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Query: UNIPROT:P43146 (
tumour suppressor
)
5,935
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
LRIG1
gene (formerly LIG-1), recently cloned by us, displays structural similarities to the Drosophila Kek I gene. Kek I encodes a cell surface protein, Kekkon-1, which inhibits epidermal growth factor receptor-mediated signalling. We localized the
LRIG1
gene to chromosome band 3p14.3, a region known to be deleted in various human cancers. In the present study
LRIG1
gene expression was examined in different tumour cell lines and corresponding normal tissues by real-time RT-PCR. In many tumour cell lines,
LRIG1
expression appeared absent or was down regulated compared to corresponding normal tissues. The results are consistent with
LRIG1
being a
tumour suppressor
gene in humans. However, further studies are justified to elucidate the explicit role of
LRIG1
as a negative regulator of oncogenesis.
...
PMID:Is LRIG1 a tumour suppressor gene at chromosome 3p14.3? 1223 26
In all, 31 renal cell carcinomas (RCCs) were examined for expression of the potential
tumour suppressor
LRIG1
(formerly Lig-1) and the epidermal growth factor receptor (EGFR). Eight matched samples of uninvolved kidney cortex were also evaluated. Gene expression was examined by quantitative real-time RT-PCR. In the eight matched sample pairs (uninvolved kidney cortex and tumour), protein expression was examined by immunohistochemistry. Conventional (clear cell) tumours showed an expected upregulation of EGFR.
LRIG1
expression was generally downregulated in conventional and papillary RCC but not in chromophobic RCC. The ratio between EGFR and
LRIG1
was more than 2.5-fold higher in the eight tumours compared with matched uninvolved kidney cortex and was at least two-fold higher than the mean normal ratio in 21 of 31 samples analysed. The observed downregulation of
LRIG1
and increased EGFR/
LRIG1
ratios are consistent with
LRIG1
being a suppressor of oncogenesis in RCC by counteracting the tumour-promoting properties of EGFR. Further studies are justified to elucidate the explicit role of
LRIG1
in the oncogenesis of RCC.
...
PMID:LRIG1 and epidermal growth factor receptor in renal cell carcinoma: a quantitative RT--PCR and immunohistochemical analysis. 1452 Apr 61
This study describes the molecular cloning of a familial translocation, t(3;8)(p14.2;q24.2), that segregates with the conventional renal cell carcinoma (conventional RCC). We had previously reported the family history and, through loss of heterozygosity and comparative genomic hybridization, detected the loss of the 3p chromosome arm and somatic mutation in the retained von Hippel-Lindau gene in some members of the family. With the help of array painting and sequence tagged site-PCR on flow-sorted derivative chromosomes, we have cloned the breakpoints of the translocation. We have studied the junctions on both derivative chromosomes at the genomic and expression levels. The analysis of the sequence revealed a 5 kb microdeletion at the chromosome 3 breakpoint together with a high density of repetitive motifs (Alu, short interspersed nuclear element) and an AT-rich region. Both chromosome 3 and 8 rearranged regions were very poor in gene content. We tested an expressed sequence tag, two predicted genes, one novel gene and
LRIG1
, a gene located more than 200 kb apart from the breakpoint on chromosome 3. None of these genes, except
LRIG1
, showed expression in any of the tested tissues (including normal adult and fetal kidney, sporadic kidney tumours and tumour samples from the proband's family). Taken together, all these data suggest that, rather than deregulation of specific genes that may be rearranged by the translocation, the proposed three-step model of tumour development (translocation, loss of the 3p chromosome, and mutation in a
tumour suppressor
gene located within that region) could be the biological mechanism that takes place in this familial form of conventional RCC.
...
PMID:Cloning of a new familial t(3;8) translocation associated with conventional renal cell carcinoma reveals a 5 kb microdeletion and no gene involved in the rearrangement. 1501 67
Three human leucine-rich repeats and immunoglobulin-like domains (LRIG) genes and proteins, named
LRIG1
-3, has been previously characterized and it was proposed that they may act as suppressors of tumor growth. The LRIG1 protein can inhibit the growth of tumors of glial cells and the down-regulation of the
LRIG1
gene may be involved in the development and progression of the tumor. Real-time reverse transcription-polymerase chain reaction (RT-PCR) is a recently developed technique for quantitative assessment of specific RNA levels. In the current study, it was demonstrated that
LRIG1
-3 and EGFR mRNA was detected in human pituitary adenoma cell lines and a normal pituitary sample, with differences in the expression levels. Compared to the normal pituitary samples, the expression of
LRIG1
-3 in HP75 cell line was lower, but the expression of EGFR in HP75 cell line was higher. The results are consistent with
LRIG1
-3 being
tumour suppressor
genes, and LRIG genes decreasing the expression of EGFR. The ratio of EGFR/
LRIG1
was increased at least 13-fold in HP75 cells compared with the normal pituitary cells, which was also the case for the ratio of EGFR/LRIG2 (14-fold increase in HP75) and EGFR/LRIG3 (11-fold increase in HP75). Further studies were needed to elucidate the explicit role of LRIG genes as negative regulators of oncogenesis in human pituitary adenoma.
...
PMID:Down-regulation of leucine-rich repeats and immunoglobulin-like domain proteins (LRIG1-3) in HP75 pituitary adenoma cell line. 1739 20
Cigarette smoking is the main risk factor for the development of squamous cell lung carcinoma (SCC). However, the smoking-related molecular changes in SCC have not been studied. Gene expression studies in both histologically normal bronchial epithelium and SCC epithelial samples identified genes differentially expressed between current and ex-smokers. Subsequently, expression levels of the smoking-related genes in normal bronchial epithelium were compared with those in SCC cells, since we hypothesized that the smoking-induced changes would be also deregulated in SCC. Gene expression profiles were generated using Agilent whole human genome microarrays on laser-microdissected normal bronchial epithelium and SCC samples. Expression levels of 246 genes, mainly related to oxidative stress response, were significantly different between normal bronchial epithelium of current and ex-smokers. Such a differential gene expression profile did not exist in SCC cells of smokers and ex-smokers. Interestingly, when comparing SCC and normal bronchial epithelium from ex-smokers, the vast majority of these 246 genes were also deregulated in SCC. When comparing SCC with normal epithelium from smokers, 22% of the up-regulated genes showed a similar high expression in SCC whereas 79% of the down-regulated genes were even further reduced in SCC as compared to current smokers. The down-regulated genes included several
tumour suppressor
genes, such as C9orf9, INHBB,
LRIG1
, SCGB3A1, SERPINI2, STEAP3 and ZMYND10. Thus, our study shows that the majority of genes up-regulated in normal bronchial epithelium of current smokers show similar high expression levels in SCC, while down-regulated genes are even further repressed in SCC. Our data indicate that smoking-related changes in normal bronchial epithelial cells persist in malignant transformed squamous cells.
...
PMID:Current smoking-specific gene expression signature in normal bronchial epithelium is enhanced in squamous cell lung cancer. 1933 46
