Abstract
In most human cancers, a large number of proteins with driver mutations are involved in tumor development, implying that multiple fine tuners are involved in cancer formation and/or maintenance. A useful strategy for cancer therapy may therefore be to target multiple cancer type-specific fine tuners. Furthermore, genome-wide association studies of tumor samples have identified a large number of long noncoding (lnc)RNA associated with various types of tumor. In this context we have previously found that C20orf204 (a splice variant of Linc00176) RNA contains a 189 amino acid (AA) long open reading frame (C20orf204-189AA) that is expressed predominantly in hepatocellular carcinoma (HCC). We report here that a protein, C20orf204-189AA, was detected in the nucleus of 14 out of 20 primary HCC, but not in control livers. Strikingly, overexpression of C20orf204-189AA enhanced cell proliferation and ribosomal RNA transcription. C20orf204-189AA is co-localized, and interacted with nucleolin via the C-terminal and with ribosomal RNA via the N-terminal domain. Furthermore, the expression of C20orf204-189AA upregulates the protein level of nucleolin. Nucleolin and C20orf204 mRNA levels in HCC are correlated with tumor differentiation grade and patient survival, suggesting that C20orf204-189AA is a cancer type-specific fine tuner in some HCC that presents itself for potential targeting therapy and cancer biomarker. Thus, cancer cells exhibit remarkable transcriptome alterations partly by adopting cancer-specific splicing isoforms of noncoding RNAs and may participate in tumor development.
Highlights
A large number of driver mutations have been reported in most human cancers
It has been recently shown by exome sequencing of hepatocellular carcinoma (HCC) that 161 putative driver genes are associated with 11 recurrently altered pathways in HCC development[1], suggesting that many signaling pathways are altered to a modest degree, and act together
We have recently shown that long intergenic noncoding (Linc)00176/C20orf[204] is activated by the protooncogene transcription factor Myc and is expressed at high levels in HCC5
Summary
A large number of driver mutations have been reported in most human cancers. For example, it has been recently shown by exome sequencing of hepatocellular carcinoma (HCC) that 161 putative driver genes are associated with 11 recurrently altered pathways in HCC development[1], suggesting that many signaling pathways are altered to a modest degree, and act together. C20orf[204] in HCC cell lines is translated into a 189 amino acid long arginine rich protein We have previously shown that a splice variant of Linc00176 (IMAGE ID: 4941074), C20orf[204] in HCC cell lines, HepG2 and Huh[7], is transcribed into a 998 nucleotide (nt) long transcript and obtains an open reading frame of 189AA via splicing of the middle part of Exon 2 (Fig. 1a, b)[6].
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