranged forms of
RET
have been described:
RET
/PTC1 and
RET
/PTC3, which arise from a paracentric inversion of the long arm of chromosome 10, and RET/PTC2, which originates from a 10;17 translocation. We have developed a dual-color FISH approach to detect
RET
/PTC rearrangements in interphase nuclei of thyroid lesions. By using a pool of three cosmids encompassing the
RET
chromosome region and a chromosome 10 centromeric probe, we could discriminate between the presence of an inversion (
RET
/PTC1 and
RET
/PTC3) or a translocation (RET/PTC2). We have investigated a series of thyroid tissue samples from Italian and French patients corresponding to a total of 69 PTCs and 22 benign lesions. Among PTCs, 13 (18.8%) showed a
RET
rearrangement, and 11 (15.9%) of these carried an inversion (
RET
/PTC1 or
RET
/PTC3) in more than 10% of the nuclei examined. Activated forms of
RET
were also observed in three adenomas. RT-PCR analysis on the same samples confirmed the presence and the type of rearrangement predicted using FISH analysis. An interesting difference in the frequency and type of
RET
rearrangements was detected between the Italian and the French patients. Furthermore, we identified a putative novel type of rearrangement in at least one PTC sample. Several PTCs carried a significant number of cells characterized by a trisomy or a tetrasomy of chromosome 10. Overall, the FISH approach in interphase nuclei represents a powerful tool for detecting, at the single cell level,
RET
/PTC rearrangements and other anomalies involving the
RET
chromosome region.
...
PMID:RET rearrangements in papillary thyroid carcinomas and adenomas detected by interphase FISH. 1077 66
The
RET
receptor tyrosine kinase was first identified in a screen for human oncogenes and has subsequently been linked to several human syndromes: Hirschprung's disease, multiple endocrine neoplasia types 2A and 2B and familial thyroid
carcinoma
. Interestingly, all of the tissues affected by mutations in
RET
are derived from the neural crest during development.
RET
transduces a signal following activation by ligands of the glial cell line-derived neurotrophic factor (GDNF) family of neurotrophins which currently comprises GDNF, neuturin (NTN), artemin (ART) and persephin (PSP). To activate
RET
they form a tripartite complex with
RET
and a member of a family of four extracellular, GPI-linked alpha receptors (GFR alpha 1-4). Specificity is achieved by each GFR alpha binding only one member of the GDNF family with high affinity. Current evidence indicates that signal transduction by
RET
activates several second messenger systems including the PLC gamma, Ras, JNK and inositol phosphate pathways. Targeted mutagenesis in transgenic mice has shown that Ret, GFR alpha 1 and GDNF are required for multiple developmental events including development of the enteric nervous system (ENS) affected in Hirschsprung's disease. We describe experiments in chick neural crest cells which provide evidence for the normal function of
RET
and the basis of the defect in Hirschsprung's disease.
...
PMID:The RET receptor tyrosine kinase: activation, signalling and significance in neural development and disease. 1081 67
Divergent endocrine-neuroendocrine differentiation in thyroid
carcinoma
occurs in mixed medullary-follicular carcinomas (MMFC). Less than 40 cases of MMFC have been reported having highly heterogeneous patterns of growth. Classical medullary
carcinoma
areas may be intermingled with follicles or papillae or even oxyphilic and solid areas. Calcitonin and thyroglobulin are expressed in different cell populations. Presence of the latter suggests a potential usefulness of radioiodine treatment. The clinical behavior of MMFC does not differ from that of ordinary medullary
carcinoma
. The histogenesis of MMFC is controversial. The genetic analysis of the 2 neoplastic components showed that they are not derived from a common precursor, but rather display remarkable differences in the genetic profile (
RET
mutations and allelic losses). In addition, in some cases the follicular component was found to be oligo/polyclonal and therefore possibly hyperplastic rather than neoplastic. The follicular cells may have grown into the medullary
carcinoma
, after acquiring some molecular defect, being "hostage" of the true neoplastic (medullary) component.
...
PMID:Thyroid carcinomas with mixed follicular and C-cell differentiation patterns. 1083 11
The authors report 11 patients with genetically determined medullary microcarcinomas. Nine patients were either children or adolescents and two patients were young adults. The youngest patient was 7 years old and the oldest was 34 years of age (mean age, 15.4 yrs). The preoperative diagnosis was based on family history and elevated serum calcitonin levels. In addition, six patients had
RET
protooncogene mutations in exons 10, 11, and 16. Two patients who had the
RET
protooncogene mutations did not have serum calcitonin measurements. Nine patients had bilateral medullary microcarcinomas (<1.0 cm), whereas the two patients with unilateral tumors demonstrated multifocal disease. The principle microscopic differences between these genetically determined medullary microcarcinomas and larger sporadic (>1 cm) medullary carcinomas were the low incidence of stromal desmoplasia and amyloid deposition, the high incidence of C-cell hyperplasia, and the low incidence of lymph node metastases. Only one patient, a 34-year-old man, presented with lymph node metastases. All patients remain disease free 11 to 70 months after diagnosis. This small series of thyroid microcarcinomas illustrates the impact molecular diagnostics is having on the management and prognosis of genetically determined medullary
carcinoma
.
