Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0149925 (
small cell lung cancer
)
6,491
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the search for a tumour suppressor gene in the 3p21.3 region we isolated two genes,
RBM5
and RBM6. Gene
RBM5
maps to the region which is homozygously deleted in the
small cell lung cancer
cell line GLC20; RBM6 crosses the telomeric breakpoint of this deletion. Sequence comparison revealed that at the amino acid level both genes show 30% identity. They contain two zinc finger motifs, a bipartite nuclear signal and two RNA binding motifs, suggesting that the proteins for which
RBM5
and RBM6 are coding have a DNA/RNA binding function and are located in the nucleus. Northern and Southern analysis did not reveal any abnormalities. By SSCP analysis of 16 lung cancer cell lines we found only in
RBM5
a single presumably neutral mutation. By RT-PCR we demonstrated the existence of two alternative splice variants of RBM6, one including and one excluding exon 5, in both normal lung tissue and lung cancer cell lines. Exclusion of exon 5 results in a frameshift which would cause a truncated protein of 520 amino acids instead of 1123 amino acids. In normal lung tissue, the relative amount of the shorter transcript was much greater than that in the lung tumour cell lines, which raises the question whether some tumour suppressor function may be attributed to the derived shorter protein.
...
PMID:A comparison of genomic structures and expression patterns of two closely related flanking genes in a critical lung cancer region at 3p21.3. 1035 38
Small cell lung cancer
(
SCLC
) is the most aggressive type of lung cancer, with almost 95% of patients succumbing to the disease. Although
RBM5
, a tumor suppressor gene, is downregulated in the majority of lung cancers, its role in
SCLC
is unknown. Using the GLC20
SCLC
cell line, which has a homozygous deletion encompassing the
RBM5
gene locus, we established stable
RBM5
expressing sublines and investigated the effects of
RBM5
re-expression. Transcriptome and target identification studies determined that
RBM5
directly regulates the cell cycle and apoptosis in
SCLC
cells, as well as significantly downregulates other important transformation-associated pathways such as angiogenesis and cell adhesion. RNA sequencing of paired non-tumor and tumor
SCLC
patient specimens showed decreased
RBM5
expression in the tumors, and expression alterations in the majority of the same pathways that were altered in the GLC20 cells and sublines. Functional studies confirmed
RBM5
expression slows
SCLC
cell line growth, and increases sensitivity to the chemotherapy drug cisplatin. Overall, our work demonstrates the importance of
RBM5
expression to the non-transformed state of lung cells and the consequences of its deletion to
SCLC
development and progression.
...
PMID:RBM5 reduces small cell lung cancer growth, increases cisplatin sensitivity and regulates key transformation-associated pathways. 2795 56
Lung cancers are the leading cause of cancer-related deaths worldwide, with
small cell lung cancer
(
SCLC
) being the most aggressive type. At the time of diagnosis,
SCLC
has usually already metastasized, and an astonishing 95% of patients eventually succumb to the disease. This highlights the need for more effective
SCLC
screening and treatment options. Interestingly, the earliest and most frequent genetic alteration associated with lung cancers involves a lesion in the region to which the RNA binding protein
RBM5
maps. We have recently shown that a decrease in
RBM5
expression may be a key step in
SCLC
development, as
RBM5
regulated many transformation-associated processes in
SCLC
cells.
RBM5
is structurally and functionally similar to another RNA binding protein, RBM10. Both proteins have tumor-suppressor properties in a variety of cancer cell lines, and it has been suggested that
RBM5
expression can influence RBM10. Due to their similarities, and the recent evidence that RBM10 is mutated in up to 21% of lung cancers, we hypothesized that RBM10 would share
RBM5
's tumor-suppressor properties in
SCLC
. Using transcriptome analysis and functional assays, we show, however, that RBM10's function was opposite to what we hypothesized; in the endogenously
RBM5
-null GLC20
SCLC
cell line, RBM10 actually promoted cell proliferation and other transformation-associated processes. Using RNA immunoprecipitation followed by next generation sequencing (RIP-Seq) and Western blotting, we demonstrate that
RBM5
post-transcriptionally regulated RBM10 expression via direct interaction with specific RBM10 splice variants. We propose a working model describing the impact of this interaction on cellular processes. Our results provide evidence that RBM10 expression, in
RBM5
-null tumors, may contribute to tumor growth and metastasis. Measurement of both RBM10 and
RBM5
expression in clinical samples may therefore hold prognostic and/or potentially predictive value.
...
PMID:RBM10 promotes transformation-associated processes in small cell lung cancer and is directly regulated by RBM5. 2866 14
