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Query: EC:2.7.10.1 (
ERK
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95,504
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Rearrangements of the
RET
and
TRK
proto-oncogenes, which generate fusion oncogenes, are frequent in papillary thyroid carcinomas in Caucasian populations. To determine the spectrum of gene rearrangements in Japanese patients, we systematically examined 40 papillary thyroid carcinomas for all possible types of gene fusion events involving
RET
or
TRK
genes.
RET
rearrangements were found in ten tumors (25%): ret/PTC1 had occurred in two tumors, ret/PTC2 in one, ret/
PTC3
in six, and a novel
RET
rearrangement in the remaining patient. In this last patient, the 5' novel sequence was fused in-frame to the
RET
amino acid sequence; thus, the fusion gene may encode a protein with a
RET
kinase domain at the carboxy terminus. The
RET
gene was fused to 5' donor sequences at the beginning of exon 12 in all ten tumors. No rearrangements involving the
TRK
gene were found in this panel of carcinomas. Our results indicated that constitutive activation of the
RET
by gene rearrangement is a frequent mechanism of papillary thyroid carcinogenesis in Japanese adults.
...
PMID:Ret/PTC3 is the most frequent form of gene rearrangement in papillary thyroid carcinomas in Japan. 1008 32
Mutations are defined as stable and irreversible modifications of the normal genetic message due to small changes in the number or type of bases, or to large modifications of the genome such as deletions, insertions or chromosome rearrangements. These lesions are due to either polymerase errors during normal DNA replication or unrepaired DNA lesions, which will give rise to mutations through a mutagenic pathway. The molecular process leading to mutagenesis depends largely on the type of DNA lesions. Base modifications, such as 8-oxo-guanine or thymine glycol, both induced by ionizing radiations (IR), are readily replicated leading to direct mutations, usually base-pair substitutions. The 8-oxo-G gives rise predominantly to G to T transversions, the type of mutations found in ras or p53 gene from IR-induced tumors. Bulky adducts produced by chemical carcinogens or UV-irradiation are usually repaired by the nucleotide excision repair (NER) pathway which is able to detect structural distortion in the normal double-strand DNA backbone. These lesions represent a blockage to DNA and RNA polymerases as well as some signal for p53 accumulation in the damaged cell. In the absence of repair, these lesions could be eventually replicated owing to the induction of specific proteins at least in bacteria during the SOS process. The precise nature of the error-prone replication across an unexcised DNA lesion in the template is not fully understood in detailed biochemical terms, in mammalian cells. IR basically produce a very large number of DNA lesions from unique base modifications to single- or double-strand breaks and even complex DNA lesions due to the passage of very high energy particles or to a local re-emission of numerous radicals. The breakage of the double-helix is a difficult lesion to repair. Either it will result in cell death or, after an incorrect recombinational pathway, it will induce frameshifts, large deletions or chromosomal rearrangements. Most of the IR-induced mutations are recessive ones, requiring therefore a second genetic event in order to exhibit any harmful effect and a long latency period before the development of a radiation-induced tumor. The fact that IR essentially induced deletions and chromosomal translocations renders very difficult the use of the p53 gene as a marker for mutation analysis. In agreement with the type of lesions induced by IR, it is interesting to point out that the presence has been observed, in a vast majority of radiation-induced papillary thyroid carcinomas (PTC), of an activated ret proto-oncogene originated by the fusion of the tyrosine kinase 3' domain of this gene with the 5' domain of four different genes. These ret chimeric genes which are due to intra- or inter-chromosomal translocations, were called
RET
/PTC1 to PTC5. The
RET
/PTC rearrangements were found in PTC from children contaminated by the Chernobyl fall-out as well as in tumours from patients with a history of therapeutic external radiation, with a frequency of 60-84%. This frequency was only 15% in 'spontaneous' PTC. The type of ret chimeric gene predominantly originated by the accidental or therapeutic IR was different. Indeed, PTC1 was present in 75% of the tumours linked to a therapeutic radiation and
PTC3
in 75% of the Chernobyl ones. The other forms of
RET
/PTC were observed in only a minority of the post-Chernobyl PTC (< 20%). The difference in the frequency of PTC1 and
PTC3
in both types of PTC, is statistically significant (P < 10(-5), Fischer's exact test). In two of the post-therapeutic radiation PTC,
RET
/PTC1 and
PTC3
were simultaneously present. A PTC1 gene was also observed in 45% of the adenomas appearing after therapeutic radiation. The long-period of latency between exposure to IR and the appearance of thyroid tumours is probably due to the conversion of a heterozygote genotype of IR-induced mutations to a homozygote one. It will be interesting to use this time lag in accidental or therapeutic-irradiated p
...
