Flag-RBM47 HITS-CLIP in brain metastatic derivatives of MDA-MB-231
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ABSTRACT: Brain metastatic breast cancer cells were subjected to HITS-CLIP to identify the targets of the RNA binding protein RBM47 MDA231-BrM2a is characterized in PMID: 19421193; Related data published together with these data are found in GSE53779
Project description:Brain metastatic breast cancer cells were subjected to HITS-CLIP to identify the targets of the RNA binding protein RBM47 MDA231-BrM2a is characterized in PMID: 19421193; Related data published together with these data are found in GSE53779 Non-clonal brain metastatic breast cancer cells stably expressing Flag-tagged, wild-type RBM47 under a doxycline-inducible promoter were treated for three days with doxycycline then UV-irradiated and subjected to Flag HITS-CLIP
Project description:Through integrative analysis of clinical breast cancer gene expression datasets, cell line models of breast cancer progression, and mutation data from cancer genome resequencing studies, we have identified RNA binding motif protein 47 (RBM47) as a candidate suppressor of breast cancer metastasis. RBM47 inhibited breast cancer progression in experimental models. Transcriptome-wide analysis of RBM47 localization by HITS-CLIP revealed widespread binding to mRNAs, preferentially at the 3' UTRs. RBM47 altered the abundance of a subset of its target mRNAs. Some of the mRNAs stabilized by RBM47, as exemplified by dickkopf WNT signaling pathway inhibitor 1 (DKK1), mediate tumor suppressive effects downstream of RBM47. This work identifies RBM47 as a suppressor of breast cancer progression and highlights the potential of global RNA modulatory events as a source of metastasis-promoting phenotypic traits.
Project description:Through integrative analysis of clinical breast cancer gene expression datasets, cell line models of breast cancer progression, and mutation data from cancer genome resequencing studies, we have identified RNA binding motif protein 47 (RBM47) as a candidate suppressor of breast cancer metastasis. RBM47 inhibited breast cancer progression in experimental models. Transcriptome-wide analysis of RBM47 localization by HITS-CLIP revealed widespread binding to mRNAs, preferentially at the 3' UTRs. RBM47 altered the abundance of a subset of its target mRNAs. Some of the mRNAs stabilized by RBM47, as exemplified by dickkopf WNT signaling pathway inhibitor 1 (DKK1), mediate tumor suppressive effects downstream of RBM47. This work identifies RBM47 as a suppressor of breast cancer progression and highlights the potential of global RNA modulatory events as a source of metastasis-promoting phenotypic traits. Cancer cells transduced with doxycycline-inducible wildtype RBM47 or the RBM47-I281fs mutant, treated with increasing concentrations of doxycycline.
Project description:Changes in alternative splicing in breast cancer cells expressing control, empty vector or Flag-tagged wild type RBM47 were analyzed using paired-end, 100bp RNAseq. Related data published together with these data are found in GSE53779 Triplicate RNAseq libraries were prepared from non-clonal brain metastatic breast cancer cells stably expressing empty-vector, and a clonal cell line (wt#10) expressing Flag-tagged, wild-type RBM47 under a doxycline-inducible promoter, both treated for three days with doxycycline to induce transgene expression