Tyler J. Peat scite author profile

Translation and transcription are frequently dysregulated in cancer. These two processes are generally regulated by distinct sets of factors. The CBFB gene, which encodes a transcription factor, has recently emerged as a highly mutated driver in a variety of human cancers including breast cancer. Here we report a noncanonical role of CBFB in translation regulation. RNA immunoprecipitation followed by deep sequencing (RIP-seq) reveals that cytoplasmic CBFB binds to hundreds of transcripts and regulates their translation. CBFB binds to mRNAs via hnRNPK and enhances translation through eIF4B, a general translation initiation factor. Interestingly, the RUNX1 mRNA, which encodes the transcriptional partner of CBFB, is bound and translationally regulated by CBFB. Furthermore, nuclear CBFB/RUNX1 complex transcriptionally represses the oncogenic NOTCH signaling pathway in breast cancer. Thus, our data reveal an unexpected function of CBFB in translation regulation and propose that breast cancer cells evade translation and transcription surveillance simultaneously through downregulating CBFB.

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A water soluble parthenolide analog suppresses in vivo tumor growth of two tobacco‐associated cancers, lung and bladder cancer, by targeting NF‐κB and generating reactive oxygen species

Shanmugam

Kusumanchi

Appaiah

et al. 2010

Intl Journal of Cancer

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Dimethylaminoparthenolide (DMAPT) is a water soluble parthenolide analog with preclinical activity in hematologic malignancies. Using non-small lung cancer (NSCLC) cell lines (A549 and H522) and an immortalized human bronchial epithelial cell line (BEAS2B) and TCC cell lines (UMUC-3, HT-1197 and HT-1376) and a bladder papilloma (RT-4), we aimed to characterize DMAPT's anticancer activity in tobacco-associated neoplasms. Flow cytometric, electrophoretic mobility gel shift assays (EMSA), and Western blot studies measured generation of reactive oxygen species (ROS), inhibition of NFjB DNA binding, and changes in cell cycle distribution and apoptotic proteins. DMAPT generated ROS with subsequent JNK activation and also decreased NFjB DNA binding and antiapoptotic proteins, TRAF-2 and XIAP. DMAPT-induced apoptotic cell death and altered cell cycle distribution with upregulation of p21 and p73 levels in a cell type-dependent manner. DMAPT suppressed cyclin D1 in BEAS2B. DMAPT retained NFjB and cell cycle inhibitory activity in the presence of the tobacco carcinogen nitrosamine ketone, 4(methylnitrosamino)-1-(3-pyridyl)-1-butanone (NNK). Using a BrdU accumulation assay, 5-20 lM of DMAPT was shown to inhibit cellular proliferation of all cell lines by more than 95%. Oral dosing of DMAPT suppressed in vivo A549 and UMUC-3 subcutaneous xenograft growth by 54% (p 5 0.015) and 63% (p < 0.01), respectively, and A549 lung metastatic volume by 28% (p 5 0.043). In total, this data demonstrates DMAPT's novel anticancer properties in both early and late stage tobacco-associated neoplasms as well as its significant in vivo activity. The data provides support for the conduct of clinical trials in TCC and NSCLC.In the United States in 2008, over 68,000 individuals were diagnosed with bladder cancer, and more than 14,000 patients died from their disease. Transitional cell carcinoma (TCC) is the dominant histology in over 95% of cases.1 There were also more than 200,000 patients diagnosed with lung cancer with 160,390 deaths and non-small lung cancer (NSCLC) makes up more than three quarters of these cases. Tobacco smoking is a major modifiable risk factor for both bladder and NSCLCs and significant achievements in decreasing this risk factor have been made in some countries. Despite this progress, these cancers are still a major cause of the current death rate from cancer.2 Modest advances have recently been made in the treatment of NSCLC with epidermal growth factor receptor and angiogenesis inhibition. 3,4 Therefore, novel strategies are needed to prevent the progression of epithelial cells which have entered the neoplastic

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Tyler J. Peat

The transcription factor CBFB suppresses breast cancer through orchestrating translation and transcription

A water soluble parthenolide analog suppresses in vivo tumor growth of two tobacco‐associated cancers, lung and bladder cancer, by targeting NF‐κB and generating reactive oxygen species

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