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:C0006142 (
breast cancer
)
160,383
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
RNA exosome can target the specific RNAs for their processing/degradation by distinct exosome cofactors. As a key component in exosome cofactors,
RNA binding motif protein 7
(
RBM7
) shows the binding specificity for uridine-rich sequences in mRNAs via its RNA recognition motifs. However, the specific function of
RBM7
in human
breast cancer
remains unclear. In vitro, experiments revealed that knockdown of
RBM7
dramatically inhibited
breast cancer
cell proliferation, while inducing G1 cell cycle arrest; the opposite was true when
RBM7
was overexpressed. Meanwhile, experiments in vivo confirmed the oncogenic function of
RBM7
in
breast cancer
. RNA sequencing and the following pathway analysis found that cyclin-dependent kinase1 (CDK1) was one of the main gene regulated by
RBM7
. Overexpression of
RBM7
increased CDK1 expression, while
RBM7
knockdown decreased it. RIP assays additionally found that
RBM7
bound directly to CDK1 mRNA. It was also showed that
RBM7
could directly bind to the AU-rich elements (AREs) in 3'-UTR of CDK1 mRNA, which contributed to the stability of CDK1 mRNA by lengthening its half-life. More importantly, the oncogenic activity reduced by knockdown of
RBM7
could be rescued by overexpression of CDK1 both in vitro and in vivo, but mutant CDK1 failed. All the evidences implied
RBM7
promoted
breast cancer
cell proliferation by stabilizing CDK1 mRNA via binding to AREs in its 3'-UTR. As we knew, it was the first attempt to connect the RNA exosome to the tumor development, providing new insights into the mechanisms of RNA exosome-linked diseases.
NPJ
Breast Cancer
2020
PMID:Oncogenic action of the exosome cofactor RBM7 by stabilization of CDK1 mRNA in breast cancer. 3314 1
RNA exosome can target the specific RNAs for their processing/degradation by distinct exosome cofactors. As a key component in exosome cofactors,
RNA binding motif protein 7
(
RBM7
) shows the binding specificity for uridine-rich sequences in mRNAs via its RNA recognition motifs. However, the specific function of
RBM7
in human
breast cancer
remains unclear. In vitro, experiments revealed that knockdown of
RBM7
dramatically inhibited
breast cancer
cell proliferation, while inducing G1 cell cycle arrest; the opposite was true when
RBM7
was overexpressed. Meanwhile, experiments in vivo confirmed the oncogenic function of
RBM7
in
breast cancer
. RNA sequencing and the following pathway analysis found that cyclin-dependent kinase1 (CDK1) was one of the main gene regulated by
RBM7
. Overexpression of
RBM7
increased CDK1 expression, while
RBM7
knockdown decreased it. RIP assays additionally found that
RBM7
bound directly to CDK1 mRNA. It was also showed that
RBM7
could directly bind to the AU-rich elements (AREs) in 3'-UTR of CDK1 mRNA, which contributed to the stability of CDK1 mRNA by lengthening its half-life. More importantly, the oncogenic activity reduced by knockdown of
RBM7
could be rescued by overexpression of CDK1 both in vitro and in vivo, but mutant CDK1 failed. All the evidences implied
RBM7
promoted
breast cancer
cell proliferation by stabilizing CDK1 mRNA via binding to AREs in its 3'-UTR. As we knew, it was the first attempt to connect the RNA exosome to the tumor development, providing new insights into the mechanisms of RNA exosome-linked diseases.
NPJ
Breast Cancer
2020 Oct 30
PMID:Oncogenic action of the exosome cofactor RBM7 by stabilization of CDK1 mRNA in breast cancer. 3329 49