PMID:Mechanisms of mutagenesis in mammalian cells. Application to human thyroid tumours. 1019 66
Overexpression of the
HER2
/
Neu
protooncogene has been linked to the progression of breast cancer. Here we demonstrate that the growth of prostate cancer LNCaP cells can also be increased by the stable transfection of
HER2
/
Neu
. Using AG879, a
HER2
/
Neu
inhibitor, and PD98059, a MAP kinase inhibitor, as well as MAP kinase phosphatase-1 (MPK-1), in the transfection assay, we found that
HER2
/
Neu
could induce prostate-specific antigen (PSA), a marker for the progression of prostate cancer, through the MAP kinase pathway at a low androgen level. Reporter assays and mammalian two-hybrid assays further suggest this
HER2
/
Neu
-induced androgen receptor (AR) transactivation may function through the promotion of interaction between AR and AR coactivators, such as
ARA70
. Furthermore, we found this
HER2
/
Neu
--> MAP kinase --> AR-ARAs --> PSA pathway could not be blocked completely by hydroxyflutamide, an antiandrogen used in the treatment of prostate cancer. Together, these data provide a novel pathway from
HER2
/
Neu
to AR transactivation, and they may represent one of the reasons for the PSA re-elevation and hormone resistance during androgen ablation therapy in prostate cancer patients.
...
PMID:From HER2/Neu signal cascade to androgen receptor and its coactivators: a novel pathway by induction of androgen target genes through MAP kinase in prostate cancer cells. 1031 5
Abnormalities of the human androgen receptor (hAR) cause a range of clinical defects in male development. A large proportion of these mutations are single amino acid substitutions in the hormone-binding domain (HBD) that alter AR function by interfering with the capacity of the AR to bind androgen or to form stable hormone-receptor complexes. Prior studies have suggested that the formation of such stable, active hormone-receptor complexes is a crucial step in the modulation of genes by the AR. It is presumed that these hormone-receptor complexes interact with other proteins to participate in the formation of active transcription complexes at the initiation sites of androgen-responsive genes. Using a yeast two-hybrid screening method, we isolated a partial cDNA encoding the carboxy terminus of a protein that interacts with the hAR-HBD (amino acid residues 623-917) in a ligand-dependent fashion in a yeast two-hybrid assay. Sequence analysis of this clone revealed that it encoded a portion of a protein that had been previously characterized as
RFG
(
RET
Fused Gene). Using glutathione-S-transferase (GST) fusions of the hAR HBD and immunoprecipitation of the in vitro translated proteins, we have demonstrated that this interaction can be reproduced in vitro. To determine the capacity of this protein to modulate the activity of the AR in transfection assays, we expressed full-length
RFG
in the CV1 and DU145 cell lines, in combination with an AR expression vector and model androgen-responsive genes [mouse mammary tumor virus (MMTV) and PRE2-tk luciferase]. Our results demonstrate that
RFG
alters the induction of these reporter genes very weakly (no greater than 2-fold compared with transfections without the
RFG
expression plasmid). Thus, while our findings are in agreement with published reports which indicate that
RFG
interacts with AR-HBD in a ligand-dependent fashion, in our assays
RFG
does not exert major effects on the activity of the hAR in response to androgen or to other steroid hormones.
...
PMID:RFG (ARA70, ELE1) interacts with the human androgen receptor in a ligand-dependent fashion, but functions only weakly as a coactivator in cotransfection assays. 1051 67
A sharp increase in the incidence of pediatric thyroid papillary cancer was documented after the Chernobyl power plant explosion. An increased prevalence of rearrangements of the
RET
protooncogene (
RET
/PTC rearrangements) has been reported in Belarussian post-Chernobyl papillary carcinomas arising between 1990 and 1995. We analyzed 67 post-Chernobyl pediatric papillary carcinomas arising in 1995-1997 for
RET
/PTC activation: 28 were from Ukraine and 39 were from Belarus. The study, conducted by a combined immunohistochemistry and RT-PCR approach, demonstrated a high frequency (60.7% of the Ukrainian and 51.3% of the Belarussian cases) of
RET
/PTC activation. A strong correlation was observed between the solid-follicular subtype of papillary carcinoma and the
RET
/
PTC3
isoform: 19 of the 24
RET
/PTC-positive solid-follicular carcinomas harbored a
RET
/
PTC3
rearrangement, whereas only 5 had a
RET
/PTC1 rearrangement. Taken together these results support the concept that
RET
/PTC activation plays a central role in the pathogenesis of thyroid papillary carcinomas in both Ukraine and Belarus after the Chernobyl accident.
...