...
PMID:Inherited medullary microcarcinoma of the thyroid: a study of 11 cases. 1084 88
Evaluation of 20 cases of radiation-induced childhood papillary thyroid
carcinoma
using fluorescence in situ hybridization demonstrated the presence of clonal translocations affecting the
RET
locus. Semiquantitative reverse transcription-PCR indicated overexpression of the
RET
tyrosine kinase (TK) domain in four cases. In two cases, the
RET
rearrangements PTC6 and PTC7 were identified and assigned to balanced translocations t(7;10)(q32;q11.2) and t(1;10)(p13;q11.2), respectively. In one case with a balanced translocation t(10;14)(q11.2;q22.1), 5' rapid amplification of cDNA ends revealed a novel type of
RET
oncogenic activation (PTC8), arising from a fusion of the 5' part of the kinectin (KTN1) gene to the TK domain of the
RET
gene. The presence of coiled-coil domains in the resulting ktn1/ret fusion protein suggests ligand-independent dimerization and thus constitutive activation of the ret TK domain.
...
PMID:Translocation t(10;14)(q11.2:q22.1) fusing the kinetin to the RET gene creates a novel rearranged form (PTC8) of the RET proto-oncogene in radiation-induced childhood papillary thyroid carcinoma. 1085 Apr 14
The RET proto-oncogene encodes a receptor tyrosine kinase for transforming growth factor-beta-related neurotrophic factors, which include GDNF and neurturin. The expression of RET proto-oncogene was detected in several tissues, such as spleen, thymus, lymph nodes, salivary gland, and spinal cord, and in several neural crest-derived cell lines.
RET
expression in the thyroid gland was reported to be restricted to neural crest-derived C cells. The presence of
RET
mRNA or protein has not yet been reported in thyroid follicular cells. We previously demonstrated the expression of oncogenic rearranged versions of
RET
in papillary thyroid carcinomas: tumors derived from thyroid follicular cells. To assess the expression of the normal RET proto-oncogene in follicular cells, we analyzed its expression in a panel of neoplasias originating from thyroid follicular epithelial cells: papillary carcinomas and both follicular adenomas and carcinomas. We also demonstrated the presence of
RET
normal transcripts in two follicular thyroid
carcinoma
lymph node metastases. Moreover, we found the presence of the
RET
/ELE1 transcript, the reciprocal complementary form of the oncogenic fusion transcript ELE1/
RET
, in a papillary thyroid
carcinoma
specimen expressing the
RET
/PTC3 oncogene, thus demonstrating that the
RET
promoter is active in those cells after rearrangement. Finally, we show that in a papillary
carcinoma
-derived cell line expressing the proto-
RET
receptor and the related GFRalpha2 co-receptor, GDNF treatment induced
RET
tyrosine phosphorylation and subsequent signal transduction pathway, indicating that
RET
could be active in thyroid follicular cells.
...
PMID:RET receptor expression in thyroid follicular epithelial cell-derived tumors. 1085 Apr 26
The study of thyroid tumor genetics has great relevance to surgeons and facilitates understanding tumor pathogenesis, prediction of tumor behavior, and management decisions. The genes implicated can be broadly categorized as oncogenes or tumor-suppressor genes. The
RET
oncogene has well established roles in the development of both papillary (PTC) and medullary (MTC) thyroid
carcinoma
. Genetic screening for germline
RET
mutations in members of multiple endocrine neoplasia type II (MEN-II) families is now widely performed, and prophylactic thyroidectomy in gene carriers is advisable at an early age. Patients with apparently sporadic MTC can also be screened to rule out familial disease. The demonstration of a
RET
rearrangement in a patient's PTC may have prognostic significance, but as yet there are no management implications. The thyrotropin receptor (TSH-R) and Gsalpha become oncogenic through point mutation and are associated with the development of toxic thyroid adenomas. The ras oncogene is implicated in the early stages of development of several thyroid tumor types. Tumor-suppressor genes also have a role in thyroid tumor formation. The p53 gene appears to be involved in the process of transformation to the anaplastic phenotype and the PTEN gene in the development of follicular adenomas but not carcinomas. There is still limited evidence for the so called adenoma-
carcinoma
sequence of the thyroid follicular cell. Loss of heterozygosity studies have enabled identification of tumor-suppressor genes, and their findings suggests differences in the pathogenesis of PTCs compared with follicular cancers. Surgical decision-making will benefit from these basic molecular advances, which rapidly translates into improved patient management.
...
PMID:Molecular genetics of thyroid tumors and surgical decision-making. 1086 36
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