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Query: EC:2.7.10.1 (
ERK
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95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:A t(10;17) translocation creates the RET/PTC2 chimeric transforming sequence in papillary thyroid carcinoma. 751 46
We have introduced three Hirschsprung (HSCR) mutations localized in the tyrosine kinase domain of
RET
into the
RET/PTC2
chimaeric oncogene which is capable of transforming NIH3T3 mouse fibroblasts and of differentiating pC12 rat pheochromocytoma cells. The three HSCR mutations abolished the biological activity of
RET/PTC2
in both cell types and significantly decreased its tyrosine phosphorylation. By contrast, a rare polymorphism in exon 18 does not alter the transforming capability of
RET/PTC2
or its tyrosine phosphorylation. These data suggest a loss of function effect of HSCR mutations which might act through a dominant negative mechanism. Our model system is therefore capable of discriminating between causative HSCR mutations and rare polymorphisms in the tyrosine kinase domain of
RET
.
...
PMID:Loss of function effect of RET mutations causing Hirschsprung disease. 764 87
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.
...
PMID:Molecular characterization of RET/PTC3; a novel rearranged version of the RETproto-oncogene in a human thyroid papillary carcinoma. 829 Feb 61
The RET proto-oncogene encodes two isoforms of a receptor type tyrosine kinase which plays a role in neural crest and kidney development. Distinct germ-line mutations of
RET
have been associated with the inherited cancer syndromes MEN2A, MEN2B and FMTC as well as with the congenital disorder Hirschsprung disease (HSCR), whereas somatic rearrangements (
RET
/PTCs) have been frequently detected in the papillary thyroid carcinoma. Despite these findings, suggesting a relevant role for
RET
product in development and neoplastic processes, little is known about the signalling triggered by this receptor. In this study, we have demonstrated that the transducing adaptor molecule Shc is recruited and activated by both Ret isoforms and by the rearranged cytoplasmatic Ret/ptc2 oncoproteins as well as by the membrane bound receptor activated by MEN2A or by MEN2B associated mutations. Moreover, our analysis has identified the Ret tyrosine residue and the Shc domains involved in the interaction. In fact, here we show that both the phosphotyrosine binding domains of Shc, PTB and SH2, interact with Ret/ptc2 in vitro. However, PTB domain binds 20 folds higher amount of Ret/ptc2 than SH2. The putative binding site for either SH2 and PTB domains has been identified as Tyr586 of Ret/ptc2 (Tyr1062 on proto-Ret). In keeping with this finding, by using
RET/PTC2
-Y586F mutant, we have demonstrated that this tyrosine residue, the last amino acid but one before the divergence of the two Ret isoforms, is the docking site for Shc.
...
PMID:Identification of Shc docking site on Ret tyrosine kinase. 904 84
A high frequency (about 60%) of ret rearrangements in papillary thyroid carcinomas of children exposed to radioactive fallout in Belarus after the Chernobyl accident, has been reported by three recent studies (Fugazzola et al., 1995; Ito et al., 1994; Klugbauer et al., 1995). These studies suggested that the radiation exposure may be a direct inducer of activating rearrangements in the ret gene. In order to confirm the postulated link between irradiation and the role of the ret proto-oncogene in thyroid tumorigenesis, we analysed for the presence of ret activating rearrangements using RT-PCR, XL-PCR, Southern blot and direct sequencing techniques, 39 human thyroid tumors (19 papillary carcinomas and 20 follicular adenomas), from patients who had received external radiation for benign or malignant conditions. As controls, we studied 39 'spontaneous' tumors (20 papillary carcinomas and 19 follicular adenomas). Our data concerning the radiation-associated tumors, showed that: (1) the overall frequency of ret rearrangements was 84% in papillary carcinomas (16/19) and 45% (9/20) in follicular adenomas; (2) in contrast with the results obtained in the Chernobyl tumors, the most frequently observed chimeric gene was
RET
/PTC1 instead of the
RET
/PTC3 and (3) all the tumors were negative for
RET/PTC2
. In the 'spontaneous' tumors, only the papillary carcinomas presented a ret rearrangement (15%:3/20): 1
RET
/PTC1, 1
RET
/ PTC3 and 1 uncharacterized. In conclusion, our results confirm the crucial role played by the ret proto-oncogene activating rearrangements in the development of radiation-associated thyroid tumors appearing after therapeutic or accidental ionizing irradiation, and show, for the first time, the presence of
RET
/PTC genes in follicular adenomas appeared after external irradiation.