PMID:High prevalence of RET/PTC rearrangements in Ukrainian and Belarussian post-Chernobyl thyroid papillary carcinomas: a strong correlation between RET/PTC3 and the solid-follicular variant. 1123 50
The
RET
/
PTC3
rearrangement is formed by fusion of the
ELE1
and
RET
genes, and is highly prevalent in radiation-induced post-Chernobyl papillary thyroid carcinomas. We characterized the breakpoints in the
ELE1
and
RET
genes in 12 post-Chernobyl pediatric papillary carcinomas with known
RET
/
PTC3
rearrangement. We found that the breakpoints within each intron were distributed in a relatively random fashion, except for clustering in the Alu regions of
ELE1
. None of the breakpoints occurred at the same base or within a similar sequence. There was also no evidence of preferential cleavage in AT-rich regions or other target DNA sites implicated in illegitimate recombination in mammalian cells. Modification of sequences at the cleavage sites was minimal, typically involving a 1-3 nucleotide deletion and/or duplication. Surprisingly, the alignment of
ELE1
and
RET
introns in opposite orientation revealed that in each tumor the position of the break in one gene corresponded to the position of the break in the other gene. This tendency suggests that the two genes may lie next to each other but point in opposite directions in the nucleus. Such a structure would facilitate formation of
RET
/
PTC3
rearrangements because a single radiation track could produce concerted breaks in both genes, leading to inversion due to reciprocal exchange via end-joining.
...
PMID:Chromosomal breakpoint positions suggest a direct role for radiation in inducing illegitimate recombination between the ELE1 and RET genes in radiation-induced thyroid carcinomas. 1059 32
The increase in thyroid carcinoma post-Chernobyl has been largely confined to a specific subtype of papillary carcinoma (solid/follicular). This subtype is observed predominantly in children under 10 in unirradiated populations, but maintains a high frequency in those aged 10-15 from those areas exposed to fallout from the Chernobyl accident. The aim of this study was to link morphology with molecular biology. We examined 106 papillary carcinomas from children under the age of 15 at operation. All were examined for rearrangements of the
RET
oncogene by reverse transcription polymerase chain reaction (RT-PCR); a subset of these cases were also examined for mutations of the three ras oncogenes, exon 10 of the thyroid stimulating hormone receptor, associated more usually with a follicular rather than papillary morphology, and exons 5, 6, 7 and 8 of the p53 gene, commonly involved in undifferentiated thyroid carcinoma. Rearrangements of the REToncogene were found in 44% of papillary carcinomas in which we studied fresh material; none of the tumours examined showed mutation in any of the other genes. The two rearrangements resulting from inversion of part of chromosome 10 (PTC1 and
PTC3
) accounted for the majority of
RET
rearrangements identified, with PTC1 being associated with papillary carcinomas of the classic and diffuse sclerosing variants and
PTC3
with the solid/follicular variant.
...
PMID:Gene rearrangement and Chernobyl related thyroid cancers. 1064 83
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
Molecular genetic aberrations and the related phenotypes were investigated in 191 papillary thyroid carcinomas (PTCs) from patients exposed at young age to radioiodine released from the Chernobyl reactor. A high prevalence of
RET
gene rearrangements (62.3%) with a significant predominance of
ELE1
/
RET
(
PTC3
) over H4/
RET
(PTC1) rearrangements was found in PTCs of the first post-Chernobyl decade.
NTRK1
rearrangements were rare (3.3%). In 3.3%, we observed novel types of
RET
rearrangements: GOLGA5/
RET
(PTC5), HTIF/
RET
(PTC6), RFG7/
RET
(PTC7), and an as yet undefined RFGX/
RET
.
RET
rearrangements, preferentially
ELE1
/
RET
, are related to rapid tumor development. At longer intervals after exposure to ionizing radiation, the prevalence of
RET
rearrangements declines with a shift from
ELE1
/
RET
to H4/
RET
, most significantly in female patients. The prevalence of specific types of rearrangements is independent of age at irradiation. A significantly higher prevalence of
ELE1
/
RET
was observed in the most heavily contaminated Oblasts, Gomel and Brest, suggesting a preferential formation of this type of rearrangement after high thyroid doses.
RET
rearrangement is related to aggressive growth: Rearrangement-positive PTCs were in a more advanced pT category and more frequently in the pN1 category at presentation than rearrangement-negative PTCs.
ELE1
/
RET
is related to the solid variant of PTC, H4/
RET
more frequently to typical papillary structures. The genotype/phenotype evaluation of post-Chernobyl PTCs reveals a characteristic spectrum of gene rearrangements that lead to typical phenotypes with important biological and clinical implications.
...
PMID:Pattern of radiation-induced RET and NTRK1 rearrangements in 191 post-chernobyl papillary thyroid carcinomas: biological, phenotypic, and clinical implications. 1074 39
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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