...
PMID:High prevalence of activating ret proto-oncogene rearrangements, in thyroid tumors from patients who had received external radiation. 931 93
A high frequency (approximately 60%) of ret rearrangements in Chernobyl papillary thyroid carcinomas (PTC) has been reported recently. The data suggested that the radiation exposure may be a direct inducer of activating rearrangements in the ret gene. In our study, we have analyzed for the presence of
RET
/PTC oncogenes using the RT-PCR, XL-PCR, Southern blot and direct sequencing techniques, 39 human thyroid tumors from patients who had received external radiation for benign or malignant conditions. As controls, we studied 39 'spontaneous' tumors. Our results indicate that: 1) the overall frequency of ret rearrangements was 84% in papillary carcinomas (16/19) and 45% (9/20) in follicular adenomas; 2) in contrast with the results obtained in the Chernobyl tumors, the most frequently observed chimeric gene was
RET
/PTC1; and 3) all the tumors were negative for
RET/PTC2
. In the 'spontaneous' tumors, only the papillary carcinomas presented a ret rearrangement (15%: 3/20). Our data confirm the crucial role played by the ret proto-oncogene activating rearrangements in the development of radiation-associated thyroid tumors, and show, for the first time, the presence of
RET
/PTC genes in follicular adenomas appeared after external irradiation.
...
PMID:Oncogenic rearrangements of the ret proto-oncogene in thyroid tumors induced after exposure to ionizing radiation. 946 1
The activation of
RET
protooncogene, through chromosomal translocation, is unique to papillary thyroid carcinomas. Rearrangement of the
RET
kinase domain to 3 partner genes has been described, of which the
RET
/PTC1 is the most common. To investigate the frequency of
RET
rearrangement in Chinese papillary thyroid carcinomas, we have performed RT-PCR to amplify specific
RET
/PTC transcripts. Among the papillary thyroid carcinomas of 11 patients examined, we have identified 2 containing
RET
/PTC1, 3 containing
RET/PTC2
, and 1 containing
RET
/PTC3 oncogenes. Although the cause of the high frequency of
RET
/PTC oncogenes in Chinese papillary thyroid carcinomas is unknown, our study suggests that
RET
rearrangement is an important genetic lesion underlying the development of thyroid papillary carcinoma in Taiwan.
...
PMID:High frequency of rearrangement of the RET protooncogene (RET/PTC) in Chinese papillary thyroid carcinomas. 958 68
The prevalence of
RET
/PTC rearrangements in papillary thyroid carcinomas (PTCs) varies widely in different studies, and an association of
RET
/PTC presence with tumor behavior remains to be clarified. A prospective study of 50 adult PTCs examined, using RT-PCR, the prevalence of the 3 main
RET
rearrangements and also of
RET
tyrosine kinase (TK) domain sequence expression. The genetic findings were correlated with the MACIS clinical prognostic score and with individual clinical parameters. Three of the patients had been exposed to radiation in childhood or adolescence. Four of the PTCs contained
RET
/PTC1, confirmed by sequencing, and none contained
RET/PTC2
or
RET
/PTC3. The prevalence of
RET
rearrangements overall was 8%, but in the subgroup of 3 radiation-exposed patients it was 66.6%. Interestingly,
RET
tyrosine kinase domain messenger ribonucleic acid was detectable in 70% of PTCs using
RET
exon 12/13 primers and was detectable in 24% of PTCs using
RET
exon 15/17 primers. RT-PCR for calcitonin and
RET
extracellular domain, however, was negative. There was no association between the presence or absence of
RET
/PTC in the patient's tumor and clinical parameters. We conclude that
RET
/PTC1 is the predominant rearrangement in PTCs from adults with a history of external irradiation in childhood.
RET
TK messenger ribonucleic acid expression is common in PTCs, using RT-PCR, and cannot be used to infer the presence of specific
RET
rearrangements or of
RET
activation.
...
PMID:RET/PTC and RET tyrosine kinase expression in adult papillary thyroid carcinomas. 1037 44
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
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
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